Abstract: BACKGROUND: Alterations in HDACs gene expression have been reported in a number of human cancers. No information is available concerning the status of HDACs in pancreatic cancer tumors. The aim of the present study was to evaluate the expression levels of members of class I (HDAC1, 2,, 3), class II (HDAC4, 5, 6, and 7), and class III (SIRT1, 2, 3, 4, 5, and 6) in a set of surgically resected pancreatic tissues. METHODS: Total RNA was isolated from 11 pancreatic adenocarcinomas (PA): stage 0 (n = 1), IB (n = 1), IIB (n = 6), III (n = 1), IV (n = 2), one serous cystadenoma (SC), one intraductal papillary mucinous tumor of the pancreas (IMPN), one complicating chronic pancreatitis (CP), and normal pancreas (NP) obtained during donor liver transplantation. Moreover, six other control pancreatic were included. HDACs gene expression was conducted using quantitative real-time polymerase chain reaction (qPCR). Protein expression levels were analyzed by Western blot and their localization by immunohistochemistry analyses of cancer tissues sections. RESULTS: Remarkably, 9 of the 11 PA (approximately 81%) showed significant increase of HDAC7 mRNA levels. In contrast to PA samples, message for HDAC7 was reduced in CP, SC, and IMPN specimens. The Western blot analysis showed increased expression of HDAC7 protein in 9 out of 11 PA samples, in agreement with the qPCR data. Most of the PA tissue sections examined showed intense labeling in the cytoplasm when reacted against antibodies to HDAC7. CONCLUSION: The data showed alteration of HDACs gene expression in pancreatic cancer. Increased expression of HDAC7 discriminates PA from other pancreatic tumors.

Abstract: PURPOSE: Multiple biochemical and molecular alterations occur in pancreatic cancer cells. In the present study, attempts were made for the first time, to explore the level of expression of members of histone deacetylase encoding genes (HDACs) in four pancreatic tumor cell lines: Panc-1, BxPC-3, SOJ-6 and MiaPaCa-2; and two non-related tumor cells: Jurkat and HeLa. Furthermore, we examined the possible relationship between the levels of HDACs expression and the sensitivity/resistance to HDAC inhibitors (TSA, Nicotinamide and Sirtinol). RESULTS: We have found that although a slight variation in the profiles of gene expression among cell lines could be evidenced, HDACs protein synthesis seem to be similar. Furthermore, the cells were equally sensitive to inhibition by Sirtinol whereas some variation in the IC(50) could be seen in the case of TSA. We also demonstrate that the drugs had the capacity to induce the death of cells by apoptosis. METHODS: We have used four human pancreatic tumor cell lines and two-non related tumor cells, to evaluate the expression of HDAC encoding genes by RT-PCR and Western blot analysis. We also measured the effect of certain HDAC inhibitors (HDIs) on cell growth, cell cycle alteration, membrane phosphatidyl-serine exposure, DNA fragmentation and mitochondrial membrane potential loss. CONCLUSIONS: Taken together, our data support the notion that the level of cell sensitivity to the HDIs might be related to the level of expression of genes such as those encoding proteins playing a role in cell cycle checkpoints control but not HDAC per se.

Abstract: The complement regulatory protein (CRP) of Trypanosoma cruzi is a surface glycoprotein which confers to the infectious trypomastigote forms a protection against the lytic activity of the host complement. CRP belongs to the large family of the trans-sialidase-like proteins and its sequence is highly similar to those of the flagellar FL-160 and chronic exoantigen proteins, encoded by a multigene family. To further define the gene family encoding the CRP, we investigated the protein diversity among several strains of T. cruzi through the sequencing of trypomastigote transcripts, and used a phylogenetic analysis based on the multiple alignment of these proteins with the top scoring sequences detected by a database sequence homology search. Intrastrain variations in CRP sequences revealed the existence of several copies per strain. The interstrain variability of CRP was consistent with the genetic subdivisions of T. cruzi into lineages and discrete typing units. The phylogenetic analysis based on a 227 amino acid alignment of CRP sequences with the 200 putative proteins retrieved from the protein databases (including the sequences from the T. cruzi genome project) revealed that the CRP sequences clustered with the FL-160 proteins into a monophyletic group characterized by the presence of the 12 amino acid mimicry epitope that mimics nervous tissues. The phylogeny did not differentiate between the CRP and the FL-160 proteins. The identification of this group of CRP-like proteins and the high sequence similarity observed within it open up new prospects for the exploration of the localization, structure and function of these proteins and a better understanding of their involvement in key aspects of host-parasite interactions, such as the resistance to the complement. This work provides also information for the T. cruzi genome annotation of the trans-sialidase-like putative proteins.

Abstract: Proteins of the SIR2 (Silent Information Regulator 2) family are characterized by a conserved catalytic domain that exerts unique NAD(+)-dependent deacetylase activity on histones and various other cellular substrates. Previous reports from us have identified a Leishmania infantum gene encoding a cytosolic protein termed LiSIR2RP1 (Leishmania infantum SIR2-related protein 1) that belongs to the SIR2 family. Targeted disruption of one LiSIR2RP1 gene allele led to decreased amastigote virulence, in vitro as well as in vivo. In the present study, attempts were made for the first time to explore and characterize the enzymatic functions of LiSIR2RP1. The LiSIR2RP1 exhibited robust NAD(+)-dependent deacetylase and ADP-ribosyltransferase activities. Moreover, LiSIR2RP1 is capable of deacetylating tubulin, either in dimers or, when present, in taxol-stabilized microtubules or in promastigote and amastigote extracts. Furthermore, the immunostaining of parasites revealed a partial co-localization of alpha-tubulin and LiSIR2RP1 with punctate labelling, seen on the periphery of both promastigote and amastigote stages. Isolated parasite cytoskeleton reacted with antibodies showed that part of LiSIR2RP1 is associated to the cytoskeleton network of both promastigote and amastigote forms. Moreover, the Western blot analysis of the soluble and insoluble fractions of the detergent of promastigote and amastigote forms revealed the presence of alpha-tubulin in the insoluble fraction, and the LiSIR2RP1 distributed in both soluble and insoluble fractions of promastigotes as well as amastigotes. Collectively, the results of the present study demonstrate that LiSIR2RP1 is an NAD(+)-dependent deacetylase that also exerts an ADP-ribosyltransferase activity. The fact that tubulin could be among the targets of LiSIR2RP1 may have significant implications during the remodelling of the morphology of the parasite and its interaction with the host cell.

Abstract: Novel anti-leishmanial target LmSir2 has few subtle but prudent structural differences in ligand binding and catalytic domain as compared to its human counterpart. In silico screening and validation followed by in vitro deacetylation and cell killing assays described herein give a proof of concept for development of strategies exploiting such minor differences for screening libraries of small molecules to identify selective inhibitors.

Abstract: Leishmaniasis causes significant morbidity and mortality worldwide, constituting an important public health problem. Leishmania infections cause a wide spectrum of diseases, ranging in severity from spontaneously healing skin lesions to fatal visceral disease. Attempts to develop an effective vaccine to control leishmaniasis have been shown to be feasible, but no vaccine is in active clinical use. The ability to create genetically modified parasites by eliminating virulence or essential genes is considered a powerful alternative in the development of an effective protective vaccine. Here, recent findings related to genetically defined live attenuated Leishmania parasites as promising vaccine candidates are reviewed.

Abstract: Chagas disease, caused by the protozoan parasite Trypanosoma cruzi, is a major public health problem in most of Latin America. A key priority is the development of new treatments, due to the poor efficacy of current ones. We report here the comparative evaluation of therapeutic DNA vaccines encoding various T. cruzi antigens. ICR mice infected with 500 parasites intraperitoneally were treated at 5 and 12 days postinfection with 20 microg of plasmid DNA encoding T. cruzi antigens TSA-1, TS, ASP-2-like, Tc52 or Tc24. Treatment with plasmid encoding TS and/or ASP-2-like antigens had no significant effect on parasitemia or survival. Treatment with Tc52 DNA significantly reduced parasitemia, as well as cardiac parasite burden, and improved survival, although myocarditis was not significantly affected. Finally, treatment with plasmids encoding Tc24 and TSA-1 induced the most complete control of disease as evidenced by significant reductions in parasitemia, mortality, myocarditis and heart parasite burden. These data demonstrate that therapeutic vaccine efficacy is dependent on the antigen and suggest that DNA vaccines encoding Tc24, TSA-1, and Tc52 represent the best candidates for further studies of a therapeutic vaccine against Chagas disease.

Abstract: Efforts for the development of new therapeutics, essential for the control of leishmaniasis rely mainly on screening of potentially effective compounds in pathogen growth/multiplication assays, both in vitro and in vivo. Screenings designed to closely reflect the situation in vivo are currently labor-intensive and expensive, since they require intracellular amastigotes and animal models. Screenings designed to facilitate rapid testing of a large number of drugs are not performed on the clinically relevant parasite stage, but the promastigotes. The ability to select transgenic Leishmania expressing reporter proteins, such as the green fluorescent protein (GFP) or the luciferase, opened up new possibilities for the development of drug screening tests. In this review we will focus on available methodologies for direct drug screening purposes against the mammalian stage of the parasite, with emphasis on the future developments that could improve sensitivity, reliability, versatility and the throughput of the intracellular model screening.

Abstract: Parasitic infections are prevalent in both tropical and subtropical areas. Most of the affected and/or exposed populations are living in developing countries where control measures are lacking or inadequately applied. Although significant progress has been made in our understanding of the immune response to parasites, no definitive step has yet been successfully done in terms of operational vaccines against parasitic diseases. Evidence accumulated during the past few years suggests that the pathology observed during parasitic infections is in part due to deregulation of normal components of the immune system, mainly cytokines, antibodies, and immune effector cell populations. A large number of studies that illustrate how parasites can modify the host immune system for their own benefit have been reported in both metazoan and protozoan parasites. The first line of defense against foreign organisms is barrier tissue such as skin, humoral factors, for instance the complement system and pentraxin, which upon activation of the complement cascade facilitate pathogen recognition by cells of innate immunity such as macrophages and DC. However, all the major groups of parasites studied have been shown to contain and/or to release factors, which interfere with both arms of the host immune system. Even some astonishing observations relate to the production by some parasites of orthologues of mammalian cytokines. Furthermore, chronic parasitic infections have led to the immunosuppressive environment that correlates with increased levels of myeloid and T suppressor cells that may limit the success of immunotherapeutic strategies based on vaccination. This minireview briefly analyzes some of the current data related to the regulatory cells and molecules derived from parasites that affect cellular function and contribute to the polarization of the immune response of the host. Special attention is given to some of the data from our laboratory illustrating the role of immunomodulatory factors released by protozoan parasites, in the induction and perpetuation of chronic disease.

Abstract: The cytoplasmic Leishmania silent information regulator 2 (SIR2)RP1 protein is essential for parasite growth and survival and constitutes an attractive therapeutic target. Little information is available on putative substrate(s) and/or partner(s) that could shed light on the pathways in which this enzyme plays a role. We carried out co-immunoprecipitation experiments on the soluble fractions of wild-type and parasites overexpressing LmSIR2RP1 and found that the essential chaperone heat shock protein (HSP) 83, the Leishmania ortholog of the mammalian HSP90, constantly co-immunoprecipitated with LmSIR2RP1. We found that Leishmania HSP83 is among the lysine acetylated protein, but the intracellular level of SIR2RP1 does not influence the acetylation status of HSP83. Finally, the modified Geldanamycin susceptibility (an inhibitor of HSP83) exhibited by SIR2RP1 mutant parasites support an in vivo relationship between the chaperone activity of HSP83 and LmSIR2RP1. An insight on the nature of the interaction in Leishmania is required to understand its role in the cell fate control during cytodifferentiation.

Abstract: Trypanosoma cruzi is highly heterogeneous in terms of genetics and biological properties. To explore the diversity of T. cruzi, we focused our study on the T. cruzi Tc52 protein playing a critical immunosuppressive role during infection. Sequence variability and expression levels of this virulence factor were analysed in various strains. Among the 40 amino acid substitutions detected in the Tc52 coding sequences, three substitutions may have an impact on protein activity or function, as two are localized in sites involved in the glutathione binding and the third is present in the region bearing immunomodulatory function. This sequence variability was consistent with the genetic subdivisions of T. cruzi. Moreover, we observed that the level of Tc52 transcripts and proteins varied between the different strains, but we did not find a significant correlation between Tc52 expression and the phylogeny of the parasite. Thus, both diversity in the sequences and differences in the expression levels of Tc52 protein may be involved in the biological variability of T. cruzi, especially in virulence and immunosuppression properties of T. cruzi strains.

Abstract:

Abstract: The ability to manipulate the Leishmania genome to create genetically modified parasites by introducing or eliminating genes is considered a powerful alternative for developing a new generation vaccine against leishmaniasis. Previously, we showed that the deletion of one allele of the Leishmania infantum silent information regulatory 2 (LiSIR2) locus was sufficient to dramatically affect amastigote axenic proliferation. Furthermore, LiSIR2 single knockout (LiSIR2(+/-)) amastigotes were unable to replicate in vitro inside macrophages. Because this L. infantum mutant persisted in BALB/c mice for up to 6 wk but failed to establish an infection, we tested its ability to provide protection toward a virulent L. infantum challenge. Strikingly, vaccination with a single i.p. injection of LiSIR2(+/-) single knockout elicits complete protection. Thus, vaccinated BALB/c mice showed a reversal of T cell anergy with specific anti-Leishmania cytotoxic activity and high levels of NO production. Moreover, vaccinated mice simultaneously generated specific anti-Leishmania IgG Ab subclasses suggestive of both type 1 and type 2 responses. A strong correlation was found between the elimination of the parasites and an increased Leishmania-specific IFN-gamma/IL-10 ratio. Therefore, we propose that the polarization to a high IFN-gamma/low IL-10 ratio after challenge is a clear indicator of vaccine success. Furthermore these mutants, which presented attenuated virulence, represent a good model to understand the correlatives of protection in visceral leishmaniasis.

Abstract:

Abstract: The cis-diamminedichloroplatinum(II), known as cis-DDP or cisplatin is a widely used drug in cancer chemotherapy. Although a recent study has shown the anti-Leishmania activity of some cis-DDP derivatives, the cytotoxic properties were measured only on promastigotes, the insect vector form of the parasite. In this study the effect of cis-DDP on promastigotes and amastigotes, the vertebrate stage of the parasite is reported. The IC50, determined by flow cytometry, after 72 h of drug incubation was four times higher, 7.73+/-1.03 microM in the case of promastigotes compared to axenic amastigotes, 1.88+/-0.10 microM. In intracellular amastigotes the IC50, determined by counting the parasite index was 1.85+/-0.22 microM. By using flow cytometry, two patterns of cell cycle changes was observed: cis-DDP treated promastigotes and amastigotes accumulated in S phase and G2 phase, respectively. The cis-DDP response was also found to involve an "apoptosis-like" death of both promastigotes and amastigotes. However, DNA fragmentation was only detected in promastigote forms. In contrast mitochondrial transmembrane potential loss was observed for both stages of the parasite. Upon incubation of parasites with the drug an increase on GSH and GSSG levels and reactive oxygen species could be detected in the case of promastigote. Moreover, a slight increase of GSH level was detected on amastigote form. Taken together, these observations indicate that amastigotes are more sensitive to cis-DDP when compared to promastigotes. However, the signaling pathways leading to cell death could be different.

Abstract: The elucidation of the mechanisms of transcriptional activation and repression in eukaryotic cells has shed light on the important role of acetylation-deacetylation of histones mediated by histone acetyltransferases (HATs) and histone deacetylases (HDACs), respectively. Another group belonging to the large family of sirtuins (silent information regulators (SIRs)) has an (nicotinamide adenine dinucleotide) NAD(+)-dependent HDAC activity. Several inhibitors of HDACs (HDIs) have been shown to exert antitumor effects. Interestingly, some of the HDIs exerted a broad spectrum of antiprotozoal activity. The purpose of this review is to analyze some of the current data related to the deacetylase enzymes as a possible target for drug development in cancer and parasitic diseases with special reference to protozoan infections. Given the structural differences among members of this family of enzymes, development of specific inhibitors will not only allow selective therapeutic intervention, but may also provide a powerful tool for functional study of these enzymes.

Abstract: During the past few years, the silent information regulator SIR2 protein family has attracted great interest due to its implication in an organism's life span extension. They bear diverse subcellular localization and play a role in transcriptional silencing and DNA repair. The biochemical reaction catalysed by these enzymes (nicotinamide adenine dinucleotide-dependant deacetylase/adenosine diphosphate-ribosyl transferase) is supposed to be linked to metabolism. Members of this protein family were described in parasitic organisms, but little information is available on potential functions of such enzymes in these organisms. In this article, we review recent information on structure and peculiar functions of SIR2s in eukaryotes, with emphasis on parasitic protozoa, particularly the Trypanosomatidae. Through the enzyme localization and the diverse substrates and by-products of the enzymatic reactions, we approach the potential pathways in which the Leishmania cytosolic SIR2 protein can be involved.

Abstract: In previous studies, we identified a gene product belonging to the silent information regulatory 2 protein (SIR2) family. This protein is expressed by all Leishmania species so far examined (L. major, L. infantum, L. amazonensis, L. mexicana) and found to be crucial for parasite survival and virulence. In the present study, we investigated whether a Leishmania SIR2 recombinant protein (LmSIR2) would affect T- and B-cell functions in a murine model. In vitro treatment of spleen cells from normal BALB/c mice with LmSIR2 showed increased expression of CD69 on B cells. This effect was not abolished by the addition of polymyxin B. Intravenous injection of LmSIR2 into BALB/c mice induced increased spleen B cell number by a factor of about approximately 1.6, whereas no modification occurred at the level of CD4(+) and CD8(+) cells. Furthermore, intraperitoneal injection of LmSIR2 alone without adjuvant into BALB/c mice or nude mice triggered the production of elevated levels of LmSIR2-specific antibodies. The analysis of specific isotype profiles showed a predominance of immunoglobulin G1 (IgG1) and IgG2a antibody responses in BALB/c mice, and IgM in nude mice. Moreover, the anti-LmSIR2 mouse antibodies in the presence of complement induced the in vitro lysis of L. infantum amastigotes. In the absence of complement, the antibodies induced significant inhibition of amastigotes developpement inside macrophages. Together, the current study provides the first evidence that a Leishmania protein belonging to the SIR2 family may play a role in the regulation of immune response through its capacity to trigger B-cell effector function.

Abstract: Direct drug screening against the mammalian stage of Leishmania has been hampered by cost and the time consuming effort required to accomplish it. The ability to derive transgenic Leishmania expressing reporter genes opened up new possibilities for the development of drug screening tests. Further developments to standardize and gather multiple informations could now be envisionned. We will discuss on such available methodologies that could improve sensitivity, reliability, versatility and the rapidity, of the screen based on intracellular model.

Abstract: Silent information regulator 2 (SIR2) proteins are NAD-dependant deacetylases found in organisms ranging from bacteria to human. In eukaryotes, these proteins are involved in many biological processes including transcriptional repression, metabolism, ageing, or apoptosis. Here, we have shown that Sirtinol, a commercially available inhibitor of SIR2 deacetylases, significantly inhibits the in vitro proliferation of Leishmania infantum axenic amastigotes in a dose-dependent manner. This activity is stage specific since sirtinol did not affect the in vitro growth of parasite promastigotes. Growth arrest in amastigotes is associated with genomic DNA fragmentation, a process reminiscent of apoptosis. Interestingly parasites carrying extra copies of the LmSIR2 gene were less susceptible to the sirtinol mediated cell death. Altogether, these results constitute novel evidences that Leishmania SIR2 proteins play a role in the control of the parasite apoptotic phenomenon.

Abstract: In control programs for vectorial transmission of Chagas' disease, conventional microscopic procedures are generally performed to determine baseline levels of infectivity of vectors. Reported here are data using Polymerase Chain Reaction in the detection of Trypanosoma cruzi in Triatoma dimidiata, one of the principal vectors of Chagas' disease in Ecuador. The microscopy and PCR techniques showed a high percentage of vector infection in Pedro Carbo, province of Guayas (Ecuador), with 44.16% and 46.13% positive insects, respectively. This contrasted with the very low Chagas seropositivity recorded (0.5%). Since T. dimidiata was the only vector of the Chagas' disease found in Pedro Carbo and looking at the vector behavior, our data suggest that despite the high T. dimidiata infection, the low Chagas seropositivity detected is closely associated with the epidemiological and ecological context of T. dimidiata in Pedro Carbo.

Abstract: Our study represents the first report demonstrating the antileishmanial activity of nicotinamide (NAm), a form of vitamin B(3). A 5 mM concentration of NAm significantly inhibited the intracellular growth of Leishmania amastigotes and the NAD-dependent deacetylase activity carried by parasites overexpressing Leishmania major SIR2 (LmSIR2). However, the transgenic parasites were as susceptible as the wild-type parasites to NAm-induced cell growth arrest. Therefore, we conclude that NAm inhibits leishmanial growth and that overexpression of LmSIR2 does not overcome this inhibition. The mechanism of the inhibition is not defined but may include other in vivo targets. NAm may thus represent a new antileishmanial agent which could potentially be used in combination with other drugs during therapy.

Abstract: BACKGROUND: In yeast and Caenorhabditis elegans, Silent Information Regulator (SIR2) proteins have been shown to be involved in ageing regulation. In Leishmania, the LmSIR2rp was originally isolated from the excreted/secreted material of the Leishmania parasites. Among the function(s) of this protein in Leishmania biology, we have documented its implication in parasite survival, and in particular in Leishmania amastigotes. In this paper we question the role of the excreted/secreted form of the protein. In particular we wonder if the Leishmania Sir2 homologue is involved in some aspect of its biological function(s), in various components and pathways, which could promote the host cell survival. To test this hypothesis we have mimicked an intracellular release of the protein through constitutive expression in mouse L929 fibrosarcoma cells. RESULTS: Our results demonstrate that the LmSIR2 protein was properly expressed by fibroblasts and that LmSIR2 is localized both in the cytoplasm and the nucleus of all the transformed cell clones. Unexpectedly, we found that cells expressing LmSIR2 presents reduced saturation cell density ranging from 40% to 60% and expressed an acidic (pH6.0) beta-galactosidase activity, which is known to be a senescence biomarker. As a consequence, we observed that LmSIR2 positive fibroblasts were more permissive towards Leihmania infection. CONCLUSIONS: LmSIR2 is able to substantially interfere with the host cell physiology. Thus, it is tempting to speculate that these modifications could help Leishmania to survive for a long period in a cell with reduced capacity to multiply or respond to immunologic stimuli. The potential implications of our finding during the in vivo infection process are discussed.

Abstract: The natural polyamines are ubiquitous polycationic compounds that play important biological functions in cell growth and differentiation. In the case of protozoan species that are causative agents of important human diseases such as Leishmaniasis, an exogenous supply of polyamines supports parasite proliferation. In the present study, we have investigated the effect of three polyamine derivatives, (namely bis-naphthalimidopropyl putrescine (BNIPPut), spermidine (BNIPSpd) and spermine (BNIPSpm)), on the proliferative stages of Leishmania infantum, the causative agent of visceral leishmaniasis in the Mediterranean basin. A significant reduction of promastigotes and axenic amastigotes growth was observed in the presence of increasing concentrations of the drugs, although the mechanisms leading to the parasite growth arrest seems to be different. Indeed, by using a number of biochemical approaches to analyse the alterations that occurred during early stages of parasite-drug interaction (i.e. membrane phosphatidylserine exposure measured by annexin V binding, DNA fragmentation, deoxynucleotidyltranferase-mediated dUTP end labelin (TUNEL), mitochondrial transmembrane potential loss), we showed that the drugs had the capacity to induce the death of promastigotes by a mechanism that shares many features with metazoan apoptosis. Surprisingly, the amastigotes did not behave in a similar way to promastigotes. The drug inhibitory effect on amastigotes growth and the absence of propidium iodide labelling may suggest that the compounds are acting as cytostatic substances. Although, the mechanisms of action of these compounds have yet to be elucidated, the above data show for the first time that polyamine derivatives may act differentially on the Leishmania parasite stages. Further chemical modifications are needed to make the polyamine derivatives as well as other analogues able to target the amastigote stage of the parasite.

Abstract: Diagnosis of leishmaniasis is frequently based on serological methods, such as direct agglutination, immunofluorescence tests and ELISA assays with Leishmania total extracts, as antigen, however due to highly inconclusive results, more reliable tests are needed. In the present study, the prevalence of antibodies to a number of recombinant proteins (LmSIR2, LmS3a, LimTXNPx, LicTXNPx and LiTXN1) highly conserved among Leishmania species, were evaluated by ELISA in Leishmania infantum infected children from an endemic area of Portugal. We found that sera from children patients had antibodies against the different recombinant proteins, LicTXNPx presented the highest immuno-reactivity compared to the other and the most often recognized in the case of acute visceral leishmaniasis (VL). Moreover, in children treated with meglumine antimoniate or amphotericin B, antibodies against some of the recombinant proteins declined, whereas conventional serology using crude extracts showed little or no difference between the pre- and post-treatment values. The highest reduction was observed in the case of antibodies against the LicTXNPx protein. These results suggest that the antibodies against LicTXNPx might be a useful constituent of a defined serological test for the diagnosis and the monitoring of the therapeutic response in VL. The monitoring and follow-up in a large-scale field trials of such marker in areas where leishmaniasis is endemic will lend support to this.

Abstract: In this study Tc52, a Trypanosoma cruzi released protein, which exerts an immunoregulatory activity, was converted to a molecular form with altered biological function. Indeed, the genetic fusion of Tc52 to a carrier protein, the Shistosoma japonicum glutathione S-transferase (Tc52-Sj26), was shown to induce apoptosis in spleen cells from BALB/c or CBA mice and the human T-cell leukemic cell line (CEM). Cell death by apoptosis was evidenced by the following criteria: (1) increased binding of Annexin V to rTc52-treated spleen cells; (2) the presence of an ordered cleavage of the DNA backbone; (3) double labeling showed increased number of T cells undergoing apoptosis upon incubation with rTc52; (4) the use of a CEM cell line and TUNEL assay allowed to show in situ DNA fragmentation. Surprisingly, intraperitoneal injections of rTc52 to BALB/c mice, which were then infected with T. cruzi, resulted in increased parasiteamia levels and is congruent to 2.5 times increase of macrophages number. Since native Tc52 could not trigger, apoptosis of T cells we could hypothesized that the fusion of Tc52 with Sj26 led to conformational changes resulting in apoptosis inducing properties of rTc52. The possible in vivo physiopathological implications of these finding were discussed.

Abstract: Proteins of the SIR2 family are characterized by a conserved catalytic domain that exerts unique NAD-dependent deacetylase activity on histone and various other cellular substrates. Functional analyses of such proteins have been carried out in a number of prokaryotes and eukaryotes organisms but until now, none have described an essential function for any SIR2 genes. Here using genetic approach, we report that a cytosolic SIR2 homolog in Leishmania is determinant to parasite survival. L. infantum promastigote tolerates deletion of one wild-type LiSIR2 allele (LiSIR2+/-) but achievement of null chromosomal mutants (LiSIR2-/-) requires episomal rescue. Accordingly, plasmid cure shows that these parasites maintain episome even in absence of drug pressure. Though single LiSIR2 gene disruption (LiSIR2+/-) does not affect the growth of parasite in the promastigote form, axenic amastigotes display a marked reduction in their capacity to multiply in vitro inside macrophages and in vivo in Balb/c mice. Taken together these data support a stage specific requirement and/or activity of the Leishmania cytosolic SIR2 protein and reveal an unrelated essential function for the life cycle of this unicellular pathogenic organism. The lack of an effective vaccine against leishmaniasis, and the need for alternative drug treatments, makes LiSIR2 protein a new attractive therapeutic target.

Abstract: We have previously identified a Trypanosoma cruzi gene encoding a protein named Tc52 sharing structural and functional properties with the thioredoxin and glutaredoxin family involved in thiol-disulfide redox reactions. Gene targeting strategy and immunological studies allowed showing that Tc52 is among T. cruzi virulence factors. Taking into account that T. cruzi has a genetic variability that might be important determinant that governs the different behaviour of T. cruzi clones in vitro and in vivo, we thought it was of interest to analyse the sequence polymorphism of Tc52 gene in several reference clones. The DNA sequences of 12 clones which represent the whole genetic diversity of T. cruzi allowed showing that 40 amino-acid positions over 400 analysed are targets for mutations. A number of residues corresponding to putative amino-acids playing a role in GSH binding and/or enzymatic function and others located nearby are subject to mutations. Although the immunological analysis showed that Tc52 is present in parasite extracts from different clones, it is possible that the amino-acid differences could affect the enzymatic and/or the immunomodulatory function of Tc52 variants and therefore the parasite phenotype.

Abstract: A number of features occurring during host-parasite interactions in Chagas disease caused by the protozoan parasite, Trypanosoma cruzi, and Leishmaniasis, caused by a group of kinetoplastid protozoan parasites are reminiscent of those observed in cancer diseases. In fact,although the cancer is not a single disease, and that T.cruzi and Leishmania are sophisticated eukaryotic parasites presenting a high level of genotypic variability the growth of the parasites in their host and that of cancer cells share at least one common feature, that is their mutual capacity for rapid cell division. Surprisingly, the parasitic diseases and cancers share some immune evasion strategies. Consideration of these immunological alterations must be added to the evaluation of the pathogenic processes. The molecular and functional characterization of virulence factors and the study of their effect on the arms of the immune system have greatly improved understanding of the regulation of immune effectors functions. The purpose of this review is to analyze some of the current data related to the regulatory components or processes originating from the parasite that control or interfere with host cell physiology. Attempts are also made to delineate some similarities between the immune evasion strategies that parasites and tumors employ. The elucidation of the mode of action of parasite virulence factors toward the host cell allow not only provide us with a more comprehensive view of the host-parasite relationships but may also represent a step forward in efforts aimed to identify new target molecules for therapeutic intervention.

Abstract: Immunopathology of Chagas' disease in Balb/c mice infected with 2 Trypanosoma cruzi clones, belonging to the T. cruzi I lineage and presenting different in vitro virulence (P/209 cl1 > SO34 c14) was compared. In the acute phase, evading mechanisms such as parasite-induced lymphocyte polyclonal activation and T cell immunosuppression were higher in mice infected with the clone giving a higher parasitaemia (P/209 cl1). A similar increase of non-specific isotypes was observed in both infections with IgG2a prevalence. Interestingly, CD8+ cell hypercellularity and lymphocyte immunosuppression were observed during the chronic phase (245 days post-infection) in mice infected by the most virulent clone. In the same way, the parasite-specific antibody response was more intense in P/209 cl1-infected mice over the acute phase. During the chronic phase this response remarkably dropped down in SO34 cl4-infected mice exclusively. Finally, P/209 cl1-infected mice presented a more severe inflammation and tissue damage in heart and quadriceps than SO34 cl4-infected mice. This comparative study showed differences between the two clones: a higher virulence in vivo being clearly associated with a greater ability to induce evasion mechanisms and severe tissue damage.

Abstract: Granite rocks is a very abundant material in Mexico because they are used habitually as borders for fields. The current work established the significance of this ecotype as a colonization site for triatomines of the Phyllosoma complex. Seven sites, arbitrary selected, in San Martin de Hidalgo municipality (Mexico) were investigated in April 2002 by using 210 mouse bait-traps left during the night in wall hollows. One hundred and seventy-two triatomines of all life stages were collected from the seven sites. Triatomines adhered to the tape that covered the traps or were found near them, and 36.6% of the traps collected triatomines. The principal species was Triatomia longipennis Usinger (1939) and low numbers of Triatoma picturata Usinger (1939) were found. The nymphal population was very young, probably corresponding to the reproductive period in April (end of the dry season). The infection rate of the triatomines for Trypanosoma cruzi was 49%. Because collecting triatomines in the field is laborious and time-consuming, the mouse bait-trap method found to be practical to assess the population of triatomines within a sylvatic habitat.

Abstract: Three polyamine derivatives assigned as bis-naphthalimidopropyl putrescine (BNIPPut), spermidine (BNIPSpd) and spermine (BNIPSpm) were studied to determine their effects on the proliferation of murine splenocytes and human peripheral blood mononuclear cells (PBMC) induced by the mitogens, Con A, LPS and PHA. All compounds showed a dose dependent inhibitory effect on mouse and human T cell proliferation induced by the mitogens, with BNIPPut exhibiting the most potent antiproliferative activity, followed by BNIPSpd and by BNIPSpm, respectively (Put > Spd > Spm), when considering human T cells. This suppressive activity also affects the capacity of mouse spleen cells to produce Th1 cytokines, namely IL-2 and INF-gamma after in vitro stimulation with Con A. The polyamine-induced inhibition also occurred in the case of LPS-stimulated B cells with a marked decrease of CD69 expression by these cells. Furthermore, the ability for these polyamine derivatives to induce apoptosis on Con A-stimulated splenocytes could be related to their antiproliferative activity.

Abstract: We analyzed triatomine blood feeding patterns to evaluate the role of peridomiciles in Trypanosoma cruzi transmission at the rural village of Tepehuaje de Morelos at Jalisco State, Mexico (1999). A total of 206 bugs were collected in 11 out of 26 households (42.3%). Nymphs predominated in the collections (64.9% of the total). Except for one Triatoma barberi female, a species that belongs to the protracta species complex, all adults were Triatoma longipennis, a species of the phyllosoma complex. Triatomines were exclusively present in peridomestic sites mainly piles of tiles and bricks, and none were found indoors. Overall infection rate was 56.6% and no significant differences (P > 0.05) were observed between nymphs and adults or males and females. Identified blood meals were chicken (29.4%), opossum (20.9%), pig (24.5%), murid (20.9%), dog (3.5%), and armadillo (0.7%). No gut content reacted against anti-human, anti-bovine, anti-rabbit, and anti-cat sera. In contrast to fifth nymphs and adults, 87% of the small nymphs fed on one host, indicating that they are less mobile than other stages. Most fifth nymphs and adults fed on domestic hosts, while small nymphs mainly fed on opossum and murid. Infection blood-meal indexes were around 50% for single meals on opossum and murid, stressing their importance as trypanosome donors. Peridomiciles in Tepehuaje could be regarded as interaction sites among domestic and wild and synanthropic mammals and triatomines, which would facilitate circulation of the same T. cruzi strains between domestic and sylvatic cycles. Stone-made walls and building materials, which hold synanthropic rodents and opossums, should be considered as targets for vector control measures.

Abstract: The parasitic protozoa Trypanosoma cruzi and Leishmania sp release a variety of molecules into their mammalian hosts (ESA: excretory-secretory products). The effects of these ESA on the host cell function may participate in the establishment of a successful infection, in which the parasite persists for a sufficient period of time to complete its life cycle. A number of regulatory components or processes originating from the parasite that control or regulate the metabolism and the growth of host cell have been identified. The purpose of the present review is to analyze some of the current data related to the parasite ESA that interfere with the host cell physiology. Special attention is given to members of conserved protein families demonstrating remarkable diversity and plasticity of function (ie, glutathione S-transferases and related molecules; members of the trans-sialidase and mucin family; and members of the ribosomal protein family). The identification of parasite target molecules and the elucidation of their mode of action toward the host cell represents a step forward in efforts aimed at an immunotherapeutic or pharmacological control of parasitic infection.

Abstract: Dogs are the domestic reservoir of zoonotic visceral Leishmaniasis caused by Leishmania infantum in the Mediterranean basin and thus constitute an important health problem in both human and veterinary medicine. Until vaccines become available, conventional measures such as epidemiological surveillance including reservoir control will be among the practical options for prevention and containment of the disease. We have recently characterised novel Leishmania sp. genes encoding parasite proteins named (LmS3a: homologous to mammalian ribosomal protein S3a; LmSIR2: homologous to the silent information regulatory 2 protein family; LimTXNPx: homologous to the peroxiredoxin family with N-terminal mitochondrial leader sequence) that may contribute to the host immune dysfunction in murine experimental Leishmaniasis. In the present study we have investigated the humoral responses against the parasite antigens in groups of L. infantum-infected dogs with different clinical status: symptomatic and asymptomatic with DTH positive or negative test. The determination of immunoglobulin (Ig) isotypes revealed high levels of total IgG in both symptomatic and asymptomatic animals when compared to IgM. Furthermore, the IgG2 appeared to be the predominant subclass of Ig present in the sera of infected animals particularly in the case of symptomatic dogs. The IgG subclass reactivity analysis revealed a broad specific recognition range of parasite recombinant antigens. Interestingly, differential profiles of IgG1 and IgG2 antibody reactivity were observed in asymptomatic and symptomatic dogs. The LmSIR2 protein was found to be a highly reactive molecule with IgG2 from most of the asymptomatic and symptomatic animals. Considering the fact that LmSIR2 secreted by the parasites can be bound and taken up by neighbouring cells, the latter could be a target for anti-LmSIR2 antibodies and this may contribute to the immunopathological alterations and host tissue damage. The implications of these observations in the pathogenesis of Leishmaniasis are discussed.

Abstract: The intracellular protozoan parasite Trypanosoma cruzi is the aetiological agent of Chagas' disease. We have previously identified a T. cruzi-released protein called Tc52, which is crucial for parasite survival and virulence. In the present study, we attempted to define the Tc52 epitope(s) responsible for its immunoregulatory function. A naturally occurring major peptide fragment of molecular mass 28 kDa (Tc28k) was identified, which was localized in the C-terminal portion of Tc52 and was inhibitory for T-cell activation. Synthetic peptides corresponding to amino acid sequences in Tc52 were evaluated for their ability to modulate T-cell proliferation and cytokine production. Results obtained using five peptides spanning the N-terminal or C-terminal domain of the Tc52 protein indicated that the activity mapped to Tc52 residues 432-445. Moreover, it was found that the peptide, when coupled to a carrier protein (ovalbumin), exhibited increased inhibitory activity on T-lymphocyte activation. Incubation with 8 nm ovalbumin-coupled peptide 432-445 resulted in approximately the same levels (>75%) of inhibition of T-cell proliferation as 5 micro g/ml Tc28k. Furthermore, we showed that the coupled peptide significantly down-regulated the secretion of interferon-gamma (IFN-gamma) and interleukin-2 (IL-2). Likewise, in immunized mice, the coupled peptide 432-445 was a very poor B- and T-cell antigen compared with the other Tc52-derived peptides. These results suggest that the immunomodulatory portion of the T. cruzi Tc52 virulent factor may reside, at least in part, in a conserved sequence within its C-terminal domain, which could minimize its antigenicity.

Abstract: In Mexico, Triatoma longipennis (Usinger), Triatoma picturata (Usinger), and Triatoma pallidipennis (Stal), primary Chagas disease vector species of the phyllosoma complex, were analyzed by randomly amplified polymorphic DNA (RAPD). Sixteen decametric primers resolved individual profiles not identical, but partially discriminative between species. Analysis based on pairwise presence/absence comparisons between the three species was performed using three primers and two outgroup species Triatoma infestans (Klug) and Triatoma barberi (Usinger). Fifty-three bands in total were scored, although only two bands were constant among the three phyllosoma complex species. Two other bands were constant only for T. longipennis and T. picturata together, and not present in T. pallidipennis. Neighbor Joining tree and the multiple correspondence analysis discriminated T. pallidipennis clearly from the other two species, although there was overlap between T. longipennis and T. picturata. The results indicate a close relationship between the studied species and support the hypothesis of their recent evolution. The suitability of RAPD to discern populations within the species is discussed.

Abstract: The intracellular protozoan parasite Trypanosoma cruzi is the etiological agent of Chagas' disease. We have previously characterized a T. cruzi virulence factor named Tc52 sharing structural and functional properties with the thioredoxin and glutaredoxin protein family. Single mutant parasite clones (Tc52(+/-)) exhibiting low virulence in vitro and in vivo were obtained by targeted Tc52 gene replacement. In this report, we have extended our study to analyze the immune response and the disease phenotype in Tc52(+/-)-infected BALB/c mice, during the acute and chronic phases of the disease. Significantly lower parasitemia were found in Tc52(+/-)-infected mice, as compared to wild-type parasite (WT)-infected ones. However, the expansion of all classes of lymphocytes and macrophages was similar for both clones. Furthermore, except for IgG2b levels which were higher in the case of WT-infected mice, all classes of Ig presented no significant difference for WT and Tc52(+/-)-infected animals. Interestingly, a lack of suppression of IL-2 production and of T-cell proliferation inhibition was observed in the case of spleen cells from Tc52(+/-)-infected mice. Finally, the pattern of inflammation process was different and characterized as diffused in the case of Tc52(+/-)-infected mice, or presenting numerous foci in the case of WT-infected mice. Localization of the Tc52 protein in tissue sections and infected heart cell primary cultures by immunofluorescence and immunogold labeling, respectively, revealed the presence of Tc52 at the amastigote surface and associated to aggregates within host cell vesicles. Taken together, these results reinforce the notion of Tc52 being a virulence factor playing a role in the phenotype of the immune response associated to the infection and on the course of the disease.

Abstract: Members of the Trypanosomatidae family comprises species that are causative of important human diseases such as Chagas'disease, Leishmaniasis and sleeping sickness. A wealth of evidence has accumulated that illustrates the ability of these unicellular organisms to undergo, with or without induction (stress conditions), a cell death with some features resembling apoptosis-like phenomenon. However, despite the apparent phenotypic similarities between the apoptosis-like death of kinetoplastids and mammalian nucleated cell programmed cell death (PCD), the pathways seem to differ significantly. This review analyses some of the current data related to the cell death in trypanosomatids. Special attention is given to members of conserved protein families demonstrating remarkable diversity and plasticity of function [i.e. elongation factor-1 subunits alpha and gamma; and the Silent Information Regulator (SIR2)-related gene, showed to be associated with resistance to apoptosis-like death in Leishmania]. The elucidation of the molecular events which tightly regulated the processes of growth arrest, differentiation and death of Trypanosoma cruzi, Leishmania spp and African trypanosomes, might allow not only to define a more comprehensive view of the cell death machinery in term of evolutionary origin but may also be useful to identify new target molecules for chemotherapeutic drug development and therapeutic intervention.

Abstract: There is a rapidly expanding interest into the glutathione S-transferases (GSTs) and the structurally related molecules. Many of the latter have been identified as members of conserved protein families sharing structural and some times functional properties being particularly involved in heat-shock response, drug resistance and carcinogenesis. Also, evidence is emerging that members of the GST super family from some pathogens could exert immunomodulatory functions toward the cell of the immune system, involving separate profiles of cytokine gene transcription and different patterns of cell growth, illustrating therefore the 'one gene-dual function' phenomenon. The implication of these biological properties for pathogenesis is discussed.

Abstract: The intracellular protozoan parasite Trypanosoma cruzi is the etiological agent of Chagas disease. We have recently identified a T. cruzi-released protein related to thiol-disulfide oxidoreductase family, called Tc52, which is crucial for parasite survival and virulence. In vitro, Tc52 in combination with IFN-gamma activates human macrophages. In vivo, active immunization with Tc52 relieves the immunosuppression associated to acute infection and elicits a specific immune response. As dendritic cells (DC) have a central role in the initiation of immune responses, we investigated whether Tc52 may modulate DC activity. We show that Tc52 induces human DC maturation. Tc52-treated immature DC acquire CD83 and CD86 expression, produce inflammatory chemokines (IL-8, monocyte chemoattractant protein-1, and macrophage-inflammatory protein-1 alpha), and present potent costimulatory properties. Tc52 binds to DC by a mechanism with the characteristics of a saturable receptor system and signals via Toll-like receptor 2. While Tc52-mediated signaling involves its reduced glutathione-binding site, another portion of the molecule is involved in Tc52 binding to DC. Finally, we report that immunization with Tc52 protects mice in vivo against lethal infection with T. cruzi. Together these data evidence complex molecular interactions between the T. cruzi-derived molecule, Tc52, and DC, and suggest that Tc52 and related class of proteins might represent a new type of pathogen-associated molecular patterns. Moreover, the immune protection data suggest that Tc52 is among candidate molecules that may be used to design an optimal multicomponent vaccine to control T. cruzi infection.

Abstract: We have analysed by multilocus enzyme electrophoresis (MLEE) at 21 genetic loci 10 Trypanosoma cruzi stocks isolated from chronic chagasic patients and 3 stocks isolated from Triatoma dimidiata collected in human habitats from the coastal part of Ecuador (all stocks isolated in August-December 1998). Isoenzyme profiles were compared to those of 4 laboratory-cloned stocks representing the major phylogenetic subdivisions of T. cruzi. This parasite's genetic variability in Ecuador proved to be considerable, even in this limited sample, since all main isoenzyme genotypes were recorded. Four stocks from patients were identical at all loci to the reference stock MNcl2 ('major clonet #39'; T. cruzi II) isolated in Chile. The 3 stocks isolated from T. dimidiata were closely related to the formerly described zymodeme I (T. cruzi I). Finally, 3 stocks from chronic chagasic patients (one with an asymptomatic form, 2 with a cardiac-digestive form) were closely related to the formerly described zymodeme III (presently not classified in either T. cruzi I or T. cruzi II). This is the first observation of this category of T. cruzi genotypes in chronic chagasic patients. In the past it was recorded only in acute patients, wild mammals and wild triatomine bugs. The epidemiological implications of these results are discussed.

Abstract: The Silent Information Regulator (SIR2) family of genes have been cloned from a variety of species ranging from bacteria to man. In previous studies, we reported the characterization of a Leishmania major gene encoding a protein with extensive homology to yeast SIR2p and expressed by different Leishmania species and parasite developmental stages and thus termed LmSIR2. Unlike the yeast SIR2p, LmSIR2p is mainly localized within the cytoplasm. In the present study, sequencing of a homologue encoding gene in another Leishmania species, Leishmania infantum, revealed 93% overall amino acid identity with L. major SIR2 gene. Further, using L. infantum as a recipient for a plasmid vector (pTEX) which allows overexpression of LmSIR2p led to the accumulation of the protein in the parasite cytoplasm of both promastigote and amastigote forms and a striking increase in the survival of amastigotes, the vertebrate stage of the parasite, when maintained under normal axenic culture conditions. This phenotype was also observed when L. infantum parasites were transfected with a cosmid vector (CLHyg), isolated from a L. infantum cosmid library, carrying the L. infantum SIR2 gene (CLHyg-LiSIR2). In contrast, no effect was observed on survival of the promastigote forms (insect stage) under similar culture conditions. However, when the glucose was used as a unique source of energy under starvation conditions, the viability of promastigotes was significantly enhanced. Moreover, we showed that amastigote forms in the stationary phase of culture died with a feature of apoptosis as revealed by the appearance of YOPRO-1 positive cells and that expression of LmSIR2 protein substantially delays this phenomenon. Taken together, these results demonstrate the existence of SIR2-related proteins encoding genes in different Leishmania species and suggest that LmSIR2p could participate among other factors in the control of cell death.

Abstract: The basic treatment of leishmaniasis consists in the administration of pentavalent antimonials. The mechanisms that contribute to pentavalent antimonial toxicity against the intracellular stage of the parasite (i.e., amastigote) are still unknown. In this study, the combined use of several techniques including DNA fragmentation assay and in situ and cytofluorometry terminal deoxynucleotidyltransferase-mediated dUTP-biotin nick end labeling methods and YOPRO-1 staining allowed us to demonstrate that potassium antimonyl tartrate, an Sb(III)-containing drug, was able to induce cell death associated with DNA fragmentation in axenic amastigotes of Leishmania infantum at low concentrations (10 microg/ml). This observation was in close correlation with the toxicity of Sb(III) species against axenic amastigotes (50% inhibitory concentration of 4.75 microg/ml). Despite some similarities to apoptosis, nuclease activation was not a consequence of caspase-1, caspase-3, calpain, cysteine protease, or proteasome activation. Altogether, our results demonstrate that the antileishmanial toxicity of Sb(III) antimonials is associated with parasite oligonucleosomal DNA fragmentation, indicative of the occurrence of late events in the overall process of apoptosis. The elucidation of the biochemical pathways leading to cell death could allow the isolation of new therapeutic targets.

Abstract:

Abstract: An intense suppression of T cell proliferation to mitogens and to antigens is observed in a large number of parasitic infections. The impairment of T cell proliferation also occurred during the acute phase of Chagas' disease, caused by the intracellular protozoan parasite Trypanosoma cruzi. A wealth of evidence has accumulated that illustrates the ability of T. cruzi released molecules to influence directly a variety of diverse immunological functions. In this paper, we review the data concerning the immunoregulatory effects of T. cruzi Tc24 (a B cell activator antigen) and Tc52 (an immunosuppressive protein) released molecules on the host immune system. The gene targeting approach developed to further explore the biological function(s) of Tc52 molecule, revealed interesting unexpected functional properties. Indeed, in addition to its immunusuppressive activity a direct or indirect involvement of Tc52 gene product alone or in combination with other cellular components in T. cruzi differentiation control mechanisms have been evidenced. Moreover, targeted Tc52 replacement allowed the obtention of parasite mutants exhibiting low virulence in vitro and in vivo. Thus, the generation of a complete deficiency state of virulence factors by gene targeting should provide a means to assess the importance of these factors in the pathophysiological processes and disease progression. It is hoped that such approaches might allow rational design of tools to control T. cruzi infections.

Abstract: Pentavalent antimonial unresponsiveness is an emerging problem in endemic areas and information on factors which could modulate the transmission of drug-resistant phenotypes and parasites during life cycle are warranted. Using axenic amastigotes resistant to potassium antimonyl tartrate (Sb(III)) we investigated the modulation of antimonyl resistance during the in vitro life cycle. We assessed: (i) the stability of the drug-resistant phenotype during the in vitro life cycle; (ii) the transmission of drug-resistant clones when mixed with a wild-type clone at different susceptible/chemoresistant ratios (50/50,90/10,10/90) after one or two in vitro life cycles. We demonstrate that: (i) mutants which were 12,28,35 and 44 fold more resistant to Sb(III)-antimonial than their parental wild-type, were Glucantime Sb(V)-resistant when growing in THP-1 cells; (ii) the drug-resistant phenotype was partially retained during long-term in vitro culture (3 months) in drug free medium; (iii) the antimonyl-resistant phenotype was retained after one or more in vitro life cycles. However, when drug-resistant parasites were mixed with susceptible, mutants could not be detected in the resulting population, after one or two in vitro life cycles, whatever the initial wild-type/chemoresistant ratio. These results could be explained by the lower capacity of drug-resistant amastigotes to undergo the amastigote-promastigote differentiation process, leading probably to their sequential elimination during life cycle. Taken together, these observations demonstrate that different factors could modulate the transmission of Leishmania drug resistance during the parasite's life cycle.

Abstract: We have recently characterized a novel Leishmania major gene encoding a polypeptide of 30 kDa that was homologous to mammalian ribosomal protein S3a and was named LmS3a-related protein (LmS3arp). The protein was found to be expressed by all the Leishmania species so far examined (L. infantum, L. amazonensis, and L. mexicana). In the present study we have extended our approach to the analysis of LmS3arp activity on T- and B-cell functions in a murine model. The results presented in this report show that LmS3arp plays a dual role in the regulation of T- and B-cell reactivity. Indeed, we found that injection of the LmS3arp recombinant protein (rLmS3arp) into BALB/c mice induces preferential activation of B cells, as shown by the following criteria: (i) increased expression of CD69 molecules on immunoglobulin M (IgM)-secreting spleen cells, (ii) a considerable increase of IgM-secreting B cells, and (iii) elevated levels of IgM antibodies in the sera of injected animals. Moreover, the IgM antibodies are not specific to the Leishmania antigens but preferentially recognize heterologous antigens like myosin, thyroglobulin, DNA, and keyhole limpet hemocyanin. Furthermore, the strong polyclonal expansion of nonspecific, non-parasite-directed B-cell clones induced by rLmS3arp is concomitant with a marked inhibition of T-cell proliferation. Analysis of cytokine production revealed a significant downregulation of gamma interferon, interleukin-2 (IL-2), and IL-12 secretion. Taken together, our data suggest that rLmS3arp, through direct or indirect action toward B and T cells and cytokine secretion, could participate in the immunoregulatory processes that play a role in the balance of the Th1 and Th2 immune response.

Abstract:

Abstract: We have previously identified a Trypanosoma cruzi cDNA encoding a protein named Tc52 sharing structural and functional properties with the thioredoxin and glutaredoxin protein family involved in thiol-disulphide redox reactions. Furthermore, we reported that Tc52 also plays a role in T. cruzi-associated immunosuppression observed during Chagas' disease. Moreover, Tc52 gene targeting deletion strategy allowed us to demonstrate that monoallelic disruption of Tc52 resulted in the alteration of the metacyclogenesis process and the production of less virulent parasites. Sequence analysis of a 7358 bp genomic fragment containing the Tc52 encoding gene revealed two additional open reading frames (ORF-A and C). The ORFs are likely to have protein coding function by a number of criteria, including reverse transcriptase polymerase chain reaction (RT-PCR), Western blot and immunofluorescence analyses. The deduced amino-acid (aa) sequence of the ORF-A localized upstream of the Tc52 gene revealed that it contains within its N-terminus (aa 1 to 170) four RGG boxes known to act as RNA binding motifs in some proteins that interact with RNA, interspersed with a high density of glycine with regular spacing of tryptophan (WX(9-10)) in which X is often a glycine. Moreover, the C-terminal part of the ORF-C (aa 253-289) contains a motif that is strikingly similar (7-35% identity, 14-46% similarity over 28aa) to a short sequence (RNP1) comprising the consensus sequence RNA binding domain (CS-RBD) found in a number of proteins that interact with RNA. The aa sequence from the ORF-C localized downstream of the Tc52 gene showed significant homology to human adenosine deaminase acting on RNA (hADAT1) that specifically deaminates adenosine 37 to inosine in eukaryotic tRNA(Ala) and to its homologue yeast protein (Tad1p) (22-25% identity and an additional 38-40% similarity over 177aa). Moreover, highly similar motifs of the deaminase domain are present in the T. cruzi ORF-C. Furthermore, the 5' flanking regions of the genes contained repeat TATA and CAAT nucleotide sequences which resemble the motifs found upstream of the transcription initiation sites in eukaryotic promoters. Therefore, the characterization of novel T. cruzi genes encoding proteins which show similarity to components of RNA processing reactions provides new tools to investigate the gene expression regulation in these parasitic organisms. Moreover, our recent findings on the Tc52 encoding gene underline the interest of genetic manipulation of T. cruzi, not only making it possible to use more closely an in vitro approach to find out how genes function, but also to obtain 'attenuated' strains that could be used in the development of vaccinal strategies.

Abstract: Following purification by affinity chromatography, a Leishmania major S-hexylglutathione- binding protein of molecular mass 66kDa was isolated. The immune serum against the parasite 66kDa polypeptide when used to screen a L. major cDNA library could identify clones encoding for the human v-fos transformation effector homologue, namely ribosomal protein S3a, and thus was named LmS3a-related protein (LmS3arp). A 1027bp cDNA fragment was found to contain the entire parasite gene encoding for a highly basic protein of 30kDa calculated molecular mass sharing homology to various ribosomal S3a proteins from different species. Using computer methods for a multiple alignment and sequence motif search, we found that LmS3arp shares a sequence homology to class theta glutathione S-transferase mainly in a segment containing critical residues involved in glutathione binding. These new findings are discussed in the light of recent published data showing multiple function(s) of the ribosomal proteins S3a.

Abstract: We have identified previously a Trypanosoma cruzi gene encoding a protein named Tc52 sharing structural and functional properties with the thioredoxin and glutaredoxin protein family involved in thiol-disulphide redox reactions. Furthermore, we have reported that Tc52 also played a role in T. cruzi-associated immunosuppression observed during Chagas' disease. In an effort to understand further the biological role of Tc52, we used a gene-targeted deletion strategy to create T. cruzi mutants. Although T. cruzi tolerates deletion of one wild-type Tc52 allele, deletion of both genes is a lethal event, indicating that at least one active Tc52 gene is required for parasite survival. Monoallelic disruption of Tc52 (Tc52+/-) resulted in the production of T. cruzi lines that express less Tc52 mRNA and produced lower amounts of Tc52 protein compared with wild-type cells. In axenic cultures, growth rates of epimastigote forms bearing an interrupted allele were not different from those of wild-type parasites. Furthermore, monoallelic disruption of the Tc52 gene did not modify the growth rate of epimastigotes or their sensitivity to inhibition by benznidazole and nifurtimox, the two drugs used to treat Chagasic patients. Moreover, the antimonial drug SbIII, which is known, at least in Leishmania parasites, to be conjugated to a thiol and extruded by an ATP-coupled pump, had a similar effect on wild-type and mutant parasites, being equally sensitive. Hence, parasite drug sensitivity was also observed in clones overexpressing the Tc52 protein as well as in those carrying an antisense plasmid construct. Surprisingly, a significant impairment of the ability of epimastigotes carrying a Tc52 single gene replacement or antisense construct to differentiate into metacyclic trypomastigotes and to proliferate in vitro and in vivo was observed, whereas no significant enhancement of these biological properties was seen in the case of parasites that overexpress Tc52 protein. Moreover, functional complementation of Tc52+/- single mutant or selection of antisense revertant clones demonstrated that the phenotype observed is a direct consequence of Tc52 gene manipulation. Taken together, these results may suggest that Tc52 could participate among other factors in the phenotypic expression of T. cruzi virulence.

Abstract: Trypanosoma cruzi target molecules that might regulate the host immune responses have not yet been fully identified. In the present study, we demonstrate that the parasite-released molecule (Tc52) was able to synergize with IFN-gamma to stimulate nitric oxide production by macrophages. This synergistic effect was also observed at the level of inducible nitric oxide synthase gene expression. Furthermore, Tc52 was also shown to induce gene expression for IL-1alpha, IL-12, and IL-10. Moreover, the combination of Tc52 and IFN-gamma down-regulates IL-1alpha and IL-10 gene expression, but not IL-12. Isotype profiles and Tc52 or anti-CD3-induced T cell proliferation were also analyzed, indicating that active immunization with Tc52 partially relieves the immunosuppression observed during the acute phase of the disease. Moreover, under conditions of experimental infection, the Tc52 appears immunologically silent, failing to elicit Ab response and lymphocyte proliferation during the initial acute phase infection. Following active immunization, Tc52 was capable of stimulating T cell proliferation and Ab production with a predominance of IgG1, IgG2a, IgG2b, IgG3, and to a lesser extent IgA. Taken together, these results demonstrate that T. cruzi Tc52-released Ag could be involved in the immunoregulatory processes. The immune response against Tc52 that appears late in the T. cruzi infection may play a role in the modulation of its biological function(s).

Abstract: Trypanosoma cruzi, the causative agent of Chagas' disease, is a protozoan parasite that infects humans and other mammals in Central and Latin America. Several alterations of the immune response after infection have been described, such as severe immunosuppression of both cellular and humoral responses and massive polyclonal B- and T-cell activation, including the expansion of self-reactive clones. We have investigated the effects of the intraperitoneal injection of a recombinant 24,000 MW T. cruzi-specific antigen (rTc24) on the immune response of normal and deficient strains of mice. We analysed the in vivo and ex vivo levels of lymphocyte activation and the proliferative responses to rTc24 by determining the expression of CD69 activation marker and the levels of thymidine incorporation by spleen cells. The numbers of antibody-producing cells were determined by ELISPOT and the levels of immunoglobulin in the sera by isotype-specific enzyme-linked immunosorbent assay. We observed an increased [3H]thymidine ([3H]TdR) incorporation by spleen cells after rTc24 stimulation in vivo and in vitro. This proliferative activity induced by rTc24 was independent of the mouse strain used in the experiments (including C3H/HeJ mice) and ruled out the possibility that rTc24 preparations were contaminated by lipopolysaccharide. The injection of rTc24 protein induced preferentially the activation of B cells, as determined by the increased expression of CD69 molecules on IgM+ spleen cells. Considerable increases of IgM-secreting B cells were determined in both athymic and euthymic BALB/c mice. Mice that are deficient in B cells (BALB.Xid) responded to rTc24 but to a lesser extent. These increases in IgM B-cell numbers were accompanied by elevated levels of IgM immunoglobulins in the sera of injected animals. Our results suggest a role for rTc24 in B-cell activation.

Abstract: In previous studies we have characterized several Leishmania major polypeptides and showed that one member of this group (LmSIR2rp) shared significant homology to silent information regulator 2 (SIR2) of Saccharomyces cerevisiae, a protein playing a role in both telomeric and mating type loci repression in these organisms. In the present study, by using molecular and immunological approaches, we could identify LmSIR2rp homologues in different Leishmania species and developmental stages (e.g. logarithmic (LP) and stationary phase promastigotes (SP) and amastigotes). The reactive antigen was also detected in Trypanosoma cruzi extracts. Surprisingly, immunofluorescence assays revealed that LmSIR2rp is associated mainly with cytoplasmic granules of different sizes and numbers depending on the life stage of the parasite used. No reactivity was observed in the nucleus, in agreement with the Western blot showing an absence of immunoreactivity of anti-LmSIR2rp immune serum against parasite nuclear extracts. Furthermore, immunoprecipitation of [35S]methionine-labeled promastigote antigens after pulse chase experiments, using anti-LmSIR2rp fusion protein antibodies, showed that the protein is among parasite excreted-secreted antigens (ESA). Moreover, immunofluorescence assays conducted with short time incubations of either purified LmSIR2rp or viable promastigotes with murine macrophages, revealed that LmSIR2rp could be bound to the macrophage surface. The unexpected cytoplasmic localization of LmSIR2rp and its presence in ESA may suggest a new mode of action for silent information regulatory factor homologues.

Abstract: The mechanism(s) of activity of pentavalent antimony [Sb(V)] is poorly understood. In a recent study, we have shown that potassium antimonyl tartrate, a trivalent antimonial [Sb(III)], was substantially more potent than Sb(V) against both promastigotes and axenically grown amastigotes of three Leishmania species, supporting the idea of an in vivo metabolic conversion of Sb(V) into Sb(III). We report that amastigotes of Leishmania infantum cultured under axenic conditions were poorly susceptible to meglumine [Glucantime; an Sb(V)], unlike those growing inside THP-1 cells (50% inhibitory concentrations [IC50s], about 1.8 mg/ml and 22 microg/ml, respectively). In order to define more precisely the mode of action of Sb(V) agents in vivo, we first induced in vitro Sb(III) resistance by direct drug pressure on axenically grown amastigotes of L. infantum. Then we determined the susceptibilities of both extracellular and intracellular chemoresistant amastigotes to the Sb(V)-containing drugs meglumine and sodium stibogluconate plus m-chlorocresol (Pentostam). The chemoresistant amastigotes LdiR2, LdiR10, and LdiR20 were 14, 26, and 32 times more resistant to Sb(III), respectively, than the wild-type one (LdiWT). In accordance with the hypothesis described above, we found that intracellular chemoresistant amastigotes were resistant to meglumine [Sb(V)] in proportion to the initial level of Sb(III)-induced resistance. By contrast, Sb(III)-resistant cells were very susceptible to sodium stibogluconate. This lack of cross-resistance is probably due to the presence in this reagent of m-chlorocresol, which we found to be more toxic than Sb(III) to L. infantum amastigotes (IC50s, of 0.54 and 1.32 microg/ml, respectively). Collectively, these results were consistent with the hypothesis of an intramacrophagic metabolic conversion of Sb(V) into trivalent compounds, which in turn became readily toxic to the Leishmania amastigote stage.

Abstract: This work presents the complete sequences of a cDNA and the two allelic genes of dihydrolipoamide dehydrogenase (LipDH) from Trypanosoma cruzi, the causative agent of Chagas' disease (American trypanosomiasis). The full-length cDNA has an ORF of 1431 bp and encodes a protein of 477 amino acid residues. LipDH is a homodimeric protein with FAD as prosthetic group. The calculated molecular mass of the subunit of the mature protein with bound FAD is 50,066. Comparison of the deduced amino acid sequence of LipDH from T. cruzi with that of Trypanosoma brucei and man shows identities of 81% and 50%, respectively. An N-terminal nonapeptide, not present in the mature enzyme, represents a mitochondrial targeting sequence so far found only in trypanosomatids. The gene lpd1 of T. cruzi LipDH was expressed without the targeting sequence in Escherichia coli JRG1342 cells which are deficient for LipDH. For this purpose an ATG codon was introduced directly upstream the codon for Asn10 which represents the N-terminus of the mature protein. This system allowed the synthesis of 1000 U T. cruzi LipDH/1 bacterial cell culture. The recombinant protein was purified to homogeneity by (NH4)2SO4-precipitation and affinity chromatography on 5' AMP-Sepharose. The K(m) values for NAD+, NADH, lipoamide and dihydrolipoamide are identical with those of the enzyme isolated from the parasite. LipDH is present in all major developmental stages of T. cruzi as shown by northern and western blot analyses. This finding is in agreement with the citric acid cycle being active throughout the whole life cycle of the parasite. In vitro studies on a mammalian LipDH revealed the ability of the flavoenzyme to catalyze the redoxcycling and superoxide anion production of nitrofuran derivatives including the antitrypanosomal drug Nifurtimox. For that reason T. cruzi LipDH is regarded as a promising target for the structure-based development of new antiparasitic drugs. The bacterial expression system for the parasite enzyme will now allow the study of the role of T. cruzi LipDH in drug activation and the crystallization of the protein.

Abstract: DNA extracted from peripheral blood of two Ecuadorian patients showing severe digestive pathology was amplified by the polymerase chain reaction using a Trypanosoma cruzi specific oligonucleotide primers derived from the primary sequence of a cDNA encoding for a 24 kDa excretory/secretory protein. The positive PCR results together with the clinical findings confirmed that both patients had a digestive pathology due to Chagas' disease. This pathology could be more frequent than previously described in the chagasic endemic regions of Andean countries.

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Abstract: In previous studies, molecular and immunological approaches have been used to characterize the Trypansosoma cruzi elongation factor 1gamma (TcEF-1gamma). A primary sequence homology search revealed that the TcEF-1gamma N-terminal domain showed significant homology to glutathione S-transferases (GSTs). Although studies have suggested the involvement of EF-1gamma in the protein synthesis machinery, the exact function of this protein, particularly the role of its GST-like domain, is not fully understood. Therefore, we have used the protozoan parasite T. cruzi, as a recipient for a shuttle vector which allows overexpression of TcEF-1gamma in order to gain insight into its biological function. The growth of parasites which overexpress TcEF-1gamma and control cells was equally sensitive to inhibition by nifurtimox and benznidazole, which exert a trypanocidal activity through the production of free radicals. In contrast, a strong resistance of transformed organisms to the tricyclic antidepressant drug, clomipramine, a lipophilic compound, was observed, whereas control cells were highly sensitive. Our findings suggest that TcEF-1gamma participates in the detoxification of lipophilic compounds probably by conjugation with glutathione through its GST-like domain. To our knowledge, this is the first report showing that the eukaryotic EF-1gamma GST conserved enzymatic model could play a role in drug resistance. Furthermore, these results reinforce the notion that the aggressiveness of certain tumours could in part be linked to overexpression of EF-1gamma. They also raise a central question regarding the GST as target for chemotherapeutic drugs in cancer research.

Abstract: We have isolated a cDNA from the protozoan parasite Leishmania major (Lm) that encodes a protein homologous to the Saccharomyces cerevisiae and Kluyveromyces marxianus silent information regulator 2 (SIR2) proteins. The deduced Lm SIR2-related protein (termed LmSIR2rp) consists of 381 amino acids that share 40.5% identity with yeast SIR2, increasing to 60% when substitutions are included. Moreover, the LmSIR2rp aa sequence contains a single potential zinc-binding domain with a CysXaa2CysXaa20CysXaa2Cys motif, and its C-terminal part is rich in Ser (16 Ser residues over 40 aa) which constitute potential sites for phosphorylation. The characterization of a novel Lm gene product which shows considerable similarity to a yeast mating-type regulatory protein provides a new tool to investigate the parasite differentiation control mechanisms and gene expression regulation.

Abstract: The cloning and sequencing of the gene coding for Trypanosoma cruzi elongation factor 1 alpha (TcEF-1 alpha) was performed by screening a T. cruzi genomic library with a probe obtained through the polymerase chain reaction (PCR) amplification of T. cruzi DNA using two oligonucleotides deduced from the sequence of T. brucei EF-1 alpha. Southern blot analysis of T. cruzi digested genomic DNA and Northern blot hybridized with the labeled probe revealed that one copy of TcEF-1 alpha exist in the genome of the parasite. Indirect immunofluorescence technique using anti-EF-1 alpha antibodies and epimastigotes harvested after different days of in vitro culture showed that EF-1 alpha is localised in the cytoplasm of the parasites from the exponential growth phase. Surprisingly, during the stationary phase (ageing parasites), EF-1 alpha was found in the nucleus. Furthermore, treatment of parasites with the antibiotic drug geneticin (G418) which induces the death of epimastigotes by apoptosis showed selective localization of EF-1 alpha in the nucleus of dying parasites. This observation supports the notion already reported in the case of mammalian cells that EF-1 alpha could participate in the transcription processes and possibly in the case of T. cruzi, in the expression regulation of genes involved in the control of cell death. The possible transfection and genomic manipulation of T. cruzi may provide a model to study the role of TcEF-1 alpha in this phenomenon.

Abstract: A 24-kDa recombinant protein from Trypanosoma cruzi (rTc24) was evaluated by enzyme-linked immunosorbent assay (ELISA) and Western blot (immunoblot) tests to identify treated chagasic patients considered parasitologically cured on the basis of persistently negative tests of hemocultures and lytic antibodies. Some of these patients were termed dissociated because their sera, although negative by the complement-mediated lysis test, were positive by conventional serology. The negative lysis test indicates the absence of active infection after specific treatment, but this assay requires live and infectious parasites and cannot be used easily in a laboratory routine. Here we tested rTc24 by ELISA and Western blotting as an alternative for the complement-mediated lysis test. For the group of patients with active infection despite the treatment (uncured patients), all the sera tested recognized rTc24 in both tests. For the dissociated patients, approximately 80% of the sera did not react with rTc24 in the ELISA or in Western blots, in agreement with the negative complement-mediated lysis tests. Thus, the 24-kDa T. cruzi recombinant antigen, when used for initial trials to evaluate cure of chagasic patients submitted to specific treatment, will allow the identification of most, but not all, cases.

Abstract: Although trypanothione [T(S)2] is the major thiol component in trypanosomatidae, significant amounts of glutathione are present in Trypanosoma cruzi. This could be explained by the existence of enzymes using glutathione or both glutathione and T(S)2 as cofactors. To assess these hypotheses, a cytosolic fraction of T. cruzi epimastigotes was subjected to affinity chromatography columns using as ligands either S-hexylglutathione or a non-reducible analogue of trypanothione disulphide. A similar protein of 52 kDa was eluted in both cases. Its partial amino acid sequence indicated that it was identical with the protein encoded by the TcAc2 cDNA previously described [Schoneck, Plumas-Marty, Taibi et al. (1994) Biol. Cell 80, 1-10]. This protein showed no significant glutathione transferase activity but surprisingly catalysed the thiol-disulphide exchange between dihydrotrypanothione and glutathione disulphide. The kinetic parameters were in the same range as those determined for trypanothione reductase toward its natural substrate. This trypanothione-glutathione thioltransferase provides a new target for a specific chemotherapy against Chagas' disease and may constitute a link between the glutathione-based metabolism of the host and the trypanothione-based metabolism of the parasite.

Abstract: The levels of fibronectin (FN), a multifunctional glycoprotein known to mediate in vitro Trypanosoma cruzi-host cell adhesion, were measured in the plasma of T. cruzi-infected BALB/c mice. The infection induced a long-lasting increase of fibronectin levels during the acute parasitemic phase of the disease. Immunoblotting analysis showed the occurrence of lower-molecular-size FN fragments in the plasma of acutely infected animals, suggesting an infection-related FN degradation. FN levels were found to be significantly lower in dying mice harboring higher parasitemias than in surviving animals. A weak level of natural IgM against the RGD adhesion site of FN was detected before and during the first 3 weeks of infection. The level was significantly higher in surviving mice. From the fourth week postinfection, a significant increase in the levels of anti-RGD antibodies coincided with a decrease of circulating FN. These antibodies were mainly of the IgM, IgG1, and IgG2a isotypes. Taken together, these data suggest that both FN and anti-FN antibodies may contribute to the outcome of T. cruzi infection in mice.

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Abstract: We have previously isolated and characterized a Trypanosoma cruzi cDNA encoding a polypeptide with a molecular mass of 52 kDa (Tc52) sharing significant homology to glutathione S-transferase. In the present study, by molecular and immunological approaches, we showed that Tc52 is preferentially expressed by dividing forms of the parasite: (e.g., epimatigotes and amastigotes). Moreover, we could identify the reactive antigen in different T. cruzi strains. A different pattern of reactivity on immunoblots was observed in the case of Trypanosoma rangeli. Furthermore, immunofluorescence assays using T. cruzi epimastigote culture forms revealed that the reactive antigen is localized within cytoplasmic organelles morphologically ressembling the structures previously designated as the reservosome found mostly at the posterior end of the parasite. Furthermore, the antibodies did not react against trypomastigotes which emerged from infected fibroblasts, whereas amastigotes showed polar fluorescence. Immunogold labeling and electron micrographs further revealed that the Tc52 protein is mainly associated with organelles composed of a large network of multivesicular structures, the latter being more abundant in epimastigotes. Taken together, these results demonstrated that Tc52 is associated with organelles composed of a multivesicular network and appears to be developmentally regulated, being fully expressed by parasite dividing forms.

Abstract: The origin of programmed cell death (PCD) has been linked to the emergence of multicellular organisms. Trypanosoma cruzi, a member of one of the earliest diverging eukaryotes, is a protozoan unicellular parasite that undergoes three major differentiation changes and requires two different hosts. We report that the in vitro differentiation of the proliferating epimastigote stage into the G0/G1 arrested trypomastigote stage is associated with massive epimastigote death that shows the cytoplasmic and nuclear morphological features and DNA fragmentation pattern of apoptosis, the most frequent phenotype of PCD in multicellular organisms. Apoptosis could be accelerated or prevented by modifying culture conditions or cell density, indicating that extracellular signals influenced the epimastigote decision between life and death. Epimastigotes responded to complement-mediated immunological agression by undergoing apoptosis, while undergoing necrosis in response to nonphysiological saponin-mediated damage. PCD may participate into the optimal adaptation of T. cruzi to its different hosts, and the avoidance of a local competition between a G0/G1 arrested stage and its proliferating progenitor. The existence of a regulated cell death programme inducing an apoptotic phenotype in a unicellular eukaryote provides a paradigm for a widespread role for PCD in the control of cell survival, which extends beyond the evolutionary constraints that may be specific to multicellular organisms and raises the question of the origin and nature of the genes involved. Another implication is that PCD induction could represent a target for therapeutic strategies against unicellular pathogens.

Abstract: Trypanothione reductase (TR) is the primary enzyme responsible for the reduction of trypanothione, the analog of glutathione found in trypanosomatidae. We have discovered a series of diphenylsulfides which are potent inhibitors of TR and have no activity on mammalian glutathione reductase. These compounds are also active in vitro on various stages of the parasite. Although structurally related to phenothiazines, which are known to be TR inhibitors, these compounds are devoided of any neuroleptic activity, making them attractive leads to develop specific and non toxic anti-chagasic drugs.

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Abstract: In previous studies we have shown the protective value of T. cruzi excretory/secretory antigens (ESA) as well as a synthetic peptide derived from the primary sequence of a 24-kDa protein present among ESA in mice and rats challenged with a lethal dose of T. cruzi. In the present study, the 24-kDa polypeptide was produced as a fusion protein in the pGEX-2T vector system. Western blot assays revealed that Tc24 is expressed by all T. cruzi strains so far examined (CL, ECH, C23, Tehuantepec, Tulahuen, and Y). The immunization of BALB/c mice with Tc24 fusion protein showed that the protein has the capacity to induce a significant level of protection in BALB/c mice against lethal T. cruzi infection. Moreover, splenic cells from T. cruzi chronically infected mice recognize the recombinant antigen since they proliferate after in vitro stimulation. A typical Th1 pattern of lymphokine secretion (IL-2 and IFN-gamma) was detected in splenic cell culture supernatants from Tc24-immunized mice. In addition, high levels of IFN-gamma were detected in cell culture supernatants from both acute and chronically infected mice after Tc24 antigen stimulation. In contrast, no detectable amounts of IL-4, IL-5 or Th-10 could be detected in those supernatants. Finally, antibodies (IgG isotype) involved in the immune clearance of T. cruzi are elicited by the Tc24 recombinant protein. Taken together, these results demonstrated that the recombinant T. cruzi antigen is able to induce cellular and humoral immune responses which could explain the protection achieved when this protein is used as immunizing agent.

Abstract: In the present study, the diagnostic value of Trypanosoma cruzi recombinant protein (Tc24) was examined. Although antibodies against Tc24 were detected during natural and experimental T. cruzi infections, specificity studies revealed that sera from T. rangeli-infected mice also recognized to some extent Tc24 protein. In addition, sera from Tc24-immunized mice reacted against a 21 kDa polypeptide in T. rangeli extracts. Detailed analysis of the antibody response against 20-40 peptide localized in the Tc24 amino-terminal domain suggests that this sequence is not expressed by T. rangeli 21 kDa antigen. Therefore, the PCR reaction using oligonucleotides corresponding to a 20-26 peptide clearly demonstrated the specificity of the oligoprobes for T. cruzi identification. Positive signals were also found when using blood samples from T. cruzi-infected mice. Taken together, these results suggest that the PCR-based 20-26 assay may be useful in the specific diagnosis of Chagas' disease.

Abstract: In previous studies, we reported the characterization of three Trypanosoma cruzi proteins with molecular masses of 45, 30 and 25 kDa eluted from a glutathione agarose column (these proteins were named TcGBP). Using antibodies against TcGBP native proteins we could isolate from a lambda ZAPII epimastigote cDNA library cDNA clones encoding the 30 and 25 kDa proteins. Comparison of the two sequences with amino acid sequences in several data banks revealed that both protein sequences were highly homologous to human and Artemia salina elongation factor 1 beta. Thus, the proteins were named TcEF-1 beta 25 and TcEF-1 beta 30. In the present study we used a double immunoscreening strategy that allowed us to isolate a cDNA clone corresponding to the 45 kDa protein. The protein sequence revealed 31% identity and 61% homology with human and Artemia salina EF1 gamma and therefore was named TcEF-1 gamma. Moreover, three putative phosphorylation sites at position 51 (CSPC), at position 90 (RTPL) and at position 265 (PSPF) were found in the TcEF-1 gamma sequence. These sites are compatible with the notion that TcEF-1 gamma could be the target of phosphorylation by protein kinase(s). Random primed cDNA hybridized with a single 1.4 kb mRNA found in epimastigote, trypomastigote and amastigote forms. In addition, Southern blot analysis of genomic DNA suggested that the protein is encoded by a single gene. The TcEF-1 gamma cDNA was subcloned into the pGEX-4T-3 vector for expression in Escherichia coli.(ABSTRACT TRUNCATED AT 250 WORDS)

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Abstract: Venom from three different snake species was tested in vitro against the protozoan parasites Trypanosoma cruzi and Leishmania donovani infantum. Two of them, Cerastes cerastes and Naja haje, exerted a significant growth inhibition of T. cruzi and L. d. infantum parasites. Heating of the venoms abolished their activity, suggesting that the active factors are thermolabile. Incubation of parasites with 125I-labelled C. cerastes venom proteins allowed preliminary identification of components which interact preferentially with the pathogens.

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Abstract: The isolation, characterization, and expression of a novel cDNA encoding a Trypanosoma cruzi polypeptide (TcAc2), homologous to various small stress proteins and glutathione S-transferases, are described. The deduced amino-acid sequence revealed two domains sharing 27% identity and an additional 27% similarity to each other suggesting that the molecule may have evolved from a single domain by a process of gene duplication and fusion. The TcAc2 cDNA was subcloned into the pGEX-2T vector for expression in E coli. In vitro translation products of epimastigote mRNA, immunoprecipitated with anti-TXepi serum, showed a major radioactive band of 52 kDa. Immunoprecipitation of [35S]methionine labelled epimastigote and trypomastigote antigens after pulse chase experiments, using anti-TcAc2 fusion protein antibodies, showed that the protein is released into the culture medium. Moreover, Western blot analysis revealed a single band of 52 kDa with epimastigote, trypomastigote and amastigote antigens. Primary structure homology searches revealed that each TcAc2 domain contained within its N-terminus significant homology to Solanum tuberosum pathogenesis-related protein PR1, soybean heat shock protein 26-A, auxin regulated clone pCNT103 from Nicotiana tabacum and Drosophila melanogaster glutathione S-transferase 27 (GST27). This finding was supported by a comparison of hydrophobicity profiles of TcAc2 and these proteins. Most of them play a central role in protection mechanisms against stress. Based on the homology between TcAc2, glutathione S-transferases (GST) and small stress proteins, it is likely that the TcAc2 gene product may play a crucial role in parasite's adaptation to its microenvironment. These molecules could be considered as members of the GST superfamily, where the T cruzi protein may take a particular place because of its internal gene duplication.

Abstract: The attachment of Pneumocystis carinii to lung cells could play a role in the pathophysiology of P carinii pneumonia. The trophozoite attaches to type I alveolar epithelial cells. Physical, chemical, and extracellular matrix factors, involved in the mouse-or rat-derived P carinii attachment to fibroblastic cells in culture, were examined using a new model of in vitro adherence. The development of parasite filopodia penetrating deeply the host cell cytoplasm was observed using transmission electronic microscopy. Killed P carinii organisms were unable to attach to cultured cells. Also, parasites were unable to attach to killed target cells. The P carinii in vitro attachment was partially inhibited by cytochalasin B. In contrast, the parasite attachment was not affected when the target cell cytoskeleton was altered. In our work conditions, sialic acids were not involved in the attachment process. Present results showed that fibronectin (Fn) plays a role in the parasite attachment, and suggest that a specific Fn-binding receptor is present at the surface of mouse-derived P carinii organisms.

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Abstract: In the present study we have used antibodies to Leishmania major promastigote antigens which were eluted from a glutathione-agarose column (LmGbp) and could identify several parasite components among different Leishmania species by using immunoprecipitation and Western blot techniques. The results also showed that some of LmGbp are present among the molecules released into the culture medium. Moreover, immunofluorescence assays clearly demonstrated that LmGbp are expressed by intracellular amastigotes. The electron micrographs of thawed cryosections of L. major-infected cells revealed that the antigens were associated with the membrane of the phagocytic vacuole. Moreover, the Western blot technique allowed us to identify, using other Leishmania species extracts and anti-LmGbp antibodies, a major polypeptide of an apparent molecular mass of 66 kDa. Immunofluorescence studies suggested that the 66 kDa polypeptide is associated with intracytoplasmic vesicles. Cryosections of Leishmania promastigotes improved the fine structure preservation of the organelles and enabled a number of features to be seen, particularly the structures considered as vesicles, which appeared as a complex tubulo-vesicular structure resembling mammalian cell endosomes and Leishmania organelles previously named 'megasomes'. Further studies using antibodies against the native 66 kDa protein will be needed to investigate the localization of the protein at the ultrastructural level and to follow its intracellular vesicular traffic.

Abstract: Three Trypanosoma cruzi glutathione-binding proteins (TcGBP) of 45, 30 and 25 kDa presenting glutathione S transferase activity were characterized from T. cruzi epimastigotes. We show here that immunization of mice using TcGBP and complete Freund's adjuvant (CFA) did not protect the animals against a challenge with bloodstream trypomastigotes. In contrast, immunization of mice using TcGBP in association with Bordetella pertussis plus alum (BpAI) resulted in greatly diminished parasitaemia and significantly protected the animals from lethal infection. Using TcGBP mixed with BpAI and a lower challenge dose, we obtained strongly diminished parasitaemia and 100% protection in terms of survival. Only sera from mice immunized with TcGBP plus BpAI were able to kill trypomastigotes by complement-mediated lysis, whereas sera from mice immunized with TcGBP plus CFA did not. Interestingly, sera from mice immunized with TcGBP plus BpAI showed significant levels of specific IgE, IgG2a and IgG2b antibodies, whereas these isotypes were not detected in sera from mice immunized with TcGBP in CFA. All these levels were increased in sera of protected animals. These results demonstrate that TcGBP antigens can confer resistance to T. cruzi acute infection in mice, and suggest a possible functional role for both IgE and IgG2 isotypes in the induction of protective immunity.

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Abstract: In the present study we have used the Tcr7 monoclonal antibody (mAb) previously characterized as directed against Trypanosoma cruzi 24-25-kDa specific antigens, both are immunogenic in man and during experimental T cruzi infections. We have demonstrated that mAb Tcr7 was able to recognize two in vitro translation products of molecular weights of 24 and 25 kDa. This suggested the holoproteic nature of these two related antigens bearing at least a common epitope and allowed us to use Tcr7 for an immunoscreening of a lambda ZAPII T cruzi cDNA library. Indeed, we have obtained several positive clones and completely sequenced the largest one which encoded theoretically for a protein of 23.7 kDa. The sequence analysis revealed a nearly perfect homology between this clone and one already described by other investigators and was shown to express a major flagellar protein of T cruzi able to bind calcium. Using different overlapping peptides derived from the sequence of the cDNA clone, we have localized the immunoreactivity of mAb Tcr7 mainly on several primary sequences present in the N-terminal part of the sequence, suggesting that the mAb could recognize a discontinuous epitope. Moreover, the immunoelectron microscopy allowed us to show that the antigen(s) carrying the epitope reacting with mAb Tcr7 is (are) released in association with membrane vesicles which protruded from the parasite surface and the flagellar pocket. This new mechanism of antigen shedding is likely to be independent of phospholipase C-mediated release of GPI-anchored molecules.

Abstract: Following purification by affinity chromatography, three glutathione-binding proteins (TcGBP) of 45, 30, and 25 kDa were co-purified from Trypanosoma cruzi epimastigotes. Using 1-chloro-2,4 dinitrobenzene as substrate, a glutathione S-transferase activity of 70 nmol/min/mg of proteins was detected in the GSH binding fraction. An increased expression of TcGBP and total GST activity was observed upon incubation of parasites with phenobarbital, which is an inducer of GST synthesis. Immunofluorescence and electron microscopic experiments demonstrated that TcGBP were expressed by all developmental stages of the parasite, including infective forms. The expression of these proteins by intracellular dividing amastigotes could be in favour of a potential defensive role of these molecules against host attack. Results obtained by immunoprecipitation of in vitro translation products using anti-TcGBP antisera suggested that these three polypeptides are not glycosylated. In addition, antibodies directed against the TcGBP were found in a high proportion of T. cruzi-infected chronic chagasic patients' sera and in sera of chronically infected BALB/c mice. In contrast, acute chagasic patients' sera and acute-phase mouse sera were found to be poorly reactive with these proteins. Our results identify a new class of potential target antigens, which may be essential for the development of T. cruzi in its host. Their protective role in experimental models deserves to be investigated.

Abstract: The morphological and biochemical events following Trypanosoma cruzi trypomastigote-fibronectin (Fn) interactions have been studied. Adhesion of trypomastigotes to Fn-coated surfaces is followed by Fn degradation. The proteolytic cleavage of Fn was demonstrated by qualitative and quantitative measurement of Fn degradation after its exposure to trypomastigotes as well as polyacrylamide gel analysis of Fn proteolysis by a parasite protease (s). The released Fn peptide fragments stimulated the transformation of trypomastigotes to amastigotes. The gelatin (45 kDa) and heparin (40 kDa) binding fragments were shown to be able to promote trypomastigote differentiation. In contrast, native Fn and the 120 kDa fragment (cell attachment domain) were inactive. Complementary investigations showed that the gelatin and heparin binding fragments stimulated parasite RNA synthesis and protein synthesis and phosphorylation but not DNA replication and increased parasite intracellular cAMP concentrations. These findings suggest that the proteolysis of Fn by parasite proteases, which occurs under physiological conditions, might facilitate invasion of target cells by trypomastigotes. The Fn peptides released during this process may act as "growth factor-like" substances.

Abstract: Some in vitro and in vivo biological activities of an octadecapeptide derived from an 85-kDa surface protein of Trypanosoma cruzi trypomastigote were studied. The peptide coupled to a carrier protein induced the proliferative response of lymph node cells from mice immunized with various antigens. Moreover, sera from mice immunized with the coupled peptide were found to contain antibodies against a number of self and nonself antigens: fibronectin, bovine serum albumin, myosin, tetanus toxoid, ovalbumin, keyhole limpet hemocyanin, and DNA. These results are discussed in the context of Chagas' disease immunopathology.

Abstract: An IgM monoclonal antibody (MAb) against a carbohydrate epitope present in Trypanosoma cruzi trypomastigote excretory-secretory antigens and expressed by different developmental stages of the parasite (epimastigote, trypomastigote and intracellular amastigote) was linked to a solid phase matrix and used as an antigen-capture antibody. Human serum complexes containing the epitope were then detected by using specific secondary antibodies against human immunoglobulin isotypes. Results of detection of IgM, IgG, and IgA serum complexes (SC) containing a T. cruzi polypeptide epitope showed that SC could be detected in 69% of the 13 Chagasic acute phase sera studied with IgG, in 84% with IgM, and in 75% with IgA. Only 16% (IgG-SC), 8% (IgM-SC), and 10% (IgA-SC) of chronic sera from 50 patients were positive. No patients with toxoplasmosis or rheumatoid factor were positive. Of the 11 leishmaniasis sera studied, four had IgG-SC, two had IgA-SC, and five had IgM-SC. Of the eight Yanomamo Indians infected by Onchocerca volvulus, three were found to have IgG-SC, two had IgM-SC, and two had IgA-SC. Thirteen sera from healthy individuals living in an endemic area were also studied. One subject had IgG IgM and IgA-SC. The results presented in this study show for the first time, the specific detection of IgM, IgG, and IgA immune complexes using a MAb against T. cruzi. The presence of the epitope in association with IgM antibodies in sera from patients with the acute phase of the disease suggests that this antigen(s) carrying the epitope that reacts with the MAb could be a marker(s) of active infection. In addition, the specificity of the serum complex capture assay allowed the detection of Chagas' disease in two different endemic areas (Argentina and Venezuela).

Abstract: We have demonstrated, with optical and transmission electron microscopy, that Trypanosoma cruzi trypomastigotes infect and multiply inside T lymphocytes. The infection rate we have observed in T cells was similar to that seen in the case of macrophage or polymorphonuclear cell infection. Flow cytofluorometric analysis of T lymphocytes purified from mice in the acute phase of the disease, revealed the presence of parasite-derived antigens on their surface. These antigens appear to be specific to T. cruzi and they could be the result of intracellular parasite antigens as well as adsorption of T. cruzi antigens on the surface of noninfected T cells. Antibodies recognizing these surface antigens were present in both T. cruzi-infected mouse and human sera. They were able to induce antibody-dependent cell-mediated cytotoxicity (ADCC) in the presence of nonimmune mononuclear cells both in autologous and in heterologous combinations. Consequently, we provided evidence suggesting that T lymphocytes could be destroyed during the acute phase of Chagas' disease either by cell infection or by an ADCC mechanism against cells bearing parasite antigens on their surface. Thus, the ability of trypomastigotes to invade T cells may play a crucial role in the immunopathogenesis characteristic of Chagas' disease.

Abstract: Macrophage-Trypanosoma cruzi interactions were studied by using a newly generated macrophage hybridoma cell line (2C11-12) that was selected for its capacity to produce high levels of reactive oxygen intermediates. This cell line was found to be a suitable host cell for T. cruzi, and intracellular parasitic development could be inhibited by activation with gamma interferon. When exposed to opsonized Trypanosoma brucei, Micrococcus lysodeikticus, or Legionella pneumophila, the activated macrophage cell line produces a high chemiluminescent signal, indicating the release of reactive oxygen intermediates. Alternatively, when opsonized T. cruzi was added to these activated macrophages, this parasite failed to stimulate a chemiluminescent response, suggesting an impairment in the triggering of the respiratory burst.

Abstract: The surface antigens of Trypanosoma cruzi trypomastigotes were identified by immunoprecipitation and were compared with metabolically labelled excretory-secretory products (ES) released by the parasites in vitro. A series of major immunogenic components in the ES antigens were revealed (160 kDa, 130 kDa and 80-110 kDa). The trypomastigote surface also bears the 130 kDa band and the 80-110 kDa complex. Competition experiments demonstrated the common antigenic structure of the ES and the surface antigens. Two-dimensional analysis of ES antigens immunoprecipitated by human Chagasic serum revealed several spots in the 80-110 kDa region with a wide range of isoelectric points (PI between 5.4 and 6.7). This reflects a charge heterogeneity of these polypeptides. The trypomastigote 85 kDa polypeptide was also identified in the ES antigens by using a monoclonal antibody against this antigen. Two-dimensional analysis of the 85 kDa proteins shed from the surface of trypomastigotes and immunoprecipitated by the monoclonal antibody 155D3 showed 2 major spots: a major part of the 85 kDa polypeptide was found at pH 6.5-6.6, whereas a substantial amount of the antigen was found at pH 5.7. An additional component with molecular weight of approximately 58 kDa and isoelectric points of 6.5 and 6.6, was also visualized. Detection of the 85 kDa polypeptide circulating in serum from patients with acute and chronic Chagas' disease was achieved using an enzyme-linked immunosorbent assay. In addition, the data obtained showed that a polyclonal antibody to the 85 kDa polypeptide could be used to passively induce a partial protection of Fischer rats against acute lethal infection. Thus, the antigens recognized by polyclonal antibody appear to play a role in the development of protective immunity against T. cruzi.

Abstract: The expression by Trypanosoma cruzi developmental stages of an 85-kDa polypeptide epitope defined by the 155D3 monoclonal antibody (mAb) has been investigated. Immunoprecipitation revealed the presence of an 85-kDa antigen in the NP-40 soluble extract of parasites freshly released from infected fibroblasts; this antigen was not found in epimastigote and Leishmania infantum promastigote. Indirect immunofluorescence revealed that the mAb 155D3 failed to react with trypomastigotes, whereas extracellular amastigotes were heavily stained. Positive organisms displayed either surface or polar fluorescence. Since the same mAb immunoprecipitated the 85-kDa antigen in both radioactive iodine- and methionine-labeled trypomastigote detergent soluble extracts, the reactive epitope is likely to be hidden in a cryptic site in trypomastigotes. An alternative explanation for the negative immunofluorescence on trypomastigotes and the positive immunoprecipitation is the presence, in the extracts, of a small population of parasites already expressing the 155D3 epitope. Immunoelectron microscopy revealed that the target epitope is heterogenously distributed among the populations of differentiating parasites. Two types of immunogold labeling were observed: (a) mAb revealed a high amount of reactive material associated with the periphery of the parasites and (b) a label was observed on the inner surface of peripheral vacuoles that might correspond to cross sections of inflated flagellar pockets and in association with vesicles which were released by the parasites. The surface expression of the epitope recognized by the 155D3 mAb was followed by fluorescence-activated cell-sorting analysis. The results showed that the epitope is increasingly accessible during trypomastigote differentiation in vitro. Taken together, these results suggest that the epitope reacting with the 155D3 mAb is heavily expressed on extracellular amastigotes after the transformation process and, thus, appears to be developmentally regulated.

Abstract: The mechanisms by which the causative agent of Chagas' disease impair its host's immune response are of paramount importance but poorly understood. Results presented in this paper show for the first time that Trypanosoma cruzi trypomastigotes infect T lymphocytes in vitro and more interestingly in vivo, and that trypomastigotes released from infected cells are infectious. In addition treatment of purified human T lymphocytes with McAb against CD3 and HLA-DR antigens significantly inhibited parasite infection. T. cruzi antigens were detected on the membrane of infected T cells and could therefore represents targets for cytotoxic mechanisms. These results might have important consequences for the understanding of the dramatic disruption of immune response observed during Chagas' disease and more generally provide additional information on T lymphocyte infection by pathogens.

Abstract: IgE FcR (FcERII) on human eosinophils was characterized and compared with FcERII present on B cells (CD23). Two mAb, BB10 (anti-eosinophil FcERII) and 135 (anti-CD23), bound to the major component of FcERII at 45,000 to 50,000 Mr, both on purified hypodense eosinophils and on a B cell line (WIL-2WT). The specific ligand, human myeloma IgE, was able to bind to the molecules immunoprecipitated by BB10. A cross-reactivity between BB10 and a mAb anti-Leishmania gp63, which is a "fibronectin (Fn)-like" molecule, containing the L-arginine-L-glycyl-L-aspartyl (RGD) cell attachment domain indicated the presence of such a sequence in the common structure present on eosinophil and B cell FcERII. The synthetic tetrapeptide RGDS as well as its inverted sequence (SDGR) reduced the binding of BB10 and anti-Fn mAb to eosinophils and B cells. Flow microfluorometry analysis revealed a variable binding of BB10 and anti-Fn mAb to eosinophils purified from different patients, results compatible with recent findings on the inducibility of FcERIIb. The significant inhibition of IgE-dependent cytotoxicity against parasite targets by preincubation of eosinophils with BB10, anti-Fn and anti-CD23 mAb, with anti-RGDS polyclonal antibodies or with the SDGR peptide suggested the requirement of this cell adhesion sequence for the function of low affinity FcERII. The presence of such a sequence in the C-terminal domain of B cell FcERII raised the possibility of its role in B cell adhesion or B cell growth.

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Abstract: The major surface glycoprotein of Leishmania chagasi promastigotes showed crossreactivity with fibronectin (Fn), a large glycoprotein that is a major constituent of the extracellular matrix of most mononuclear cells. Polyclonal and monoclonal antibodies against Fn precipitated two molecules of 63-58 kDa from the lysates of both 125I and [35S]methionine-labeled promastigotes. In addition, a monoclonal antibody against a 15-kDa fragment of Fn containing the Arg-Gly-Asp-Ser (RGDS) sequence and several polyclonal monospecific mouse antibodies against a synthetic RGDS peptide also recognized the above two molecules. The attachment of Leishmania promastigotes to mouse peritoneal macrophages in vitro was partially inhibited when promastigotes were treated with F(ab')2 fragment of an anti-Fn IgG. Identical results were obtained by saturating the Fn receptors on macrophages using different peptides containing the RGDS sequence. Moreover, antigen preparations rich in glycoprotein 63 could efficiently promote the attachment and spreading of 3T3 mouse fibroblasts to surfaces coated with the antigen. These results clearly suggest that the gp63 of L. chagasi promastigotes is an Fn-like molecule that shares certain biological and molecular characteristics with Fn.

Abstract: Treatment of human neutrophils and monocytes with human plasma fibronectin (Fn) enhanced their association with Trypanosoma cruzi epimastigote culture forms, a stage of parasite which activates the alternative complement pathway, and this related to the concentration of Fn in the culture medium. By increasing the incubation time, the parasite interiorization by phagocytic cells was observed. An enhancing effect of this latter phenomenon was obtained in the presence of Fn, while the addition of anti-Fn antibodies exerted an inhibitory effect. Moreover, the velocity of phagocytosis of complement-coated epimastigotes in the presence of Fn appeared greater than that observed using non-coated epimastigotes or parasites preincubated in the presence of heat-inactivated C6-deficient rabbit serum. In addition, as a consequence of cell-Fn parasite interaction, cell activation was also seen. This has been demonstrated by a chemiluminescence assay. Using radiolabeled epimastigotes (3H-uridine), we demonstrated that a proportion of ingested parasites in the presence of Fn were killed. When neutrophils were used as effector cells, the cytotoxicity was greater than that observed with monocytes. This finding of increased trypanosome uptake by phagocytic cells in the presence of fibronectin suggests that this glycoprotein could act as a ligand or cofactor to mediate parasite-cell interaction.

Abstract: A fibronectin binding protein (FnBp) was identified in 3H isoleucine labeled P. falciparum schizonts using affinity chromatography on human fibronectin (Fn) coupled to Sepharose 4B. After incubation of Nonidet-P 40 parasite lysate with Fn-Sepharose, elution was performed with SDS-PAGE buffer. Analysis of FnBp by SDS-PAGE demonstrated a major band which migrated with an apparent Mr of 70,000 under reducing conditions. This band was not found when human or rabbit IgG coupled Sepharose 4B were used instead of Fn as control.

Abstract: A study was initiated to determine whether alveolar macrophages from patients with collagen vascular diseases but free of pulmonary symptoms were spontaneously activated and whether they released various mediators related to the pathogenesis of pulmonary fibrosis. Alveolar macrophages obtained by bronchoalveolar lavage from 32 patients with proved collagen vascular disease but no evidence of lung disease were compared with those from 10 patients with collagen vascular disease with interstitial lung disease (CVD-ILD) and from 10 healthy controls. The total number of alveolar macrophages did not differ between patients with collagen vascular disease and controls but were substantially increased in the CVD-ILD group. Alveolar macrophages from 31 of the 32 patients with collagen vascular disease and from all 10 in the CVD-ILD group had at least one criterion of activation. Neutrophil chemotactic activity was detected in supernatants from alveolar macrophage culture in 23 of the 32 patients with collagen vascular disease and from nine of the 10 in the CVD-ILD group; fibronectin secretion by alveolar macrophages was increased in 12 of the 32 patients with collagen vascular disease and in nine of the 10 in the CVD-ILD group. Furthermore, alveolar macrophages from 20 of the 32 patients with collagen vascular disease and four of the 10 CVD-ILD patients spontaneously released increased amounts of superoxide anion. Thus alveolar macrophages were spontaneously activated in a high proportion of patients with collagen vascular disease.

Abstract: For many protozoan parasites, one of the first events in the process of infection is attachment to the surface of host cells. This adhesion phase usually involves ligand-receptor interactions, and has stimulated interest in the biochemical characterization of those host cell and parasite surface components involved. In this article, Ali Ouaissi discusses the strategy employed by pathogens such as Trypanosoma cruzi, Trichomonas, Leishmania and Treponema pallidum, in binding to their host cells' fibronectin receptors. Two systems appear available - to bind to the dimeric cell surface fibronectin through the Arginine-Glycine-Aspartic acid (RGD) sequence that is not occupied by the host cell surface receptors, or to present a surface antigen representing a 'fibronectin-like' molecule containing the RGD sequence directly to the host cell fibronectin receptors.

Abstract: This report presents evidence that human acetylcholinesterase (AChE; acetylcholine hydrolase, EC3.1.1.7) exhibits immunological cross-reactivity with the protozoan parasite Trypanosoma cruzi. The immunological probes used indicate that the cross-reactive determinant is an oligosaccharidic epitope. Antibodies to AChE were detected in a high proportion of T. cruzi-infected patients sera and during the experimental infection of BALB/c mice. Moreover, anti-idiotypic antibodies against an anti-AChE rabbit antibody or a monoclonal antibody to a parasite surface antigen of 80-85 kDa were detected in sera of patients presenting the chronic cardiac form of the disease. The antibodies were less frequently found in sera from individuals with asymptomatic chronic infection. Our data may provide a biochemical basis for denervation hypersensitivity in Chagas' disease. In addition, it may support the notion of an idiotype-anti-idiotype regulation of conducting tissue damage during the course of T. cruzi infection.

Abstract: Shared antigens between Brugia malayi and Aedes aegypti were studied. The experiments carried out with sera from infected Mastomys natalensis indicated that an immunological response against A. aegypti antigens (Mr 185, 35, 32 kDa) appeared often when animals became microfilaraemic and increased progressively in intensity during the time-course of infection. Sera of animals immunized with B. malayi reacted with the crude extract of mosquitoes and conversely, antibodies from animals immunized with A. aegypti reacted with the surface of B. malayi microfilariae. The implications of these findings of the natural history of B. malayi infection are discussed.

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Abstract: We have shown here that collagen type I bound efficiently to the trypomastigote surface. In addition, monoclonal and polyclonal antibodies against collagen types I and III inhibited the infection of fibroblasts by the parasite. These results suggested the presence of collagen-binding protein(s) on the parasite surface. This protein was identified from trypomastigote surface antigens using affinity chromatography on a Gelatin Ultrogel column (denatured form of collagen). These collagen-binding proteins were revealed as a low-affinity gelatin binding protein (LAG Bp) of 98 kDa, and a high-affinity binding protein (HAG Bp) of 58 and 68 kDa under non-reducing and reducing conditions respectively. In addition, HAG Bp and LAG Bp bound to collagen type I. The 58/68 kDa protein was purified to homogeneity on a wheat germ agglutinin Sepharose column. A polyclonal antibody to this glycoprotein, as well as a monoclonal antibody (McAb) 155D3 produced against the HAG Bp, immunoprecipitated two parasite surface antigens of 160 and 58 kDa under non-reducing conditions which migrated at a position of 80-85 and 68 kDa when reduced. However, only the 80-85 kDa component could be precipitated from [35S] methionine-labelled trypomastigote antigens under reducing conditions. The antibodies to the 58/68 kDa glycoprotein as well as McAb 155D3 diminished the invasion of fibroblasts by parasites. Taken together these results suggest that the same receptor binds fibronectin and/or collagen and that both the 80-85 and 58/68 kDa glycoproteins form part of the same receptor. These trypomastigote surface molecules may interact with the host cell fibronectin and/or collagen during the initial phase of parasite-cell recognition.

Abstract: A glycoprotein of apparent molecular weight 58,000 (unreduced)/68,000 (in its reduced form) (gp 58/68), which is one of the fibronectin/collagen receptors of Trypanosoma cruzi, was purified to homogeneity from the trypomastigote forms of the Tehuantepec and Y strains of the parasite. Purified gp 58/68 inhibited formation of cell-bound and fluid-phase alternative pathway C3 convertase in a dose-dependent fashion, as assessed using purified human complement components. Gp 58/68 differed from the human regulatory proteins H, DAF, MCP and CR1 and from previously reported regulatory proteins on the parasite membrane in that it was unable to enhance decay-dissociation of preformed alternative pathway C3 convertase sites, did not serve as a co-factor for I-mediated cleavage of C3b and had no inhibitory activity on the classical pathway convertases. The inhibitory effect of gp 58/68 was most likely dependent on an interaction of the protein with factor B rather than with C3b. Gp 58/68 provides trypomastigotes with an additional potential mechanism for escaping complement lysis by the human alternative pathway.

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Abstract: The distribution of tubulin domains in the mammalian stages of Trypanosoma cruzi was investigated by using monoclonal antibodies elicited against bovine brain tubulin. Western blotting performed on T. brucei trypomastigotes and T. cruzi epimastigotes showed that the monoclonal antibodies 16D3 and 24E3 reacted only with tubulin in these cell types. Indirect immunofluorescence revealed that, whereas 16D3 stained all microtubules, including subpellicular microtubules, the epitope defined by 24E3 was found in only a part of the tubulin pool of amastigotes and intermediate stages infecting murine fibroblasts and of broad trypomastigotes; the staining was limited to the basal bodies and the distal region of the flagellar adhesion zone in these developmental forms. By contrast, slender trypomastigotes did not exhibit any reaction with 24E3. These results are consistent with a transformation of broad trypomastigotes into slender trypomastigotes during which the tubulin domain recognized by 24E3 would undergo modifications leading to its complete masking in slender forms. The morphogenesis of the mammalian stages of T. cruzi would involve modifications of the tubulin molecule.

Abstract: A competitive radioimmunoassay (CRIA) for quantitating human plasma fibronectin levels has been developed and compared with a conventional immunoturbidimetry assay (IMTA). The assay ranges for CRIA and IMTA were 0.05-5 micrograms/ml and 100-1,000 micrograms/ml, respectively, and the lowest detectable amounts of fibronectin that differed significantly from zero were 17.6 ng and 50 micrograms. The correlation coefficient between CRIA and IMTA was r = 0.953 (p less than 0.001). We consider the CRIA as potentially useful in the identification and study of fibronectin in certain biological fluids where it may be present in low concentrations.

Abstract: The mechanism by which Trypanosoma cruzi, the protozoan parasite that causes Chagas' disease, becomes attached to mammalian cells is not well understood. Fibronectin is thought to participate in the attachment, and in this study the region of fibronectin that interacts with the surface receptors of T. cruzi trypomastigotes was investigated by testing the binding of the amino acid sequence Arg-Gly-Asp-Ser, corresponding to the cell attachment site of fibronectin to T. cruzi trypomastigotes. Peptides with the sequence Arg-Gly-Asp-Ser, but not Arg-Phe-Asp-Ser, Arg-Phe-Asp-Ser-Ala-Ala-Arg-Phe-Asp, Ser-Lys-Pro, Glu-Ser-Gly, or Ala-Lys-Thr-Lys-Pro, bound to the parasite surface and inhibited cell invasion by the pathogen. Monoclonal antibodies to the cell attachment domain of fibronectin also inhibited cell infection by the parasite. The immunization of BALB/c mice with tetanus toxoid-conjugated peptide induced a significant protection against T. cruzi. The data support the notion that the sequence Arg-Gly-Asp-Ser of cell surface fibronectin acts as a recognition site for attachment of the parasites.

Abstract: In order to study the variation of plasma fibronectin (FN) during malaria infection, two male monkeys (Macaca fascicularis) were splenectomized and infected with Plasmodium knowlesi. As parasitaemia increased FN concentration decreased gradually from 260 to 140 microgram/ml and 300 to 85 micrograms/ml for monkeys 1 and 2 respectively. The significance of this finding is discussed.

Abstract: The fibronectin receptor of Trypanosoma cruzi trypomastigotes was identified using immunoprecipitation procedure. Parasite radioiodinated surface material was incubated with fibronectin followed by rabbit IgG anti-fibronectin and protein A-Sepharose. The precipitates were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Two radioactive bands were seen. One of 220 kDa corresponded to a subunit of fibronectin molecule present on the parasite surface at the time of isolation. The major radioactive band of 85 kDa corresponded to the fibronectin receptor. Fibronectin receptor was purified using affinity chromatography on human fibronectin coupled to Sepharose. Analysis of fibronectin receptor by sodium dodecyl sulfate-polyacrylamide gels demonstrated one major band of 85 kDa. The purified fibronectin receptor was active since 40-60% of labeled receptor could rebind to fibronectin-Sepharose. In addition, fibronectin receptor could interact with cells bearing fibronectin molecules as shown by the binding of 125I-labeled fibronectin receptor to human monocytes and neutrophils as well as cloned 3T3 fibroblasts. The binding could be inhibited by treatment of cells with anti-fibronectin antibodies. Finally, we showed that the affinity-purified fibronectin receptor and antibodies to the receptor exerted an inhibitory effect on the infection of 3T3 fibroblasts by T. cruzi trypomastigotes in an in vitro culture system.

Abstract: Fibronectins are a class of high-molecular-weight glycoproteins found in a soluble form in blood and other body fluids and in an insoluble form in tissues. Cellular and plasma fibronectins are very similar in structure and properties, but are not identical. Fibronectins are synthesized by a wide variety of cells in vitro including fibroblasts, Schwann cells, chondrocytes, myoblasts, macrophages, hepatocytes and intestinal epithelial cells. They exhibit an affinity for both native and denatured forms of collagen, fibrinogen or fibrin, glycosaminoglycans, proteoglycans and surfaces of many kinds of eukaryotic cells. Fibronectins also bind to bacteria, viral glycoproteins and some protozoan parasites and interact with complement components. As a result of these multiple interactions, fibronectins might act as a non-specific opsonin. Fibronectins have been implicated in a variety of cell functions including cellular adhesion and morphology, cytoskeletal organization, oncogenic transformation, cell migration, phagocytosis, haemostasis and embryonic differentiation.

Abstract: Human fibronectin isolated from citrated blood was tested for its ability to bind to Plasmodium falciparum by an indirect immunofluorescent assay using rabbit antiserum to human fibronectin. A positive reaction was observed on merozoites inside schizont-infected erythrocytes. The binding was not observed on non-parasitized red blood cells. The effect of human fibronectin on P. falciparum growth was further studied using an in vitro inhibition assay; 50% inhibition of parasite multiplication was obtained with approximately 100 micrograms/ml of human fibronectin. Slight inhibition was observed below 10 micrograms/ml. The significance of this finding is discussed.

Abstract: Treatment of either rat peritoneal macrophages (RPM), cloned 3T3 fibroblasts (3T3FR) or Trypanosoma cruzi trypomastigote culture forms with human plasma fibronectin (huFN) enhanced their association with the untreated counterpart and this related to the concentration of huFN used. When treatment was performed at 4 degrees C, the enhancing effect of huFN on parasite-cell interaction was greater than that observed at 37 degrees C. This observation could be related to the indirect immunofluorescence antibody assay showing that a significant increase of fibronectin staining was observed on the cell and parasite surfaces upon incubation with huFN and that the extent of fibronectin staining was greater at 4 degrees C. Incubation of huFN-treated or nontreated parasites or cells with anti-huFN antibodies exerted an inhibitory effect on the parasite-cell association. The region of fibronectin that interacts with the trypomastigote surface is unknown. Inhibition experiments suggested that the domain of fibronectin which interacts with parasite surface receptors would probably be localized close to the NH2-terminal region of the molecule. Taken together, these results suggest that fibronectin may play a role in the binding of parasites to the vertebrate host cell surface.

Abstract: After analysis of the technical parameters of the rosette assay with human IgE-coated erythrocytes, Fc epsilon receptors for IgE (Fc epsilon R) on human peripheral blood eosinophils were compared to Fc epsilon R on lymphocytes and monocytes. Antibodies directed against Fc epsilon R on lymphocytes and monocytes inhibited the IgE rosettes formed by eosinophils from hypereosinophilic patients, which suggests that Fc epsilon R on eosinophils were antigenically related to Fc epsilon R on lymphocytes and monocytes. Fc epsilon R on human eosinophils were shown to participate in the killing effect of Schistosoma mansoni schistosomula in vitro in the presence of purified eosinophils from highly hypereosinophilic patients (blood counts greater than 3000/mm3) and anti-schistosomula IgE antibodies present in S. mansoni-infected patient sera. Similar levels of inhibition of cytotoxicity were obtained after preincubation of eosinophils with aggregated human IgE or with anti-Fc epsilon R antibodies, whereas preincubation with aggregated IgG or with anti-C3b receptor antibodies did not decrease the killing effect for schistosomula targets. This IgE-dependent cytotoxic capacity seemed restricted to eosinophils with an abnormally low density ("hypodense" cells) present only in highly hypereosinophilic patients. These observations might be related to nonparasitic situations in which increased levels of IgE and tissue or blood eosinophils are observed.

Abstract: Successful invasion of mammalian cells by pathogenic parasites is generally considered, from circumstantial evidence, to be a consequence of specific mechanisms of recognition of cell surface components--this has stimulated investigations of the biochemical characterization of such molecules. Several studied of trypanosomiasis have examined the ability of parasites to interact with mammalian cells. However, knowledge of the mammalian cell surface 'receptors' which interact with the parasite is limited. We now report that fibronectin, which is a high molecular weight glycoprotein present in blood, connective tissue and at cell surfaces, binds specifically to Trypanosoma cruzi trypomastigotes. The reaction is specific, reversible (in the presence of a 100-fold molar excess of unlabelled ligand) and of moderate affinity (Kd = 11.36 nM). Various other proteins (for example, thyroglobulin, ferritin, catalase, aldolase, human IgG and bovine serum albumin) had no significant effect on the binding of labelled ligand to the parasite surface. Addition of anti-fibronectin antibodies to the culture medium significantly inhibited the infection of rat fibroblasts (3T3 FR) by T. cruzi trypomastigotes, suggesting that cell surface fibronectin may act as a recognition site for attachment of the parasites.

Abstract: Fibronectin determinants were revealed in a soluble extract of Schistosoma mansoni adult worms by standard immunodiffusion and immunoelectrophoresis techniques. The same target molecules were demonstrated on the parasite's surface using a binding assay with [125I] anti-fibronectin. The use of fluorescein- and peroxidase-conjugated-antibodies confirmed the above observations and provided a fairly precise means for locating the cross-reacting antigen on the worm surface. An in vitro cytotoxic assay using inactivated (56 degrees C, 2 h) anti-fibronectin rabbit immune serum and guinea-pig serum as a source of complement was developed. In these conditions, anti-fibronectin exerted cytotoxic activity against lung schistosomula and adult worms but not skin schistosomula. The ultrastructural damage induced by anti-fibronectin in the presence of complement was studied using transmission electron microscopy. The results suggest a close association between fibronectin determinants and S. mansoni membrane.

Abstract: A Dipetalonema viteae extract was separated by gel filtration on ACA 34 Ultrogel into four fractions (A, B, C and D). The allergenic activity of the D. viteae extract and its various fractions was assayed by the passive cutaneous anaphylaxis (PCA) test in rats using mouse sera obtained from Balb/c mice transplanted with D. viteae. The PCA reaction showed that fraction B was the most potent allergenic fraction of the D. viteae extract. By the radioallergosorbent test (RAST) the use of fraction B coupled to CNBr-activated paper discs showed elevated binding of IgE antibodies in onchocerciasis human sera. A comparative study demonstrated the efficiency of the above fraction in the RAST technique in distinguishing between Onchocerca volvulus-infected patients and those infected with other human filarial worms or other helminth parasites. The binding of IgE to fraction B was confirmed by the radioimmunoelectrophoresis and radio-double diffusion methods using an 125I anti-human IgE. Since D. viteae antigens are more readily obtainable than those of O. volvulus, a further purification of fraction B to improve its specificity for the detection of IgE antibodies in human onchocerciasis is warranted.

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Abstract: In the present study the activity of Onchocerca volvulus total antigens (OVA) on the proliferative response of human lymphocytes from healthy donors was investigated. Normal human lymphocytes were cultured for 72 h with polyclonal activators, phytohaemagglutinin (PHA) or pokeweed mitogen (PWM), together with OVA, and thymidine uptake was measured. The proliferation of normal lymphocytes was markedly inhibited by the parasite antigens. The inhibition was not attributable to a cytotoxic effect of OVA, since at least 80% viable cells were recovered at the end of cell cultures. The inhibition was not abrogated by removal of the adherent cell population. The passage of OVA through immunosorbent column containing human antibodies to O. volvulus significantly reduced the suppressive activity of OVA. The in vitro response to mitogens (PHA, PWM) of normal human lymphocytes was suppressed by co-culture with allogeneic or syngeneic lymphocytes, which had previously been exposed for 72 h to OVA. The suppression was not abrogated by the irradiation of mononuclear cells before the exposure to OVA. A significant reduction of the suppression was however observed when OVA pre-treated cells were T cell depleted by centrifugation of E rosettes. Thus, parasite antigens, which are recognized by antibodies in infected human sera may participate in the modulation of the cellular immune response during O. volvulus infection by inducing suppressor cells. This suppression could in addition contribute to the survival of the parasite in its host.

Abstract: A monoclonal antibody of the IgM class recognizing Onchocerca volvulus circulating antigen (COA) was obtained. This monoclonal antibody was used in a radioimmunoprecipitation-PEG assay (RIPEGA) to detect circulating antigen in onchocerciasis patients' sera. COA could be detected in 63 (80%) of the 79 African patient sera tested, and in 126 (76%) of the 164 Indian (Venezuela) sera studied. There was no direct correlation between the presence of COA detected in the patient serum and the level of microfilarodermia. The RIPEGA using this monoclonal antibody detected COA in 91% of children under 10 years old, whereas the microfilarodermia in this group was positive in only 52% of the cases. The specificity of this test is improved compared to the results obtained with polyclonal antibodies. Immunofluorescence studies suggest that the COA might be located in the microfilaria cuticle.

Abstract: The present study reports the existence of C-mediated adherence of eosinophils and/or macrophages to filarial infective larvae of Dipetalonema viteae. C3 molecules are present on the surface of the parasite, as shown by immunofluorescence studies. Samples of fNRS depleted of AP of complement by treatment with Zymosan A or of factor B by heating at 50 degrees C for 20 min fail to mediate cell adherence to the parasite. In contrast, fNRS inactivated for CP of complement by the chelating agent EGTA retains its activity in mediating cell adherence to the parasite. There is a significant consumption of factor B and AP of complement when infective larvae are incubated in fNHS. Consumption of C4 of the CP of complement is much lower in the same test. The adherence of macrophages cannot occur without the simultaneous presence of eosinophils, whereas eosinophils probably act alone and not in concert with macrophages. The eosinophil adherence is associated with degranulation. The damage is notably enhanced by replacing the spent eosinophil population with a newly obtained population. In the present test system, mast cells did not adhere to filarial larvae even when mast cell-rich populations were used, nor did they effect macrophage adherence when presented in association with the latter. When eosinophil-enriched cell populations containing less than 1% mast cells were used, cell adherence to filarial larvae still occurred, but the presence of 30% mast cells in such cell populations markedly increased both the rate and level of adherence. We suggest that a cell-mediated adherence and destruction dependent upon the activation of complement via AP, without a requirement for specific antibody, may represent a natural mechanism of parasite killing in a nonimmune host.

Abstract: After the binding of IgG to the surface Fc receptor of Schistosoma mansoni schistosomula, the Fab portions of IgG are cleaved and small peptides are liberated in the culture medium. At least two types of proteinase activities have been demonstrated in the secretory products of schistosomula. One is an endoprotease with trypsin-like activity, with an optimum pH of 7 and an optimum temperature of 45 degrees C. The other is a metalloaminopeptidase with an optimum pH of 7 and temperature of 37 degrees C.

Abstract: The in vitro interaction between rat peritoneal macrophages and Dipetalonema viteae microfilariae in the presence of amicrofilaraemic rat immune serum was studied by transmission electron microscopy. The probable sequence of events leading to the killing of D. viteae microfilaria by macrophages is as follows. (a) Rat peritoneal macrophages in the presence of amicrofilaraemic rat immune serum adhere to the parasite surface, (b) the macrophages extend their pseudopodia around the parasite, (c) the 'lysosome-like' granules discharge their contents on to the parasite surface, (d) the lytic activity of these products begins at the parasite surface and (e) subsequent breaking of the microfilarial cuticle occurs, exposing the parasite intracellular material.

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Abstract: This report describes the presence of circulating Onchocerca volvulus antigens (COA) in sera of patients with onchocerciasis. By using a double diffusion immunoelectrophoresis method, COA could be detected in 24 of 77 sera analyzed (31%). In contrast, when more sensitive assays such as the radioimmunoprecipitation-PEG assay or sandwich radioimmunoassay were used to detect COA, about 75% of the sera from O. volvulus-infected patients were found positive; moreover, a highly significant correlation between the two assays was observed. The parasite specificity of the COA was demonstrated directly by identity reaction with a component of O. volvulus somatic antigens. COA was never found when hyperimmune antisera against other parasite antigenic extracts were used instead of anti-O. volvulus hyperimmune serum. However, when anti-O, volvulus hyperimmune serum was used against sera obtained from patients infected with various other helminths we found a cross-reactivity between COA and the circulating antigens of other human filarids (Wuchereria bancrofti, Loa loa, Brugia malayi), but not with other nematode or trematode parasites (Ascaris lumbricoides, Schistosoma mansoni, Fasciola hepatica). Further immunoelectrophoretic studies demonstrated one precipitin are localized in the cathodic region which seemed specific for COA, which raises the possibility of preparing a monospecific hyperimmune serum to circumvent cross-reactivities.

Abstract: It was previously reported that Schistosoma mansoni schistosomula in the presence of IgG activate complement through the classical pathway (CCP). In the present work we have demonstrated that schistosomula incubated with IgG peptides resulting from IgG hydrolysis by schistosomula proteases are able to initiate complement activation through CCP, since a marked consumption of C1, C4, and C2 was observed. Our results eliminate an eventual direct action of the substances released by schistosomula on the activation of CCP. The first step of CCP activation required the preliminary binding of IgG peptides on the schistosomula surface. This interaction induced an increase in the C1q uptake by schistosomula. Since the involvement of the Fc portion of IgG molecules has been clearly evidenced, in this case the peripheral globular subunits of C1q recognize the CH2 region on IgG peptides or intact IgG molecules. By this mechanism, the local consumption of complement around schistosomula could contribute to its survival in the host.

Abstract: In earlier studies we have found that activation of the classical complement pathway (CCP) by the immature schistosomes involves the presence of IgG. By investigating the first step of this activation we have demonstrated in the present work that binding of C1q to schistosomula can occur by two different routes: 1) directly, by specific C1q receptors, and 2) indirectly through the IgG previously attached to Fc receptors present on the parasite surface. Only this second mechanism appears to be involved in CCP activation by schistosomula. Moreover, certain low m.w. schistosome antigens (less than 20,000), which activate CCP, also directly fixed C1q. In this case, IgG are not required for C activation. The presence of receptors for host protein, essentially in 2- to 3-hr-old schistosomula, i.e., the life stage of Schistosoma mansoni that are first in contact with the host, could be the first mechanism by which the schistosomes evade the immune attack.

Abstract: The Fischer rat develops an acquired resistance against circulating microfilariae. Macrophages from the peritoneal washings of normal rats preincubated at 37 degrees C with the sera obtained from rats immune to circulating microfilariae adhered to and kill the microfilaria of Dipetalonema viteae in vitro within 16 to 24 hr. No significant adherence and cytotoxicity was mediated by sera collected from animals with microfilaraemia or from normal rats. Adherence of macrophages to microfilaria was associated with damage to the surface of the larva as revealed by ultrastructural studies. Neither adherence nor cytotoxicity was induced by preincubation of microfilariae, instead of macrophages with immune serum. The serum factor which mediated adherence and cytotoxicity was heat-labile, but was not a complement component. Immune absorption experiments showed that the relevant serum factor resided in the IgE class of antibody. The immune adherence to D. viteae by macrophages is stage-specific because adherence to infective larvae was not observed whether rate macrophages were preincubated in sera obtained from rats immune to microfilariae or in sera collected from animals after exposure to infective larvae.

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