Abstract: The present study evaluates sequence conservation in the gene coding for nitrite reductase (aniA) and AniA expression from a panel of Neisseria meningitidis isolates. Sequence analysis of the coding region in 19 disease-associated and 4 carrier strains notwithstanding a high degree of sequence similarity showed a number of nucleotide changes, some of which possibly resulted in premature translation termination or function loss. In particular, in one disease-associated strain a 9-residues insertion was found to be located close to the type I Cu-site and a catalytic histidine at position 280 was mutated into a leucine. In two strains from carriers, a sequence corresponding to a portion of a transposase gene within the aniA was also found. The AniA protein was always expressed, except for these two carriers strains and for other two strains in which the presence of the premature stop codons was recognized. The biochemical properties of the cloned soluble domain of the enzyme (sAniA) from N. meningitidis reference MC58 strain and from a clinical invasive isolate were studied. In particular, biochemical analysis of sAniA from MC58 demonstrated a clear dependence of its catalytic activity upon acidification, while the clinical isolate-derived sAniA was not functional. Thus, the results obtained suggest that the presence of a conserved and functional aniA gene is not essential for meningococcal survival.

Abstract: O(2)carriers (extracellular and intracellular as well as monomeric and multimeric) have evolved over the last billion of years, displaying iron and copper reactive centers; very different O(2)carriers may co-exist in the same organism. Circulating O(2)carriers, faced to the external environment, are responsible for maintaining an adequate delivery of O(2)to tissues and organs almost independently of the environmental O(2)partial pressure. Then, intracellular globins facilitate O(2)transfer to mitochondria sustaining cellular respiration. Here, molecular aspects of multiple strategies evolved for O(2)transport and delivery are examined, from the simplest myoglobin to the most complex giant O(2)carriers and the red blood cell, mostly focusing on the aspects which have been mainly addressed by the so called 'Rome Group'.

Abstract: Glutathione S-transferases (GSTs) form a widespread enzyme superfamily mainly involved in phase II detoxification. Differential expression of the various GST isoforms, differing in catalytic and structural properties, correlates with physiological and pathological states. Fast and simple determination of the GST profile is expected to be an important diagnostic tool in disease analysis. Here we propose a combined approach of high resolution separation techniques and electrospray mass spectrometric analyses for characterizing the spectrum of GSTs in male mouse liver. In this approach, the sensitivity and speed required for tissue GST profiling studies is achieved by tracking the reconstructed ion current of selected reporter peptides following chromatographic separation. This simple procedure, in which an affinity protein bait is followed by a chemical fragmentation and mass spectrometric analysis, could be sufficiently sensitive to detect the qualitative differences between physiological and pathological states.

Abstract: Several protein toxins, such as the potent plant toxin ricin, enter mammalian cells by endocytosis and undergo retrograde transport via the Golgi complex to reach the endoplasmic reticulum (ER). In this compartment the catalytic moieties exploit the ER-associated degradation (ERAD) pathway to reach their cytosolic targets. Bacterial toxins such as cholera toxin or Pseudomonas exotoxin A carry KDEL or KDEL-like C-terminal tetrapeptides for efficient delivery to the ER. Chimeric toxins containing monomeric plant ribosome-inactivating proteins linked to various targeting moieties are highly cytotoxic, but it remains unclear how these molecules travel within the target cell to reach cytosolic ribosomes. We investigated the intracellular pathways of saporin, a monomeric plant ribosome-inactivating protein that can enter cells by receptor-mediated endocytosis. Saporin toxicity was not affected by treatment with Brefeldin A or chloroquine, indicating that this toxin follows a Golgi-independent pathway to the cytosol and does not require a low pH for membrane translocation. In intoxicated Vero or HeLa cells, ricin but not saporin could be clearly visualized in the Golgi complex using immunofluorescence. The saporin signal was not evident in the Golgi, but was found to partially overlap with that of a late endosome/lysosome marker. Consistently, the toxicities of saporin or saporin-based targeted chimeric polypeptides were not enhanced by the addition of ER retrieval sequences. Thus, the intracellular movement of saporin differs from that followed by ricin and other protein toxins that rely on Golgi-mediated retrograde transport to reach their retrotranslocation site.

Abstract: This study deals with the combination of chloroquine (CQ, an anti-malaric drug) and 3'-azido-3'-deoxythymidine (AZT, anti-human immuno-deficiency virus (HIV) drug) with a chimeric toxin (TS) obtained by chemical linking of saporin (a ribosome inactivating protein from the plant Saponaria officinalis) and human transferrin, in the intoxication of the human chronic myeloid leukaemia cells (K562). Our data demonstrate that AZT, at concentrations comparable to those reached in the blood of HIV-infected patients under pharmacological treatment with this drug, can increase the toxicity of TS in cooperation with CQ inducing an increased effect on protein synthesis in K562 cells ( approximately 50% inhibition of protein synthesis for TS alone, and TS with AZT and approximately 70% with both AZT and CQ). Furthermore, pre-treatment of cells with AZT alone can induce an increase of apoptosis in K562 cells intoxicated with TS. By comparing data obtained with the model toxin ricin, we get indications that the two toxins partially differ in their intracellular routes, also suggesting that chimeric constructs containing ricin-like toxins (i.e. immunotoxins) could be coupled with the use of common and cheap drugs for the treatment of cancer in HIV-infected patients.

Abstract: Intracellular activation of ricin and of the ricin A-chain (RTA) immunotoxins requires reduction of their intersubunit disulfide(s). This crucial event is likely to be catalyzed by disulfide oxidoreductases and precedes dislocation of the toxic subunit to the cytosol. We investigated the role of protein disulfide isomerase (EC 5.3.4.1, PDI), thioredoxin (Trx), and thioredoxin reductase (EC 1.8.1.9, TrxR) in the reduction of ricin and of a ricin A-chain immunotoxin by combining enzymatic assays, SDS-PAGE separation and immunoblotting. We found that, whereas PDI, Trx, and TrxR used separately were unable to directly reduce ricin and the immunotoxin, PDI and Trx in the presence of TrxR and NADPH could reduce both ricin and immunotoxin in vitro. PDI functioned only after pre-incubation with TrxR and the reductive activation of ricin was more efficient in the presence of glutathione. Similar results were obtained with microsomal membranes or crude cell extracts. Pre-incubation with the gold(I) compound auranofin, which irreversibly inactivates TrxR, resulted in a dose-dependent inhibition of ricin and immunotoxin reduction. Reductive activation of ricin and immunotoxin decreased or was abolished in microsomes depleted of TrxR and in cell extracts depleted of both PDI and Trx. Pre-incubation of U-937, Molt-3, Jurkat, and DU145 cells with auranofin significantly decreased ricin cytotoxicity with respect to mock-treated controls (P<0.05). Conversely, auranofin failed to protect cells from the toxicity of pre-reduced ricin which does not require intracellular reduction of disulfide between the two ricin subunits. We conclude that TrxR, by activating disulfide reductase activity of PDI, can ultimately lead to reduction/activation of ricin and immunotoxin in the cell.

Abstract:

Abstract: Bovine lactoferrin catalyzes the hydrolysis of synthetic substrates (i.e., Z-aminoacyl-7-amido-4-methylcoumarin). Values of Km and kcat for the bovine lactoferrin catalyzed hydrolysis of Z-Phe-Arg-7-amido-4-methylcoumarin are 50 microM and 0.03 s(-1), respectively, the optimum pH value is 7.5 at 25 degrees C. The bovine lactoferrin substrate specificity is similar to that of trypsin, while the hydrolysis rate is several orders of magnitude lower than that of trypsin. The bovine lactoferrin catalytic activity is irreversibly inhibited by the serine-protease inhibitors PMSF and Pefabloc. Moreover, both iron-saturation of the protein and LPS addition strongly inhibit the bovine lactoferrin activity. Interestingly, bovine lactoferrin undergoes partial auto-proteolytic cleavage at positions Arg415-Lys416 and Lys440-Lys441. pKa shift calculations indicate that several Ser residues of bovine lactoferrin display the high nucleophilicity required to potentially catalyze substrate cleavage. However, a definitive identification of the active site awaits further studies.

Abstract: The insertion of proteins into planar lipid layers is of outstanding interest as the resulting films are suitable for the investigation of protein structure and aggregation in a lipid environment and/or the development of biotechnological applications as biosensors. In this study, purified P-glycoprotein (P-gp), a membrane drug pump, was incorporated in model membranes deposited on solid supports according to the method by Puu and Gustafson, Biochim. Biophys. Acta 1327 (1997) 149-161. The models were formed by a double lipid layer obtained by opening P-gp-containing liposomes onto two hydrophobic supports: amorphous carbon films and Langmuir-Blodgett (L-B) lipid monolayers, which were then observed by transmission electron microscopy and atomic force microscopy, respectively. Before the opening of liposomes, the P-gp structure and functionality were verified by circular dichroism spectroscopy and enzymatic assay. Our micrographs showed that liposomes containing P-gp fuse to the substrates more easily than plain liposomes, which keep their rounded shape. This suggests that the protein plays an essential role in the fusion of liposomes. To localize P-gp, the immunogold labeling of two externally exposed protein epitopes was carried out. Both imaging techniques confirmed that P-gp was successfully incorporated in the model membranes and that the two epitopes preserved the reactivity with specific mAbs, after sample preparation. Model membranes obtained on L-B monolayer incorporated few molecules with respect to those incorporated in the model membrane deposited onto amorphous carbon, probably because of the different mechanism of proteoliposome opening. Finally, all particles appeared as isolated units, suggesting that P-gp molecules were present as monomers.

Abstract: In this study, phagocytosis of Bordetella pertussis was assessed using a human monocyte-derived macrophage line (THP-1) and immune sera from children who had received primary vaccination during the Italian clinical trial on the efficacy of two acellular three-component (PT-FHA-PRN) and one whole-cell pertussis vaccines. The results demonstrate that phagocytosis of opsonized bacteria with specific immune sera is not significantly enhanced compared with that of non-opsonized bacteria or bacteria opsonized with non-immune sera. A similar result was obtained also using B. pertussis strains showing variants of the pertactin antigen suggesting that those variations do not reduce the capability of the bacterium to invade the monocytes.

Abstract: In this study, purified P-glycoprotein molecules, a membrane drug pump responsible for the multidrug resistance phenomenon, were incorporated in model membranes deposited onto solid supports, according to the method described by Puu and Gustafson (1997). The insertion of proteins into planar supported model membranes is of interest, as the films are fundamental in biosensor applications and for the investigation of how proteins conform and aggregate in a lipid environment. In our investigation, two model membranes were prepared by transferring liposomes containing P-glycoprotein to different hydrophobic supports: (a) thin amorphous carbon films; (b) Langmuir-Blodgett lipid monolayers on mica. After the labelling of P-glycoprotein with two well-characterised monoclonal antibodies, MM4.17 and MRK-16, samples (a) were observed by transmission electron microscopy (TEM) and samples (b) by atomic force microscopy (AFM). The comparative analysis performed by TEM and AFM allowed us to demonstrate the successful insertion of P-glycoprotein in the model membranes and their stability under different environmental conditions (vacuum, air and water). P-glycoprotein appeared to maintain, after purification and insertion in lipid bilayers, a good part of its conformational features as shown by the P-glycoprotein segments bearing the specific monoclonal antibody epitopes.

Abstract: A fluorescent derivative of a chimeric toxin between human pro-urokinase and the plant ribosome-inactivating protein saporin (p-uPA-Sap(TRITC)), has been prepared in order to study the endocytosis of this potentially antimetastatic conjugate in the murine model cell line LB6 clone19 (Cl19) transfected with the human urokinase receptor gene. The physiological internalization of urokinase-inhibitor complexes is triggered by the interaction of plasminogen inhibitors (PAIs) with receptors belonging to the low density lipoprotein-related receptor protein (LRP) family, and involves a macro-quaternary structure including uPAR, LRP, and PAIs. However, in contrast to this mechanism, we observed a two-step process: first, the urokinase receptor (uPAR) acts as the anchoring factor on the plasma membrane; subsequently, LRP acts as the endocytic trigger. Once the chimera is bound to the plasma membrane by interaction with uPAR, we suggest that a possible exchange may occur to transfer the toxin to LRP via the saporin moiety and begin the internalization. So an unusual endocytic process is described, where the toxin enters the cell via a receptor different from that used to bind the plasma membrane.

Abstract: The 2.0 A resolution crystal structure of the ribosome inactivating protein saporin (isoform 6) from seeds of Saponaria officinalis is presented. The fold typical of other plant toxins is conserved, despite some differences in the loop regions. The loop between strands beta7 and beta8 in the C-terminal region which spans over the active site cleft appears shorter in saporin, suggesting an easier access to the substrate. Furthermore we investigated the molecular interaction between saporin and the yeast ribosome by differential chemical modifications. A contact surface inside the C-terminal region of saporin has been identified. Structural comparison between saporin and other ribosome inactivating proteins reveals that this region is conserved and represents a peculiar motif involved in ribosome recognition.

Abstract: With the electro-driven import of rhodamine 123, we used single cell fluorescence microscopy to single out the contribution of nitric oxide (NO) in controlling mitochondrial membrane potential expressed by (stationary growing) rhabdomyosarcoma and neuroblastoma cells in culture. The experimental design and the computer-aided image analysis detected and quantitated variations of fluorescence signals specific to mitochondria. We observed that 1) the two cell lines display changes of fluorescence dependent on mitochondrial energization states; 2) mitochondrial fluorescence decreases after exposure of the cells to a NO releaser; 4) the different fluorescence intensity measured under stationary growing conditions, or after activation and inhibition of constitutive NO synthase, is consistent with a steady-state production of NO. Direct comparison of single cell fluorescence with bulk cytofluorimetry proved that the results obtained by the latter method may be misleading because of the intrinsic-to-measure lack of information about distribution of fluorescence within different cell compartments. The kinetic parameters describing the reactions between cytochrome oxidase, NO, and O2 may account for the puzzling (20-fold) increase of the KM for O2 reported for cells and tissues as compared to purified cytochrome c oxidase, allowing an estimate of in vivo NO flux.

Abstract: CD25 and CD30 represent suitable target molecules for bispecific antibody (bimAb)-driven toxin delivery to lymphoid tumour cells. We describe two new anti-CD30/anti-saporin bimAbs (termed CD30 x sap1 and CD30 x sap2), produced by hybrid hybridomas, which react against non-cross-reactive epitopes of the saporin molecule, and compared their effect with a bimAb reacting with saporin and with CD25 (CD25 x sap1). In a protein synthesis inhibition assay these bimAbs were able to enhance saporin toxicity (IC50 = 8.5 x 10(-9) M in the absence of mAbs) with a similar activity: in the presence of 10(-9) M CD30 x sap1 bimAb the IC50 was 2.75 x 10(-11) M, whereas with CD30 x sap2 bimAb the IC50 was 6.5 x 10(-11) M and CD25 x sap1 bimAb displayed an IC50 of 3 x 10(-11) M (as saporin). The combined use of the two anti-CD30 bimAbs further increased cytotoxicity by 100-fold, resulting in an IC50 of 1.9 x 10(-13) M. A slightly less efficient improvement was obtained by combining the CD25 x sap1 bimAb with the CD30 x sap2 bimAb directed against a different toxin epitope (saporin IC50 to 7 x 10(-13) M). In contrast, no synergistic effect was observed using the combination of the anti-CD25 bimAb with the anti-CD30 bimAb reacting with the same epitope of saporin (IC50 = 4.5 x 10(-11) M). Analysis of FITC-saporin binding to L540 cells by flow cytometry demonstrated that the appropriate combinations of the two anti-CD30/anti-saporin bimAbs or of the anti-CD30/anti-saporin and anti-CD25/anti-saporin bimAbs had a cooperative effect on the binding of the ribosome-inactivating protein (RIP) to the cells, when compared with single bimAbs.

Abstract: Single crystals of the protein saporin isolated from the seeds of S. officinalis have been grown by the vapor-diffusion method using ammonium sulfate as precipitant. The crystals are tetragonal, space group P4122 (P4322), with cell dimensions a = b = 67.53 and c = 119. 67 A, and diffract to 2.0 A resolution on a rotating-anode X-ray source. The asymmetric unit contains one molecule, corresponding to a volume of the asymmetric unit per unit mass (Vm) of 2.38 A3 Da-1.

Abstract: The toxicity of two conjugates containing ribosome-inactivating proteins (RIPs, i.e. saporin and ricin-A chain x-linked to transferrin) has been measured on a prostatic cancer line (PC3) naturally overexpressing the transferrin receptor, in the presence of monensin and chloroquine. This paper investigates whether the increased toxicity of Tf-RIPs induced by monensin and chloroquine may be due to alterations of the normal endocytotic pathway of the complexes mediated by the transferrin receptor. Monensin, besides inducing alkalinization of normally acid intracellular compartments, causes an accumulation of the receptor-bound Tf-RIP in a perinuclear region contiguous to the cisternae of the trans-Golgi network. Chloroquine, though increasing the intracellular pH, seems not to modify the endocytotic pathway of these chimeric molecules. We believe that the enhanced toxicity of the Tf-RIPs may be related to intracellular alkalinization (i.e., endosomal or lysosomal pH) rather than to the effects on the recycling of transferrin receptor-bound toxins. We conclude that the efficacy of chimeric toxins may be modulated not only by the carrier used for their engineering but also by addition of drugs able to influence the stability and activation of the toxins inside the cell.

Abstract: Here we report the structural and functional characterization of a covalent complex (MKP) obtained by cross-linking microperoxidase (Mp), the haem-undecapeptide obtained by the peptic digestion of cytochrome c, with a 21-residue synthetic peptide (P21) analogous to the S-peptide of the RNase A. The covalent complex has been prepared by introducing a disulphide bond between Cys-1 of P21 and Lys-13 of Mp, previously modified with a thiol-containing reagent. On formation of the complex (which is a monomer), the helical content of P21 increases significantly. The results obtained indicate that His-13 of P21 co-ordinates to the sixth co-ordination position of the haem iron, thus leading to the formation of a complex characterized by an equilibrium between an 'open' and a 'closed' structure, as confirmed by molecular dynamics simulations. Under acidic pH conditions, where His-13 of P21 is loosely bound to the haem iron ('open' conformation), MKP displays appreciable, quasi-reversible electrochemical activity; in contrast, at neutral pH ('closed' conformation) electrochemical behaviour is negligible, indicating that P21 interferes with the electron-transfer properties typical of Mp. On the whole, MKP is a suitable starting material for building a miniature haem system, with interesting potential for application to biosensor technology.

Abstract: Saporin, a single-chain, non-cytotoxic, ribosome-inactivating protein from Saponaria officinalis, was chemically linked to the hormone insulin in a 1:1 complex. To follow by dynamic video microscopy the endocytosis and intracellular transport in vivo, a second covalent conjugate with a saporin derivative labelled with fluorescein isothiocyanate was also prepared. Both conjugates were characterized with reference to homogeneity, stoichiometry, optical spectroscopy and toxicity. Both were found to exhibit scarce toxicity toward both CHO and HEP G2 cells; optical video microscopy on living cells indicates that reduced toxicity may be (partly) due to a very limited binding of the saporin-insulin conjugate to membrane receptors. These results suggest a strategy for new possible covalent conjugates of saporin with alternative and specific macromolecular carriers.

Abstract: A liposomal carrier system able to interact specifically with HL60 leukaemia cells was produced using small unilamellar liposomes made of pure phospholipids chemically cross-linked to human transferrin. The conjugation of transferrin to liposomes was carried out using N-succinimidyl 3-(2-pyridyldithio)-propionate and 2-iminothiolane as activating agents for the liposomes and the protein. The reaction occurred under conditions set to covalently link on the surface of a single vesicle a limited number (one to ten) of transferrin molecules, as verified by means of electron microscopy and immunoenzymic measurements. Before conjugation, the ultrastructure of the liposomes, and the content and distribution of the amino groups within the bilayer, were determined. The reactivity of the liposomes towards amino-derivatizing or thiolating compounds was also measured. Kinetic spectroscopic measurements confirmed that the distribution of the phosphatidylethanolamine in the vesicle bilayer is asymmetrical: 22% of phosphatidylethanolamine was found exposed to the external surface of the liposomes and accessible to the cross-linker. The modified liposomes were able to interact specifically with the cells and to be internalized by active receptor-mediated endocytosis, as demonstrated by the full inhibition of internalization induced by free transferrin.

Abstract: Human transferrin (Tf) and saporin-6 (Sap), a ribosome inactivating protein from Saponaria officinalis, were chemically conjugated: the reaction generated two chimeras (called Tf-Sap) that proved to be cytotoxic to HepG2 cells. Electrophoretic and chromatographic analysis revealed that the two conjugates contained saporin and Tf in a 2:1 or 1:1 molar ratio (140 and 110 KDa, respectively). Free saporin is essentially nontoxic, whereas Tf-Sap efficiently kills HepG2 cells, although its ID50 (= 6 nM) is 1000-fold greater than that of ricin. Intracellular transport of these toxins was followed by in vivo fluorescence video microscopy, preparing the conjugates starting from rhodamine isothiocyanate-labeled saporin. Image analysis of living HepG2 cells exposed to fluorescent Tf-Sap revealed that the endocytotic pathway involving passage through secondary endosomes is dictated by Tf and is different from that of ricin (the dimeric toxin from Ricinus communis), which is delivered to the Golgi apparatus, the probable site of activation. We discuss whether differences in toxicity between ricin and Tf-Sap can be attributed to the different mechanisms of transport and activation.

Abstract: The intracellular dynamics of fluorescent conjugates of the toxic lectin ricin was followed by video fluorescence microscopy on living CHO cells, demonstrating that the ricin heterodimer and its isolated B chain, after binding to the plasma membrane receptors, migrate to and accumulate in the Golgi apparatus following internalization. A ricin derivative labelled with fluorescein on the A chain and rhodamine on the B chain did not display significant splitting of the A-B heterodimer during translocation of the toxin to the Golgi; this novel finding provides support for the hypothesis that further processing of ricin takes place in this cellular compartment.

Abstract: Spectroscopic measurements in single living cells are made possible by the development of computer controlled light detectors, which, when applied to optical microscopes, yield spatial, temporal and eventually spectroscopic information about the sample. This minireview describes some experiments in which the distribution and concentration of specific intracellular markers (proteins, protein complexes, RNA) has been followed by quantitative microscopy. The examples chosen have contributed to shed light on a biochemical process as it happens in vivo; because of the non ideal conditions of the intracellular milieu, the comparison of in vivo and in vitro experiments is of great relevance to the understanding of cellular physiology.

Abstract: Chlorocruorin is a cooperative respiratory pigment found in the blood of polychaete worms; its prosthetic group is a derivative of the iron protoporphyrin IX, in which the vinyl group at position 2 is substituted by a formyl group. The quaternary structure of chlorocruorins is complex: myoglobin-like subunits are grouped in tetramers and tetramers in dodecamers; 12 dodecamers are assembled in the 3500-kDa particle. Chlorocruorin from Spirographis spallanzanii displays the following overall functional properties: (i) the oxygen affinity is lower than in human hemoglobin, while that of CO is similar if not higher; (ii) the rates of combination with oxygen and carbon monoxide are low; and (iii) the off rate of oxygen is comparable to that of human hemoglobin, while the off rate of CO is 10 times smaller. When CO is partially photolyzed with a long and powerful light flash (70 microseconds), rebinding is biphasic as in mammalian hemoglobins; however, the slowest rate is faster than that observed by stopped flow, suggesting that the unliganded protein decays from the liganded high affinity state (R) to an intermediate state before reaching the low affinity (T) state. Oxygen binding was followed by stopped-flow and flash photolysis. While partial photolysis yields a fast, second-order time course, stopped-flow experiments yield slow, biphasic, and non-second-order time courses. This pattern of reactivity was attributed to a slow conformational transition(s) which is (are) rare limiting with oxygen, but not with CO.(ABSTRACT TRUNCATED AT 250 WORDS)

Abstract: Many plants express enzymes which specifically remove an adenine residue from the skeleton of the 28 S RNA in the major subunit of the eukaryotic ribosome (ribosome inactivating proteins, RIPs). The site of action of RIPs (A4324 in the rRNA from rat liver) is in a loop structure whose nucleotide sequence all around the target adenine is also conserved in those species which are completely or partially insensitive to RIPs. In this paper we identify a covalent complex between saporin (the RIP extracted from Saponaria officinalis) and ribosomal proteins from yeast (Saccharomyces cerevisiae), by means of chemical crosslinking and immunological or avidin-biotin detection. The main complex (mol. wt. congruent to 60 kDa) is formed only with a protein from the 60 S subunit of yeast ribosomes, and is not detected with ribosomes from E. coli, a resistant species. This observation supports the hypothesis for a molecular recognition mechanism involving one or more ribosomal proteins, which could provide a 'receptor' site for the toxin and favour optimal binding of the target adenine A4324 to the active site of the RIP.

Abstract: The complete amino acid sequence of the single hemoglobin of the Antarctic teleost Gymnodraco acuticeps has been determined. The alpha chain contains 142 amino acid residues; an acetylated seryl residue is at the amino terminal. The beta chain contains 146 residues. A very high degree of sequence identity has been found with hemoglobins of other Antarctic fishes. Oxygen binding is not modulated by pH and allosteric effectors. The Bohr and Root effects are absent, although specific amino acid residues, considered responsible of most of these functions, are conserved in the sequence, thus posing new questions about the molecular basis of these mechanisms. The low heat of oxygenation may be interpreted as one of the mechanisms involved in the process of cold adaptation.

Abstract: New data on the properties of red blood cells (RBC) cross-linked with glutaraldehyde are presented (see also Biochem. Biophys. Res. Commun., 1988, 156, 970-977). Equilibrium and kinetic data show that by carrying out the fixation procedure in the absence of oxygen but in the presence of allosteric effectors (e.g., stabilizing the low-affinity (T) quaternary state of hemoglobin), it is possible to maintain, at least in part, the biochemical functions of the crosslinked hemoglobin inside the cell. Moreover, we show that the oxygen affinity of fixed red blood cells (RBC) is still modulated, even though to a smaller degree, by the allosteric effector bezafibrate (BZF), which is able to cross the fixed RBC membrane. Membrane filtration experiments indicate that the higher rigidity of fixed RBC alters significantly their rheodynamic properties and show that in order to exploit "engineered" RBC as "blood substitutes," more flexible cross-linking reagents may offer significant advantages.

Abstract: Hemoglobin Dallas, an alpha-chain variant with a substitution of lysine for asparagine at position 97(G4), was found to have increased oxygen affinity (p1/2 = 1 mmHg at pH 7.3 and 20 degrees C), diminished cooperativity (n, the Hill coefficient = 1.7) and reduced Bohr effect (about 50%). Addition of allosteric effectors (such as 2,3-diphosphoglycerate, inositol hexakisphosphate and bezafibrate) led to a decrease in oxygen affinity and increase in cooperative energy. Kinetic studies at pH 7.0 and 20 degrees C revealed that (i), the overall rate of oxygen dissociation is 1.4-fold slower than that for HbA and (ii), the carbon monoxide dissociation rate is unaffected. The abnormal properties of this hemoglobin variant can be attributed to a more 'relaxed' T-state.

Abstract: A detailed investigation with affinity-chromatography-purified fractions of antihemoglobin serum from rabbit shows that the hemoglobin content of human bones dating back 15 to 3,000 years may be very small. Some of the previous results (Ascenzi et al., 1985) indicating a high hemoglobin titer were +vitiated because of an unexpected cross-reactivity of bone extracts with the hemoglobin-unreactive fraction of the antiserum.

Abstract: The effect of chemical modification of hemoglobin with six derivatives of benzene isothiocyanate has been studied. The negatively charged reagents (isothiocyanates of benzoic and benzenesulfonic acids) markedly inhibit the interaction of hemoglobin with allosteric effectors such as H+, Cl- and organic phosphates; the affinity for heme ligands in the absence of effectors is reduced but cooperativity is maintained, making these modified hemoglobins suitable models for a possible 'blood substitute'. The only uncharged reagent tested (isothiocyanate of benzenesulfonamide) increases the oxygen affinity of hemoglobin and affects only slightly the interaction with heterotropic ligands; its potential use as an antisickling drug is under study.

Abstract: The toxic lectin ricin has been covalently labelled with fluorescein isothiocyanate on the enzymatically active A chain. The fluorescein reacted toxin maintains its biological activity. The lateral diffusion coefficient of cell surface bound ricin, studied in two cell lines by fluorescence photobleaching recovery, is D = 1 - 2 x 10(-10) cm2/s. Fluorescence microscopy provides preliminary evidence for secondary endosomes in the cytoplasm.

Abstract: Human hemoglobin was reacted with the bifunctional reagent bis(3,5-dibromosalicyl) fumarate to yield a derivative (Hb alpha alpha) crosslinked between the two alpha-chains; when the reaction was carried out with HbA already crosslinked between the two beta-chains by 2-nor-2-formylpyridoxal 5'-phosphate, a doubly crosslinked derivative (Hb alpha alpha beta beta) was obtained. We have observed that both modified hemoglobins are extremely stable up to temperatures of at least 85 degrees C. The carbon monoxide binding kinetics of both crosslinked hemoglobins, studied at temperatures between 15 and 85 degrees C, by means of stopped flow and flash photolysis techniques, show that the ligand-linked allosteric transition is maintained even at the highest temperatures. These results are also relevant to the mechanism of thermal unfolding of human hemoglobin, since they show that dissociation into alpha beta dimers (and exposure of the relatively hydrophobic dimer-dimer interfaces) is an obligatory step in the irreversible denaturation of deoxy and carbon monoxy hemoglobin.

Abstract: The complete primary structure of saporin SO-6, a ribosome-inactivating protein extracted from Saponaria officinalis seeds, has been determined. The sequence was reconstructed following purification and analysis of peptides obtained after digestion of the protein with different proteolytic agents. The protein is composed of 253 amino acids, corresponding to a molecular weight of 28,621 Da. Comparison of the primary structure of SO-6 with the sequence deduced from cDNA, shows amino acid substitutions in 11 positions, suggesting a tissue-related genetic variability. When the sequence of saporin is compared to those of two related proteins, ricin A chain and trichosanthin, a low degree of similarity (12%) is found; nevertheless some considerations about structure-function relationships and evolution of RIPs are possible.

Abstract: Human erythrocytes extensively crosslinked with glutaraldhyde display very high mechanical and chemical resistance, but still bind oxygen reversibly. Depending on the initial reaction conditions the oxygen affinity of fixed erythrocytes is either high or (partially) low, the binding curve being always non cooperative. Cells which are extensively crosslinked but still active may find a number of biotechnological applications; fixed erythrocytes may (for example) be investigated as possible blood substitutes.

Abstract: Human hemoglobin, reacted at the four amino termini with 4-isothiocyanatobenzenesulphonic acid (Hb-ICBS), was separated into its constituent chains. Recombination of the ICBS-reacted chains with the unmodified mate chains produced the hybrid tetramers modified at either the beta or the alpha chains: alpha 2 beta 2ICBS and alpha 2ICBS beta 2. All of the modified tetramers show a reduced oxygen affinity and reduced cooperativity; furthermore the oxygen affinity of the Hb-ICBS and alpha 2 beta 2ICBS is unaffected by 2,3-bisphosphoglycerate while the oxygen affinity of alpha 2ICBS beta 2 is decreased in the presence of this organic phosphate. The oxygen affinity of Hb-ICBS and alpha 2ICBS beta 2 is independent of chloride concentration, while the alpha 2 beta 2ICBS hybrid shows a reduced response to this anion. The tetramers alpha 2ICBS beta 2 and alpha 2ICBS beta 2ICBS show a decreased alkaline Bohr effect, which can be rationalized as being due to disruption of the oxygen-linked chloride-binding sites; in the case of alpha 2 beta 2ICBS the Bohr effect is instead (partially) maintained. The functional properties of artificial tetramers have been studied also from a kinetic point of view by CO combination and the results obtained compare satisfactorily with equilibrium data. The possibility of obtaining selectively modified hemoglobins promises to provide further insight into the properties of the oxygen-linked anion-binding sites in hemoglobin.