Abstract: Brain natriuretic peptide/natriuretic peptide precursor B (NPPB) is one of the most studied genes in relation to heart failure (HF) conditions. However, it is still unclear as to whether alternative splicing could create NPPB mRNA variants, which may be expressed in normal and diseased myocardium. We aimed to identify and characterize a novel alternatively spliced variant of porcine and human NPPB resulting from exon 2 skipping (designated as DeltaE2-NPPB). A variety of conventional molecular, biochemical and immunochemical methods were used to examine the expression and functional consequences of DeltaE2-NPPB in vitro and in vivo. The pig DeltaE2-NPPB mRNA is effectively translated into stable protein in cell-based assays but, in contrast to normally spliced NPPB, the DeltaE2-NPPB protein is not secreted into the media. Co-transfection assays demonstrate that DeltaE2-NPPB attenuates production and secretion of normally spliced NPPB, suggesting a negative feedback loop of NPPB signaling through generation of DeltaE2-NPPB. The inhibitory effects of DeltaE2-NPPB on the expression of NPPB are associated with sequence elements residing in exon 3 of DeltaE2-NPPB. In piglets, DeltaE2-NPPB gene expression is downregulated in both ventricles after birth, but it is markedly re-activated in the postnatal myocardium in experimental diastolic heart failure. In addition, we demonstrate that the exon-skipped NPPB variants are expressed in the postnatal and adult human myocardium and upregulated at end-stage HF due to dilated cardiomyopathy. Our work uncovers an important role of alternative exon skipping in the regulation of NPPB gene expression, thereby pinpointing a putative new mechanism for post-transcriptional regulation of NPPB production and secretion.
Abstract: Molecular predisposition of postnatal ventricular myocardium to chamber-dependent (concentric or eccentric) remodeling remains largely elusive. To this end, we compared gene expression in the left (LV) versus right ventricle (RV) in newborn piglets, using a differential display reverse transcription-PCR (DDRT-PCR) technique. Out of more than 5600 DDRT-PCR bands, a total of 153 bands were identified as being differentially displayed. Of these, 96 bands were enriched in the LV, whereas the remaining 57 bands were predominant in the RV. The transcripts, displaying over twofold LV-RV expression differences, were sequenced and identified by BLAST comparison to known mRNA sequences. Among the genes, whose expression was not previously recognized as being chamber-dependent, we identified a small cohort of key regulators of muscle cell growth/proliferation (MAP3K7IP2, MSTN, PHB2, APOBEC3F) and gene expression (PTPLAD1, JMJD1C, CEP290), which may be relevant to the chamber-dependent predisposition of ventricular myocardium to respond differentially to pressure (LV) and volume (RV) overloads after birth. In addition, our data demonstrate chamber-dependent alterations in expression of as yet uncharacterized novel genes, which may also be suitable candidates for association studies in animal models of LV/RV hypertrophy.
Abstract: The aim of this study was to determine the effects of forced expression of myocd-A in the left ventricular (LV) myocardium on cardiac performance in early neonatal piglets. LV transfection with the gene for homeodomain only protein (hop), an antagonist of myocd-mediated activities, was also performed. Gene delivery was performed in 6-day-old piglets using a low-traumatic, catheter-based, video-assisted procedure developed by us for direct intra-myocardial injections of plasmid DNA into 3-4 target areas of the ventral LV free wall (LVFW). Two isoforms of porcine myocd were identified, cloned and characterized: the exon 11-lacking myocd-A and its larger exon 11-containig variant, myocd-B. In neonatal piglets, myocd-A seems to be a cardio-predominant isoform enriched in the LVFW/septum, whereas the myocd-B isoform is detected not only in the heart but also in various smooth muscle cell-containing tissues. Intramyocardial myocd-A gene delivery resulted in forced transgene expression in the target areas of the LVFW as compared to controls. On day 2 post-delivery, a marked decrease of LV-end systolic pressure values (an accepted marker for impaired LV function) was observed in myocd-A-transfected piglets as compared to hop-transfected and control groups. In addition, forced myocd-A expression in the LVFW caused abnormal ECG. A significant up-regulation of the gene for fetal-predominant muscle light chain 3F myosin was detected in myocd-A-transfected LVFWs harvested on day 2 post-delivery. Extended analysis on day 7 post-delivery revealed a drop decrease in myocd-A transgene expression in target LVFW regions which was correlated with normalization of the LV systolic parameters in experimented piglets.
Abstract: The cardiac ankyrin repeat domain 1 protein (ANKRD1, also known as CARP) has been extensively characterized with regard to its proposed functions as a cardio-enriched transcriptional co-factor and stress-inducible myofibrillar protein. The present results show the occurrence of alternative splicing by intron retention events in the pig and human ankrd1 gene. In pig heart, ankrd1 is expressed as four alternatively spliced transcripts, three of which have non-excised introns: ankrd1-contained introns 6, 7 and 8 (i.e., ankrd1-i6,7,8), ankrd1-contained introns 7 and 8 (i.e., ankrd1-i7,8), and ankrd1 retained only intron 8 (i.e., ankrd1-i8). In the human heart, two orthologues of porcine intron-retaining ankrd1 variants (i.e., ankrd1-i8 and ankrd1-i7,8) are detected. We demonstrate that these newly-identified intron-retaining ankrd1 transcripts are functionally intact, efficiently translated into protein in vitro and exported to the cytoplasm in cardiomyocytes in vivo. In the piglet heart, both the intronless and intron-retaining ankrd1 mRNAs are co-expressed in a chamber-dependent manner being more abundant in the left as compared to the right myocardium. Our data further indicate co-upregulation of the ankrd1 spliced variants in myocardium in the porcine model of diastolic heart failure. Most significantly, we demonstrate that in vivo forced expression of recombinant intronless ankrd1 markedly increases the levels of intron-retaining ankrd1 variants (but not of the endogenous main transcript) in piglet myocardium, suggesting that ANKRD1 may positively regulate the expression of its own intron-containing RNAs in response to cardiac stress. Overall, our findings demonstrate that in cardiomyocytes ANKRD1 can exist in multiple isoforms which may contribute to the functional diversity of this factor in heart development and disease.
Abstract: It has been proposed that the ankyrin repeat domain 1 (ANKRD1) factor (also known as CARP) plays a critical role in transcriptional regulation, myofibrillar assembly and stretch sensing during heart development and cardiac insults. ANKRD1/CARP has also been reported to negatively regulate cardiac gene expression in cell-based promoter-reporter assays. Consequently, rapid up-regulation of the ankrd1 gene in myocardium in response to developmental stimuli or pathological insults has tended to be interpreted in the context of the inhibitory effects of ANKRD1 on cardiomyocyte gene expression. Surprisingly, a total ankrd1 knockout resulted in a complete lack of phenotype, suggesting that ANKRD1/CARP is not crucial for regulation of cardiac gene expression in vivo. In this essay, we summarize (1) the accumulated evidence for the apparent multifunctional properties of this enigmatic protein, (2) the distinct chamber-dependent regulation of ankrd1 expression patterns in the heart, both during development and cardiac injury, and (3) ANKRD1 involvement in networks regulating adaptation of the myocardium to stress. Whenever feasible, we present the results obtained in patients together with those obtained in the relevant animal and cellular models. A close examination of the findings still fails to define ANKRD1 as a negative regulator of cardiac gene expression in vivo, but rather indicates that its augmented expression can represent an adaptive response of the myocardium to stress both during development and various heart insults.
Abstract: We have developed a set of simple modifications of the green fluorescent protein (GFP)fragment reassembly assay in bacteria that permits: (i)fluorescent microscopy visualization of GFP reassembly only 1-2 h after induction of protein expression, thus approximating the detection of GFP reassembly to the real-time dynamics of protein complex formation in living cells; (ii) spectrofluorometric detection of reassembled GFP fluorescent signals directly in lysates from cell suspension thereby avoiding, in many cases, the need for tag-affinity isolation of protein complexes; and (iii) comparative quantification of signal intensity in numerous cell-sample lysates using a Bio-Rad IQ5 spectrofluorometric detection system (Bio-Rad Laboratories, Madrid, Spain). Collectively, the results demonstrate that the combination of microscopic and spectrofluorometric detection provides a time-saving and sensitive alternative to existing methods of fluorescence complementation analysis.
Abstract: Diastolic heart failure (DHF) was produced in 6-day-old piglets by intravenous administration of Doxorubicin, and ANKRD1 protein and mRNA levels were determined in atrial (A) and ventricular (V) chambers of failing vs control hearts. In controls, ANKRD1 showed a left-right (L-R) asymmetric distribution with protein levels 2-fold higher in the LA as compared to the RA, and 8-fold higher in the LV than the RV. In failing hearts, ANKRD1 levels were augmented about 2-fold in each ventricle but equally reduced in both atria as compared to controls. ANKRD1 downregulation in atria is discussed as a process associated with advanced DHF.
Abstract: It has been suggested that the cardiac ankyrin repeat domain 1 protein (ANKRD1), also known as CARP, can play a pathophysiological role in the contractile responsiveness of myocardium. Here, we study the potential functional roles of ANKRD1 by searching for endogenous cardiac proteins that interact preferentially with ANKRD1 in the heart-tissue extract from neonatal piglets, using non-biased pull-down approaches. These approaches identified, for the first time, a selective interaction between ANKRD1 and endogenous cardiac calsequestrin-2 (CASQ2) that is important for Ca2+ release and excitation-contraction coupling. Blot-overlay and co-immunoprecipitation assays provided further confirmation of the direct and specific interaction between the two proteins. Mapping of the peptides involved in the interaction revealed five non-overlapping binding sequences for CASQ2 on ANKRD1, as well as, three binding peptides for ANKRD1 in CASQ2. For the first time, we show by immunohistochemistry that endogenous ANKRD1 and CASQ2 are co-enriched in piglet cardiac Purkinje cells. Collectively, the results provide the first sing of a possible functional interaction between ANKRD1 and CASQ2 and suggest a potentially novel role for both proteins in cardiac Purkinje fibers.
Abstract: The mechanism of sexualization of the tubular gonad in seawater bivalves is unknown, and no information regarding the genes involved in this process is yet available, except for the identification of esterase (Est)-like "male-associated polypeptide" in the male gonad of Mytilus galloprovincialis. Our present work reveals distinct protein profiles specific for the testicular or ovarian portion of the ovotestis of Pecten maximus. Two proteins exhibiting testis- or ovary-dependent enrichment in the ovotestis have been identified and partially characterized as Est-like and fibronectin (Fn)-like polypeptides, respectively. Immunofluorescence has demonstrated a close association between the localization of these polypeptides and the gonad tubule network and interstitial stroma of the ovotestis of P. maximus. We also present evidence of Est-like and Fn-like protein enrichment, respectively, in testicular and ovarian tissue in hermaphroditic, sex-reversal, and gonochoric species of seawater bivalves. Together, the results (1) strongly suggest that sex-cell-biased expression of Est-like and Fn-like polypeptides in gonad tissue is a widespread phenomenon among bivalve mollusks, despite the high diversification of their sexual patterns, (2) confirm and expand our previous demonstration of sex-biased protein expression in M. galloprovincialis, and (3) indicate a direct link between germ cell differentiation and sexual specialization of the bivalve somatic gonad.
Abstract: PURPOSE: To characterize gene expression pattern in the combined tissues of the rat iridocorneal angle by expressed sequence tag (EST) analysis, as part of the NEIBank project. METHODS: RNA was extracted from dissected tissues of the rat iridocorneal angle (iris, ciliary body, trabecular meshwork, and Schlemm's canal) and used to construct unamplified, non-normalized cDNA libraries in the pSPORT1 vector. Approximately 5000 clones were sequenced from the 5'-end. Clones were clustered and identified using the GRIST software, a procedure based on BLAST comparisons. Complete sequences of several novel cDNAs showing eye-preferred expression patterns were obtained. The expression patterns of several genes have been investigated by Northern blot and in situ hybridization, as well as by RT-PCR. RESULTS: After analysis and removal of non-mRNA sequences, 2195 independent clusters, potentially representing individual eye angle-expressed clones were obtained. The expression profile of the combined rat eye angle tissues was more similar to that of the human iris than to human trabecular meshwork. Several cDNAs encoding transcription factors essential for normal eye development and function including Pax-6, Six3, c-Maf, Maf1, Sox-4, Foxc1, Rx, and Ldb2 were present among sequenced clones. A number of tested cDNAs showed eye-preferred expression patterns. Myocilin, which is abundant in human eye angle tissues, was not observed in the rat collection; however, transcripts for three other olfactomedin-domain proteins were seen. Latrotoxin receptor (CL1AA) and optimedin were shown to be expressed in the iris and ciliary body, as well as in the ganglion and inner nuclear cell layers of the retina, whereas the rat orthologue of the human HNOEL-iso gene was expressed in the iris and sclera and less actively in the trabecular meshwork, retina, and optic nerve. CONCLUSIONS: The iridocorneal libraries are a good source of novel uncharacterized genes and molecular markers for the tissues of the eye angle. Although myocilin is not abundantly expressed in rat eye angle, other olfactomedin-containing genes are expressed there and may play important roles in normal eye function and disease.
Abstract: PURPOSE: To characterize properties of Pdlim2, a novel PDZ and LIM domain-containing protein. METHODS: cDNA encoding Pdlim2 was identified in a cDNA library of transcripts expressed in the tissues of the rat eye irido-corneal angle. The expression pattern of the Pdlim2 gene was studied by Northern blot analysis and in situ hybridization. Proteins interacting with Pdlim2 were identified by pull-down assay and mass spectrometry. Intracellular localization of Pdlim2 was investigated by confocal microscopy. RESULTS: Rat Pdlim2 protein belongs to the ALP subfamily of proteins containing the PDZ domain in the N-terminal portion and the LIM domain in the C-terminal portion of the protein. The Pdlim2 gene was specifically expressed in the corneal epithelial cells, but not in the corneal stroma and endothelium nor in other ocular tissues. Pdlim2 was also expressed in the lung. In rat corneal and lung extracts, alpha-actinin-1, alpha-actinin-4, filamin A, and myosin heavy polypeptide 9 were co-immunoprecipitated with Pdlim2. Myosin VI was co-immunoprecipitated with Pdlim2 from corneal but not lung extracts. alpha-Actinins were the most abundant among immunoprecipitated proteins. Direct interaction of Pdlim2 with alpha-actinins and filamin was confirmed using pull-down assays and gel overlay assay with purified proteins. Pdlim2 and alpha-actinins were co-localized mainly to stress fibers after transfection into COS-7 cells. In transfected COS-7 cells, complexes of Pdlim2 and alpha-actinin-1 were preferentially located along the basal aspect. CONCLUSIONS: These results suggest that Pdlim2, like other ALP subfamily members, may act as an adapter that directs other proteins to the cytoskeleton.
Abstract: Despite the importance of MYOC for glaucoma, the protein's normal function(s) and the pathogenic mechanism(s) of MYOC mutations are not clear. Elevated intraocular pressure (IOP) and glaucoma are sometimes induced by corticosteroids, and corticosteroid use can result in substantially increased MYOC expression. It has been suggested, therefore, that steroid-induced MYOC protein levels cause steroid-induced glaucoma and that protein level-increasing mutations in MYOC contribute to glaucoma not associated with steroid use. A causative role of elevated MYOC levels in steroid-induced glaucoma is controversial, however, and it is not clear if elevated MYOC levels can result in IOP elevation. To directly test if increased levels of MYOC can cause IOP elevation and glaucoma, we generated bacterial artificial chromosome transgenic mice that overexpress Myoc at a level similar to that induced by corticosteroid use. These mice do not develop elevated IOP or glaucoma. Our present findings, along with the absence of glaucoma in mice completely lacking MYOC, show that changing the level of MYOC is not pathogenic (from absent to approximately 15 times normal). These findings suggest that noncoding sequence variants are unlikely to influence glaucoma and that disease pathogenesis in primary open-angle glaucoma patients is dependent upon the expression of abnormal mutant proteins. This work does not support a causative role for increased MYOC levels or the MYOC gene in steroid-induced glaucoma.
Abstract: BACKGROUND AND AIM: Cardiac ankyrin repeat protein (CARP), whose expression is down-regulated in response to doxorubicin (Dox) in vitro, has been proposed to be a marker of experimentally-induced cardiac hypertrophy in rodent models. In piglets, the rapid hypertrophy rate of the left ventricle (LV) as compared to that of the right ventricle (RV) represents a natural model of asymmetric ventricular enlargement. We tested whether CARP expression correlates with postnatal ventricular hypertrophy and to what extent CARP can be sensitive to Dox treatment in vivo. METHODS: CARP mRNA and protein levels were quantified (by Northern blot hybridization, semi-quantitative RT-PCR and Western blot) in the piglet heart, both during early postnatal development and upon Dox-induced cardiomyopathy (Dox-CM). RESULTS: The study revealed: (1) significantly augmented CARP mRNA and protein levels in the LV compared to the RV resulting in left vs. right asymmetry in ventricular CARP expression throughout early postnatal development; (2) dose- and chamber-dependent CARP mRNA and protein enrichment in ventricular myocardium in response to Dox; and (3) abolishment of asymmetric patterns of ventricular CARP expression at heart failure resulting from Dox-CM. CONCLUSIONS: (1) CARP is differentially regulated in the LV and RV during both postnatal development and disease; and (2) monitoring of ventricular CARP expression patterns can be used for further analysis of transition from compensated to overt heart failure.
Abstract: The implication of myocardin and homeodomain only protein (HOP) in combinatorial molecular pathways that guide heart development and cardio-specific gene expression has recently been reported. However, expression of these genes in the failing heart has not yet been investigated. This study was designed to elaborate a molecular profile of myocardin and HOP expression in the failing ventricular myocardium through the use of both explanted human heart samples and heart biopsies from neonatal piglets with doxorubicin-induced cardiomyopathy (Dox-CM). Myocardin and HOP mRNA levels were estimated by both northern blot hybridization and semiquantitative RT-PCR in human ventricular preparations in end-stage failure due to dilated cardiomyopathy (DCM), as well as in nonfailing donor hearts. Similar experiments were performed with ventricular samples from normal and Dox-treated neonatal piglets. The gene expression of brain natriuretic peptide (BNP) was used as a molecular marker of myocardial damage and failure. The study revealed the following novel findings: (1) myocardin transcripts are detected in neonatal human and pig hearts at lower levels than in mature cardiac tissues, (2) the myocardin transcript pool is significantly augmented in the failing human and porcine myocardium as compared to that in nonfailing heart samples, (3) in the failing human myocardium, increased levels of myocardin mRNA are associated with a diminished HOP transcript content, and (4) the inverse proportion in cardiac myocardin/HOP mRNA pools observed in explanted human hearts is also traceable in normal human heart and aorta. A possible dual consequence of increased myocardin and decreased HOP expression levels on serum response factor-dependent cardiac-specific expression in the normal heart and at heart failure is discussed. Therefore, increased abundance of the myocardin mRNA pool is judged to be a novel CM-related feature which, alone or in association with decreased HOP transcript levels, can be responsible for dysregulation of myocardin-mediated gene expression in failing myocardium.
Abstract: Our interest in the comparative analysis of male reproductive-tract esterases in different animal groups has led us to undertake a detailed study of the Mytilus galloprovincialis male-associated polypeptide (MAP) throughout the mussel gonad-duct tract and at spawning. The results of this work indicate that MAP is a major protein in M. galloprovincialis semen, with dual presence in both sperm cells and cell-free seminal fluid. Shortly after spawning, the released sperm mass is subdivided in diffused cloudy-like and thread-shaped 'clots', in which a soluble-phase MAP may persist as long as the clots keep their compact form. Additional experiments involving the incubation of spawned spermatozoa at increasing Triton X-100 concentrations demonstrated that MAP is also strongly associated with sperm cells. These results were further validated by immunofluorescent staining, which revealed that MAP is localized in the mid-piece region of spawned spermatozoa. This unexpected finding raises the possibility that MAP may play a role in sperm fertility in bivalves. Using whole-mount histology and micromanipulation techniques, we studied the structural patterning of the mantle gonad-duct network and assessed the sampling of luminal contents from the ducts. Of particular interest is the observation that MAP content in the luminal fluid increases from the lumen of the spermatogenic tubules to that of the collecting gonad ducts, where MAP is detected at a very high concentration. These high levels may lead to a significant presence of MAP in semen and consequently to a prolonged survival of sperm spawned at sea. In addition, data related to the potential structural similarity between mussel MAP and esterase S of the Drosophila virilis ejaculatory bulb are presented and discussed. Finally, we show that the 64kDa protein of human semen reveals positive cross-reactivity with antibodies directed against Mytilus MAP and Drosophila esterase S. Taken together, the results reveal mussel MAP as the only esterase-like protein described so far whose distribution in the gonad and semen can be specifically associated with maturation, transport, emission and survival of spermatozoa outside.
Abstract: Mutations in the MYOC gene may lead to juvenile open-angle glaucoma with high intraocular pressure, and are detected in about 4% of people with adult onset glaucoma. Most of these mutations are found in the third exon of the gene encoding the olfactomedin-like domain located at the C terminus of the protein. Another olfactomedin-related protein, known as noelin or pancortin, is involved in the generation of neural crest cells. Here we describe the identification of a novel olfactomedin-related gene, named optimedin, located on chromosome 1p21 in humans. Optimedin and noelin are both expressed in brain and retina. However, unlike noelin, rat optimedin is also highly expressed in the epithelial cells of the iris and the ciliary body in close proximity to the sites of Myoc expression. In the human eye, optimedin is expressed in the retina and the trabecular meshwork. Both optimedin and myocilin are localized in Golgi and are secreted proteins. The presence of mutant myocilin interferes with secretion of optimedin in transfected cells. Optimedin and myocilin interact with each other in vitro as judged by the GST pulldown, co-immunoprecipitation and far-western binding assays. The C-terminal olfactomedin domains are essential for interaction between optimedin and myocilin, while the N-terminal domains of both proteins are involved in the formation of protein homodimers. We suggest that optimedin may be a candidate gene for disorders involving the anterior segment of the eye and the retina.
Abstract: PURPOSE: To isolate the rat Myoc/Tigr gene and investigate changes in its expression pattern in normal eyes and in eyes with either pressure-induced optic nerve damage or optic nerve transection. METHODS: Expression pattern of the rat Myoc/Tigr gene was investigated by Northern blot hybridization. Optic nerve damage and death of ganglion cells in the retina were induced unilaterally, by injection of hypertonic saline solution, episcleral vein cauterization, or optic nerve transection. The levels of mRNA for Myoc/Tigr were compared between several tissues of the control and surgically altered eyes, by using semiquantitative RT-PCR, real-time PCR, and Northern blot analysis. RESULTS: The rat Myoc/Tigr gene is 10 kb long and contains three exons. Among the eye tissues analyzed, Myoc/Tigr mRNA was detected in the combined tissues of the eye angle, sclera, cornea, retina, and optic nerve head. With pressure-induced optic nerve degeneration, the level of Myoc/Tigr mRNA decreased in the retina and the combined tissues of the eye angle, but increased in the optic nerve head. After optic nerve transection, the level of Myoc/Tigr mRNA increased in the retina, but did not change in the combined tissues of the eye angle. CONCLUSIONS: The decreased level of Myoc/Tigr mRNA in the retina after induction of elevated intraocular pressure compared with that in the control retina cannot be explained by ganglion cell death alone. Differences in Myoc/Tigr mRNA levels in eye tissues after elevation of intraocular pressure or optic nerve transection may reflect the activation of different signaling pathways involved in regulation of this gene.
Abstract: In a few well-known cases, the biological consequences of the disruption of lim-1 homeodomain (HD) genes have demonstrated the important roles of these genes in vertebrate development, especially in the nervous tissue, kidney, and gonads. Functional assay approaches require information not only about lim-1 gene organization, but also about properties and tissue localization of Lim-1 proteins. Although lim-1 genes have been identified in certain phyla of invertebrates, no information is available on Lim-1 proteins and genes in bivalve molluscs. Our study represents the beginning stage of identification of the Lim-1-related proteins in marine bivalves. Using antibodies against the C-terminal region of the Xenopus laevis Lim-1 protein, we describe cross-reactive antigen patterns in adults and early embryos of the mussel Mytilus galloprovincialis, as well as in sea urchin and chick embryos. In adult mussels, nervous ganglia and gonads display the most prominent Lim-1 immunoreactivity. Further, the antibodies verified the prediction that mussel Lim-1 antigens, like Lim-1 HD proteins in general, can be localized in the nucleus. Moreover, antibody detection allowed us to identify the Lim-1-like antigens in unfertilized mature eggs, as well as in very early embryos of bivalve molluscs and sea urchins (Strongylocentrotus purpuratus). In mussel eggs and embryos, Lim-1 antigens are expressed in multiple forms (40, 45, and 65 kDa), as detected by SDS-PAGE followed by Western blot. Taken together, the observations emphasize the conservation of the Lim-1 protein expression pattern in the nervous tissue and gonads of different animal groups, and demonstrate that Lim-1-like polypeptides can be maternally accumulated in eggs and, therefore, are present in very early embryos before zygotic expression of the genes begins.
Abstract: This essay addresses the carboxylesterase redundancy in the male reproductive tract seemingly conserved across phyla. Evidence is provided which suggests that carboxylesterases are recruited by the male reproductive system in certain animal groups. These provide advantageous metabolic capabilities to sperm protection, sperm maturation, and sperm use. Rather than an archival record of the available data, we seek possible answers to the central question: Why is carboxylesterase over-expression adaptive with the functioning of the male reproductive tract with respect to male fertility? We discuss patterns of carboxylesterase over-expression and accumulation in different compartments of the male reproductive tract. We also provide evidence of how these patterns are associated with a long sperm path to egg through different local effects. The hyper-expression of carboxylesterases can play different physiological roles depending on its localization in the male reproductive system. However, all the "acquired" functions can serve the same purpose; creating conditions which maximize the fertilizing potential of the sperm. To confirm our concept and more clearly illuminate "moonlighting" roles of carboxylesterases in the male reproductive tract, requires a more extensive comparative analysis of a variety of carboxylesterases in a larger number of species.
Abstract: Data on expression patterns of carboxylesterases in the male reproductive tract of different animal groups (i.e. bivalve mollusks, fruitflies and rodents) are summarized to highlight some particularly interesting questions in the context of sperm differentiation, maturation and function. The male reproductive system, in spite of extreme variation in the anatomical/morphological organization in different species, is characterized by similar patterns of male-dependent carboxylesterase overexpression. The phenomenon of conserved carboxylesterase overexpression indicates similar male sex-associated functions of the enzymes. There is possible evidence of carboxylesterase recruitment by male reproductive-tract tissues indicating that it could be adaptive for spermatogenesis, sperm maturation and sperm use. Moreover, this idea can be extended to include a sperm cell lineage protection. This issue is discussed in the light of recent data on environmental reproductive xenobiotics that can provide a basis for a hypothetical explanation of carboxylesterase overexpression in the male reproductive tract. Based on a well-known role of carboxylesterases in detoxification of environmental chemicals such as organophosphate pesticides, it is proposed that various male genital tract carboxylesterases may be characterized by a similar physiological function to protect the male reproductive system against xenobiotic influences that could provoke its dysfunction, thus altering sperm differentiation and maturation.
Abstract: Mytilus mussels are characterized by annually repeated reproduction which is associated with subsequent growth, morphogenesis, breakdown and redevelopment of the gonad and reproductive tract into mantle mesenchyme. We present a description of the expression of the male-associated polypeptide (MAP; see Mikhailov et al. 1995) in different compartments of the male reproductive system as well as in mantle gonad-supporting tissue. MAP is expressed in both gonad and mantle structures in dynamic patterns that show a substantial overlap in terms of dependence on the stage of gonad development/involution. In general, the total MAP concentration directly correlates with the volume of gonad tubule/duct structures but inversely correlates with mantle connective tissue cell fraction. A maximum of MAP expression is reached in the fully ripe male gonad. MAP is localized around gonad tubules/ducts, in the gonoduct epithelium, membranes of follicle-like structures as well as in the extracellular fiber-like structures of the mantle. However, we also demonstrate unique sites of MAP accumulation in the lumen of gonad follicle-like tubules and in ductal fluid. The latter is characterized by a very high MAP concentration. MAP is also detected in sperm-containing cell suspension obtained by gonad biopsy which we interpret as a result of the adsorption of MAP on mature spermatozoa. The results obtained should be taken into consideration in the interpretation of possible MAP functions since they seem to point to MAP as a major component of ductal (seminal) fluid of the male reproductive tract. It is likely that MAP is able to complement the processes of sperm terminal differentiation and maturation. In addition, we demonstrate that the male-predominant character of MAP expression is restricted by gonad-containing tissues (i.e., mantle and visceral mass) only, although the polypeptide is also detected in other somatic organs in both males and females.
Abstract: We suggested that sexual differentiation of the reproductive system in gonochoric species of invertebrates can be characterized by common molecular mechanisms in spite of high morphological divergences of reproductive tract organs in different animal groups. The present study focused on this problem and report our observations on biochemical characteristics of male-associated polypeptide (MAP) identified in the gonad tissue of bivalve molluscs, Mytilus galloprovincialis, in comparison to those of male-specific carboxylesterase (esterase S) of Drosophila virilis ejaculatory bulbs. We provide evidences for the immunochemical similarity of Mytilus MAP and Drosophila esterase S. We also show that MAP is characterized by esterase activity toward both, alpha- and beta-naphthyl acetates. Using immunofluorescence, we found MAP in the gonad (mantle) connective tissue, membranes of follicles and around gonad ducts but not in sperm cells. Nevertheless, the levels of MAP expression depend on presence or absence of ripe spermatozoa in the gonad follicles. In mature gonads before spawning, MAP is expressed at high level, while in the spent gonads only traces of this polypeptide could be detected. Using Western immunoblot, MAP was not observed in spermatozoa obtained by biopsy of gonad follicles. In contrast, we found this protein in spawned sperm cells. Thus, we suggest that spawning may be required to establish the trafficking mechanisms that control whether MAP is retained or excreted by the gonad. Taken together, the results indicate that MAP of M. galloprovincialis is structurally and functionally related to esterase S of D. virilis ejaculatory bulbs.
Abstract: We have addressed the question of sexual reproductive tissue dimorphism in bivalve molluscs, Mytilus galloprovincialis Lmk, which is a stable gonochoric species although with no apparent differences in gonad morphology of both sexes. At all periods of the annual cycle the proteins specific of male/female gonads were identified. One of these proteins, "male-associated polypeptide" with apparent MW 39 kDa (MAP-39), has been biochemically and immunochemically characterized. MAP-39 concentration in male mature gonads achieved up to 10% of the total soluble protein while in female ones only traces of this protein could be detected. In male mantle, MAP-39 expression was associated with the process of gonad development and maturation as well as gamete spawning, although this polypeptide has been localized in fibroblast-like cells, membrane of follicles and connective tissue matrix of the mantle but not in germinal cells.
