UNIPROT:P56851 - FACTA Search

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Query: UNIPROT:P56851 (epididymal)
11,273 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transgenic male mice bearing inactive mutations of the receptor tyrosine kinase c-ros lack the initial segment of the epididymis and are infertile. Several techniques were applied to determine differences in gene expression in the epididymal caput of heterozygous fertile (HET) and infertile homozygous knockout (KO) males that may explain the infertility. Complementary DNA arrays, gene chips, Northern and Western blots, and immunohistochemistry indicated that some proteins were downregulated, including the initial segment/proximal caput-specific genes c-ros, cystatin-related epididymal-spermatogenic (CRES), and lipocalin mouse epididymal protein 17 (MEP17), whereas other caput-enriched genes (glutathione peroxidase 5, a disintegrin and metalloproteinase [ADAM7], bone morphogenetic proteins 7 and 8a, A-raf, CCAAT/enhancer binding protein beta, PEA3) were unchanged. Genes normally absent from the initial segment (gamma-glutamyltranspeptidase, prostaglandin D2 synthetase, alkaline phosphatase) were expressed in the undifferentiated proximal caput of the KO. More distally, lipocalin 2 (24p3), CRISP1 (formerly MEP7), PEBP (MEP9), and mE-RABP (MEP10) were unchanged in expression. Immunohistochemistry and Western blots confirmed the absence of CRES in epididymal tissue and fluid and the continued presence of CRES in spermatozoa of the KO mouse. The glutamate transporters EAAC1 (EAAT3) and EAAT5 were downregulated and upregulated, respectively. The genes of over 70 transporters, channels, and pores were detected in the caput epididymidis, but in the KO, only three were downregulated and six upregulated. The changes in these genes could affect sperm function by modifying the composition of epididymal fluid and explain the infertility of the KO males. These genes may be targets for a posttesticular contraceptive.
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PMID:Gene and protein expression in the epididymis of infertile c-ros receptor tyrosine kinase-deficient mice. 1289 Jul 34

In the present study epididymal epithelium was immortalized in transgenic mice by expressing simian virus 40 T antigen under a 5.0-kb mouse glutathione peroxidase 5 promoter (GPX5-Tag1). Epididymal tumorigenesis was associated with an increase in c-Myc expression, and a marked decrease in B-Myc expression, with a 500-fold lower level in the GPX5-Tag1 caput epididymis compared with wild-type caput. Furthermore, B-Myc was undetectable in the immortalized corpus and cauda epididymis. Hence, it is possible that the normally high B-Myc expression in the epididymis is one of the factors contributing to the highly resistant nature of epididymis toward immortalization. Morphologically different epithelial cell lines were generated from the immortalized epididymides, and the cells expressed several genes typical for epididymal epithelium, such as mouse epididymal 1, mouse epididymal protein 9, androgen and estrogen receptors, anion exchangers 2 and 4, retinoic acid receptor alpha, and polyoma enhancer activator 3 (PEA3). This indicated the differentiated status of the cells and their usefulness for analyzing epididymal gene expression in vitro. As PEA3 is considered to be one of the transcription factors responsible for epididymal gene expression, we further studied its regulation in epididymal cells in vitro. The data showed that PEA3 mRNA expression is regulated in the epididymis via protein kinase A and ERK signaling cascades. Inhibiting protein kinase A resulted in up-regulation and inhibiting ERK resulted in down-regulation of PEA3 mRNA, whereas no significant effect on PEA3 expression was found by modulating the protein kinase C, stress-activated p38, phosphoinositol 3-kinase and p70 S6 kinase cascades.
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PMID:Immortalization of epididymal epithelium in transgenic mice expressing simian virus 40 T antigen: characterization of cell lines and regulation of the polyoma enhancer activator 3. 1452 90

Transgenic mice with male infertility, the c-ros knockout (KO) and GPX5-Tag2 transgenic mouse models, are compared. Both exhibit severely angulated sperm flagella explaining the infertility. As angulated spermatozoa are swollen cells, a failure in volume regulation is indicated. Differences between genotypes were also found: caudal spermatozoa from c-ros KO, but not GPX5-Tag2, could fertilise eggs in vitro; flagellar angulation occurred more within the epididymis of GPX5-Tag2 than c-ros KO mice; the osmotic pressure of cauda epididymidal fluid was lower only in GPX5-Tag2 mice; angulation of caudal sperm from c-ros KO, but not GPX5-Tag2 mice, decreased upon demembranation. These observations indicate that GPX5-Tag2 mice express an earlier, more severe defect. Gene chip analyses of the epididymides revealed decreased expression of the CRES (cystatin-related epididymal-spermatogenic) and MEP17 (murine epididymal protein 17) genes in both genotypes. Further analysis could pinpoint genes essential for epididymal regulation of sperm volume, explain infertility and suggest modes of male contraception.
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PMID:Mouse models of infertility due to swollen spermatozoa. 1510 45

Small membranous vesicles, between 25- and 75-nm diameter, were collected by high-speed centrifugation from the ram cauda epididymal fluid and were found to be normal constituents of this fluid and of the seminal plasma. The SDS-PAGE protein pattern of these vesicles was specific and very different from that of the caudal fluid, seminal plasma, sperm extract, and cytoplasmic droplets. After two-dimensional electrophoresis separation and mass spectrometry analysis, several proteins were identified and grouped into i) membrane-linked enzymes, such as dipeptidyl peptidase IV (DPP-IV), neprilysin (NEP), phosphodiesterase-I (E-NPP3), and protein G-beta; ii) vesicle-associated proteins, such as lactadherin (MFEG8-PAS6/7) and vacuolar ATPase; iii) several cytoskeleton-associated proteins, such as actin, ezrin and annexin; and iv) metabolic enzymes. The presence of some of these proteins as well as several different hydrophobic proteins secreted by the epididymis was further confirmed by immunoblotting. These markers showed that the majority of the vesicles originated from the cauda epididymal region. The physical and biochemical characteristics of these vesicles suggest they are the equivalent of the exosomes secreted by several cell types and epithelium. The main membrane-linked proteins of the vesicles were not retrieved in the extract from cauda or ejaculated sperm, suggesting that these vesicles did not fuse with sperm in vivo.
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PMID:Identification, proteomic profiling, and origin of ram epididymal fluid exosome-like vesicles. 1563 28

The final maturation of spermatozoa produced in the testis takes place during their passage through the epididymis. In this process, the proteins secreted into the epididymal lumen along with changes in the pH and salt composition of the epididymal fluid cause several biochemical changes and remodeling of the sperm plasma membrane. The Crisp family is a group of cysteine-rich secretory proteins that previously consisted of three members, one of which-CRISP1-is an epididymal protein shown to attach to the sperm surface in the epididymal lumen and to inhibit gamete membrane fusion. In the present paper, we introduce a new member of the Crisp protein family, CRISP4. The new gene was discovered through in silico analysis of the epididymal expressed sequence tag library deposited in the UniGene database. The peptide sequence of CRISP4 has a signal sequence suggesting that it is secreted into the epididymal lumen and might thus interact with sperm. Unlike the other members of the family, Crisp4 is located on chromosome 1 in a cluster of genes encoding for cysteine-rich proteins. Crisp4 is expressed in the mouse exclusively in epithelial cells of the epididymis in an androgen-dependent manner, and the expression of the gene starts at puberty along with the onset of sperm maturation. The identified murine CRISP4 peptide has high homology with human CRISP1, and the homology is higher than that between murine and human CRISP1, suggesting that CRISP4 represents the mouse counterpart of human CRISP1 and could have similar effects on sperm membrane as mouse and human CRISP1.
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PMID:Mouse cysteine-rich secretory protein 4 (CRISP4): a member of the Crisp family exclusively expressed in the epididymis in an androgen-dependent manner. 1567 6

Monoclonal antibodies (mAb) have been raised against marsupial sperm proteins to provide insights into the molecular nature of marsupial spermatozoa, and the proteins that mediate sperm maturation and interaction with the oocyte. This study reports the production of a mAb, designated WSA-1, which bound acrosomal and surface determinants on tammar wallaby spermatozoa. The acrosomal antigen was first detected in the wallaby testis; however, ejaculated spermatozoa demonstrated whole cell WSA-1 immunoreactivity as a result of binding an epididymal protein. Ultrastructural and agglutination analyses localised the WSA-1 epitope to the acrosomal matrix and the whole sperm plasmalemma. The WSA-1 mAb bound three polypeptides with relative molecular weights of 35, 31 and 15 kDa on western blots under reducing conditions. The N-terminal amino acid sequence obtained for the 35 kDa wallaby sperm polypeptide demonstrated identity with the eutherian acrosomal protein acrosin. The 31 kDa polypeptide was of epididymal origin and will be the subject of a separate study. Further studies of the WSA-1 antigens are likely to provide useful insights into the function and maturation of marsupial sperm since proacrosin has a number of putative roles in eutherian fertilisation, and epididymal proteins are thought to mediate sperm maturation and storage.
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PMID:Characterisation of an epitope shared by an acrosomal acrosin-like protein and the surface of tammar wallaby (Macropus eugenii) spermatozoa. 1601 45

In addition to their role in sperm maturation, recent evidence has indicated that epididymal proteins have a role in male reproductive tract innate immunity. Herein we demonstrate that human and macaque epididymal protein isoforms in the SPAG (sperm associated antigen) 11 family, full length SPAG11C, K and L exhibit potent antibacterial activity against E. coli. Analysis of activities of the N- and C-terminal domains revealed that the human N-terminal peptide is bactericidal, while the C-terminal domains that contain the defensin-like 6 cysteine array in SPAG11C and partial arrays in SPAG11K and SPAG11L, lack antibacterial activity. The N-terminal peptide does not appear to contain all the determinants of activity since full-length human SPAG11C is more active than the isolated N-terminal peptide and since sulfhydryl reduction and alkylation, which would affect primarily the C-terminal peptides, completely abolished activities of the whole proteins. These results suggest that the structure conferred by the disulfide bonds in human SPAG11C contributes to the antibacterial activity of the whole molecule. The activities of the N-terminal peptide and of full length human SPAG11C were somewhat reduced in increasing NaCl concentrations. In contrast, the antibacterial activities of full length macaque SPAG11C, K and L were unaffected by the presence of NaCl suggesting a mechanism in the macaque that is less dependent upon electrostatic interactions. SPAG11C, K and L disrupted E. coli membranes but had no effect on erythrocyte membranes. Inhibition of E. coli RNA, DNA and protein synthesis by nonlethal concentrations of SPAG11 isoforms indicated an additional mechanism of bacterial killing.
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PMID:Antimicrobial actions of human and macaque sperm associated antigen (SPAG) 11 isoforms: influence of the N-terminal peptide. 1641 Oct 22

CRISP2, originally known as Tpx-1, is a cysteine-rich secretory protein specifically expressed in male haploid germ cells. Although likely to be involved in gamete interaction, evidence for a functional role of CRISP2 in fertilization still remains poor. In the present study, we used a mouse model to examine the subcellular localization of CRISP2 in sperm and its involvement in the different stages of fertilization. Results from indirect immunofluorescence and protein extraction experiments indicated that mouse CRISP2 is an intraacrosomal component that remains associated with sperm after capacitation and the acrosome reaction (AR). In vitro fertilization assays using zona pellucida-intact mouse eggs showed that an antibody against the protein significantly decreased the percentage of penetrated eggs, with a coincident accumulation of perivitelline sperm. The failure to inhibit zona pellucida penetration excludes a detrimental effect of the antibody on sperm motility or the AR, supporting a specific participation of CRISP2 at the sperm-egg fusion step. In agreement with this evidence, recombinant mouse CRISP2 (recCRISP2) specifically bound to the fusogenic area of mouse eggs, as previously reported for rat CRISP1, an epididymal protein involved in gamete fusion. In vitro competition investigations showed that incubation of mouse zona-free eggs with a fixed concentration of recCRISP2 and increasing amounts of rat CRISP1 reduced the binding of recCRISP2 to the egg, suggesting that the proteins interact with common complementary sites on the egg surface. Our findings indicate that testicular CRISP2, as observed for epididymal CRISP1, is involved in sperm-egg fusion through its binding to complementary sites on the egg surface, supporting the idea of functional cooperation between homologous molecules to ensure the success of fertilization.
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PMID:Evidence for the involvement of testicular protein CRISP2 in mouse sperm-egg fusion. 1720 89

A proteomic approach was used in this study to follow the protein expression of epididymal cells during the different phases of a cell culture protocol which was able to obtain an epididymal cell monolayer. The secretory activity of intact proximal and middle caput epididymal fragments and caput, corpus and cauda epithelial cell monolayers was examined on different days of culture. Transcriptomic activity was also followed by RT-PCR for the mRNA of several previously identified major proteins. During the establishment of epididymal cell cultures, a progressive shift was found in the pattern of protein secretion. The normal epididymal protein profile, specific for each epididymal region, was progressively replaced by a less specific profile with the secretion of new proteins. A correlation between protein secretion and the presence of the mRNA of the marker proteins was observed only in the first phase of culture. Most of the new proteins which appeared were characteristic of the secretion of cell monolayers cultivated over several weeks. Despite the significant modifications of the epididymal cell secretome, the presence of new proteins secreted only by cell cultures originating from a specific epididymal region shows the presence of remaining endogenous differentiation.
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PMID:Proteomic study of the establishment of boar epididymal cell cultures. 1751 77

Mammalian fertilization is initiated by species-specific binding of the sperm to the zona pellucida, or egg coat. Previous studies suggested that sperm adhesion to the egg coat is facilitated, at least in part, through the binding of sperm surface beta1 ,4-galactosyltransferase I (GaIT) to glycoside chains on the egg coat glycoprotein, ZP3. Binding of multiple ZP3 oligosaccharides induces aggregation of GaIT within the sperm membrane, triggering, directly or indirectly, a pertussis toxin sensitive G-protein cascade leading to induction of the acrosome reaction. Consistent with this, spermatozoa bearing targeted deletions in GaIT are unable to bind ZP3 or undergo ZP3-dependent acrosomal exocytosis; however, unexpectedly, GaIT-null sperm are still able to bind to the egg coat. This indicates that sperm-egg binding requires at least two independent binding mechanisms; a GaIT-ZP3-independent event that mediates initial adhesion, followed by a GaIT-ZP3 interaction that facilitates acrosomal exocytosis. Our recent efforts have focused on the identification and characterization of these novel gamete receptors. One recently identified sperm protein that is required for sperm adhesion to the egg coat is SED1. SED1 is a bimotif protein composed of two Notch-like EGF repeats and two discoidin/complement F5/8 domains. SED1 is secreted by the epididymal epithelium and coats spermatozoa as they progress through the epididymis. Spermatozoa null for SED1 fail to bind the egg coat, illustrating its requirement for gamete adhesion. Interestingly, SED1 is also expressed by a variety of other epithelial tissues, where it appears to be required for epithelial morphogenesis and/or maintenance. A second novel gamete receptor has recently been identified on the coat of ovulated oocytes. This ZP3-independent, egg coat component is a high molecular weight, wheat germ agglutinin (WGA)-reactive glycoprotein that is derived from oviduct secretions and appears to participate in initial sperm adhesion. The amino acid sequence of this oviduct-derived ligand is currently being determined for the generation of peptide-specific antibodies and for the creation of knock out mice. The identification of novel gamete receptors that are required for sperm-egg binding opens up new avenues for the development of specific contraceptive strategies.
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PMID:Novel gamete receptors that facilitate sperm adhesion to the egg coat. 1756 85

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