Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P56851 (epididymal)
 11,273 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To study the role of scrotal vs. body temperature in epididymal function we established a simplified cell culture system from the dog epididymis in which the cells showed a pattern of gene expression similar to that in the human epididymis and retained many characteristics of epididymal epithelial cells. The cultured cells had an epithelial-type cytoskeleton, nuclear androgen receptor protein, and a striking temperature responsiveness. Exposure of the cells to a culture temperature of 37 C, compared to 33 C, had a fast and irreversibly suppressive effect on the levels of an abundant epididymal messenger RNA (mRNA), CE5, which represents the canine counterpart of the human CD52/HE5 mRNA, encoding a major glycosylphoshatidylinnositol (GPI)-anchored sperm membrane glycopeptide. The temperature effect on the mRNA was a direct and specific one, not mediated by temperature influences on the testis and not affecting other epididymal mRNAs. Exposure of the cells to 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole (25 micrograms/ml culture medium) and cycloheximide (2 micrograms/ml) suggested that the steady state levels of CD52/CE5 mRNA may be controlled posttranscriptionally by changing the half-life of this specific mRNA in response to an extracellular temperature stimulus.
 ...
PMID:Body temperature (37 C) specifically down-regulates the messenger ribonucleic acid for the major sperm surface antigen CD52 in epididymal cell culture. 882 7

The 'major maturation-associated' sperm membrane antigen is the most prominent glycopeptide which appears on the surface of rat spermatozoa during post-testicular sperm maturation. The name describes the fact that its occurrence coincides with the spermatozoa acquiring their major physiological properties of maturation in the distal epididymis. It is shown in this study that this phenomenon is not restricted to the rat. Rather, by immunohistochemical staining, in-situ transcript hybridization and molecular analyses of genomic DNA fragments it is evident that homologous counterparts exist in other mammalian species, including the human. The human homologue is an abundant epididymal gene product that has previously been identified as lymphocyte surface antigen CD52. Thus, following the human standard nomenclature, it seems more appropriate to refer to these molecules as CD52 homologues. Localization of the mRNA for these glycosylphosphatidyl inositol (GPI)-anchored glycopeptides within the epididymal epithelium, and not within the testis, suggests that they may be transferred from epididymal to sperm cell with their GPI-anchor intact.
 ...
PMID:CD52 is the 'major maturation-associated' sperm membrane antigen. 923 51

A monoclonal antibody (CAMPATH-1 G) against the human lymphocyte surface protein CD52, which is similar to the epididymal secretion HE5, was used to ascertain the presence of this protein on maturing primate spermatozoa by flow cytometry. The percentage of human viable spermatozoa stained specifically with this antibody increased from sperm in spermatocoeles (0.5%), to the efferent ducts (3.8%), corpus (47.2%), and cauda (85.7%) epididymidis. Positive cells revealed staining mainly over the whole tail and postacrosomal region of the sperm head. Spermatozoa (approximately 10%) from both the efferent ducts and corpus epididymidis took up additional antigen when incubated with human distal cauda epididymidal plasma as a source of CD52, and 12-22% of human testicular sperm (from spermatocoeles) took up CD52 from human seminal plasma. In the cynomolgus monkey, nonspecific binding of control IgG was greater than that in human males and net CD52 staining was measurable only on approximately 30% of corpus sperm where it was mainly on the principal piece. Neither caput nor cauda sperm took up human CD52 upon incubation with human seminal plasma, but an additional 27% of corpus sperm expressed CD52. Such uptake of CD52 was drastically reduced, or did not occur, when seminal plasma had been fractionated by filtration through 0.1 microns filters (filtrate II) or 300,000 Da cutoff filters (filtrate III), respectively. Western blots revealed that CD52 contents were much reduced in filtrate II and nondetectable in filtrate III of seminal plasma. Similar reduction of CD52 in the filtrate of cauda epididymidal plasma indicates the association of this epididymal secretion with large molecular factors and suggests their involvement as carriers in the in vivo transfer of the secretion onto the epididymal sperm surface. The in vitro uptake of CD52 by some but not all immature sperm and the detection by Western blotting of much less CD52 in the corpus than the cauda luminal plasma suggest that the acquisition of this epididymal secretion by spermatozoa depends on their maturation status as well as the availability of the protein in the epididymal lumen.
 ...
PMID:Interaction of the human epididymal protein CD52 (HE5) with epididymal spermatozoa from men and cynomolgus monkeys. 929 77

The membrane of testicular spermatozoa undergoes extensive changes in the epididymis, including rearrangement, modification and loss of pre-existing components, addition of new glycoproteins from epididymal secretions, and exchange of lipid constituents. As a result, the membrane of cauda epididymidal spermatozoa has a different composition and different properties, which collectively contribute to male fertility. Special significance has been attributed to sperm surface structures that only appear post-testicularly in the epididymis, the so-called "maturation antigens". Therefore, human post-testicular proteins have been cloned by substractive screening of epididymal cDNA libraries, employing testis as the primary negative control. To date, there is scanty information on their function and mechanism of deposition on the sperm surface. However, the major maturation antigen CD52 seems to bind firmly to the sperm membrane via its GPI anchor. Its synthesis is carefully regulated by the cells of the epididymal epithelium, with temperature and androgens acting synergistically on CD52 mRNA levels.
 ...
PMID:The molecular biology of the sperm surface. Post-testicular membrane remodelling. 936 96

CD52 is a glycosylphosphatidylinositol-anchored glycoprotein secreted by the epididymis where it is incorporated into sperm membranes. The antigen is common to spermatozoa and lymphocytes, and its role is not known. Quantitative analysis using immunostaining with the monoclonal antibody CAMPATH-1G and flow cytometry indicated positive signals from approximately 80% of viable, washed ejaculated spermatozoa. Staining intensity increased after capacitation overnight, and decreased after short incubation with high density lipoprotein. After incubation of Percoll-washed spermatozoa with CAMPATH-1G, motility was reduced from 83 to 74% after 5 min and from 73 to 52% after 3.5 h. Swimming velocities were reduced by approximately 30% and linearity by 15% in 5 min, but no further decreases were observed over 3.5 h. After 20 min incubation with the antibody, cell viability was decreased by 10 and 20% in freshly washed and capacitated spermatozoa respectively. Comparison of fertile and infertile patients revealed no difference in the percentages of immunostained spermatozoa or in staining intensity and there were no differences in sperm labelling between normozoospermia and teratozoospermia. Compared with normozoospermia, percentages of stained spermatozoa were lower by 20 and 27% in asthenozoospermia and oligozoospermia respectively, whereas staining intensity in asthenozoospermia was less than half that in oligozoospermia. The correlation of percentages of stained spermatozoa with percentages of motile cells suggests the involvement of epididymal CD52 in the maturation of sperm function.
 ...
PMID:Human epididymal secreted protein CD52 on ejaculated spermatozoa: correlations with semen characteristics and the effect of its antibody. 946 49

A major secretory protein of the human epididymis that is taken up by maturing spermatozoa is homologous to the leukocyte antigen CD52. The epididymis was shown to be the sole source of CD52 in seminal fluid, since CD52 could be detected in seminal plasma from sperm-containing ejaculates and not in ejaculates of vasectomized patients by Western blot analysis. The glycoprotein is not expressed in the testes. A fluorescence immunobinding assay was developed to quantify the amount of epididymal secretion of CD52 in the seminal plasma of various groups of fertile and infertile patients. Donor spermatozoa bearing CD52 were used as binding site tracers for free anti-CD52 antibody remaining after it had adsorbed CD52 from the seminal plasma to be assayed. The level of subsequent antibody binding to spermatozoa was measured by flow cytometry and the extent of binding inhibition was compared to a reference pool of seminal plasma to provide relative amounts of CD52 in test seminal plasma. There were no correlations between seminal plasma CD52 concentration and any semen parameter tested, including sperm concentration, percentage motility, normal sperm morphology or the concentration of seminal neutral alpha-glucosidase, fructose and zinc. There was a slight tendency towards an inverse relationship with the amount of CD52 on spermatozoa, but this was not significant. No differences were found among groups of patients classified by their semen parameters or fertility status. These findings indicate that the epididymal specific supply of CD52 is not a limiting factor for CD52 uptake onto spermatozoa.
 ...
PMID:Epididymal secretion of CD52 as measured in human seminal plasma by a fluorescence immunoassay. 966 31

By using various methods, ranging from conventional protein separation and purification to monoclonal antibody and cDNA cloning strategies, a considerable body of information has been obtained on mammalian epididymal proteins. Molecular characterization of proteins specifically produced in the human epididymis has been achieved by cDNA cloning, followed by raising antibodies against synthetic peptide epitopes. The predicted proteins have been localized in the human epididymal epithelium, within the lumen of the epididymal duct and vas deferens, and also on the surface of ejaculated spermatozoa. Sperm association has been reported for at least four human epididymal proteins, ARP, HE2, HE4, and HE5/CD52. However, as is largely the case in other species, a link to a specific function for any luminal component of the human epididymis, including the cloned secretory glycoproteins, to either sperm maturation or storage has not yet been demonstrated convincingly. Indirect evidence for a function for epididymal proteins comes from their relatively high frequency and tissue-specific expression as well as from their distinct spatial expression patterns along the human epididymal duct. However, it remains to be established (for example, by using the proteins and their antibodies in functional tests) whether, besides being essential markers of sperm maturation, they are also functionally important.
 ...
PMID:Molecular characterization of epididymal proteins. 968 87

Human post-testicular proteins were cloned by subtractive screening of epididymal cDNA libraries, employing testis as the primary negative control. This method identified six human epididymal cDNAs, named HE1-HE6, which are derived from abundant epididymal mRNAs. With the exception of HE5, which turned out to be identical to the lymphocyte surface antigen CD52, they represented completely novel human gene products. To date, there is little information on their function and the mechanism of their deposition on the sperm surface. Unlike the sperm coating antigens, CD52 binds firmly to the sperm membrane via its GPI anchor during epididymal passage. Its synthesis is carefully regulated by the epididymal epithelium. From the results of both in vivo and in vitro studies it was concluded that androgen and temperature are principal factors synergistically modulating epididymal CD52 expression. The human counterparts of two well-known major rodent epididymal proteins, secretory epididymal glutathione peroxidase (sGPX) and acidic epididymal glycoprotein (AEG = Protein DE), were not cloned by the subtractive screening approach, but by RT-PCR amplification.
 ...
PMID:Function of human epididymal proteins in sperm maturation. 973 19

Cultured rat epididymal tissue explants formed >90% pure, adherent growing epithelial cell monolayers. Despite their flattened and apparently androgen receptor-negative phenotype, these cells for a short period kept characteristics of the epididymal duct epithelium, i.e., expression of the tissue-specific marker CD52 and responsiveness of its mRNA toward temperature elevation and androgen withdrawal. When cells were grown on permeable supports at 33 degrees C, androgen supplementation or withdrawal specifically modulated the levels as well as the length of the CD52 mRNA. Elevation of the culture temperature to a quasi abdominal milieu of 37 degrees C selectively reduced the CD52 mRNA levels under all culture conditions. This reduction was not affected by the presence of androgens and was not accompanied by changes in length, suggesting that the modulation of CD52 mRNA in epididymal cells by androgens and by temperature is synergic, but may involve different molecular mechanisms. CD52 mRNA levels, however, were not stable in the primary cultures but decreased rapidly to undetectable levels after 4-5 days at all culture conditions. GAPDH mRNA levels, on the other hand, were stable throughout the culture period.
 ...
PMID:CD52 mRNA is modulated by androgens and temperature in epididymal cell cultures. 1073 64

A major epididymal secretory protein in men has a colinear cDNA sequence with lymphocyte CD52, a sialylated glycoprotein. Immunostaining and flow cytometric detection of cynomolgus monkey sperm CD52 during epididymal maturation showed increases from 20 to 85% stained sperm from the caput to the corpus with staining intensities doubled. Freshly prepared cauda sperm showed only 10% staining while they markedly increased in percentage and intensity of staining upon incubation at 37 degrees C under capacitating conditions, but not at 4 degrees C. Western blotting of proteins from fresh cauda sperm revealed no less antigen than corpus sperm. Staining of ejaculated sperm exhibited similar increases during incubation. Further washing with a high salt medium before staining to remove any electrostatically-bound molecules masking the antigen showed no effect. Incubation-induced increases in antigen binding were accelerated by the addition of neuraminidase (0.25 and 0.5 U/ml), but not affected by the sialyl residue-rich fetuin (5 mg/ml) competing for any endogenous neuraminidase. There were no concomitant decreases in the staining of sialic acid residues during capacitation-incubation. These findings suggest a cryptic antigen epitope site as a consequence of sperm maturation and subsequent re-exposure under capacitation conditions, but not due to the removal of sialic acid residues by endogenous neuraminidase. Involvement of endogenous proteases was also ruled out, as incubation in the presence of protease inhibitors did not hinder the increases but resulted in a dose-dependent enhancement in staining, suggesting some protease-sensitive unmasking process. In conclusion, the monkey epididymal secreted CD52 on sperm underwent changes in antigenic characteristics during sperm maturation which were reversed under capacitation conditions.
 ...
PMID:Maturational changes of the CD52-like epididymal glycoprotein on cynomolgus monkey sperm and their apparent reversal in capacitation conditions. 1101 36


1 2 3 Next >>