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)

To determine whether leptin has insulin sensitizing effects in normal rodents, we measured plasma glucose and insulin concentrations in male Sprague-Dawley rats treated with leptin or vehicle by continuous s.c. infusion for 48 h. In additional experiments, we examined the acute effect of i.v. leptin upon insulin sensitivity under conditions of clamped glycemia. Subcutaneous leptin was administered at 10.0 and 1.0 microg/h. To avoid confounding effects of differences in food intake, both leptin- and vehicle-treated rats were fasted during the 48-h period of infusion. Infusion of leptin, 10 microg/h, significantly reduced both plasma glucose and insulin. Leptin, 1.0 microg/h, also decreased plasma glucose and insulin, although the effects on insulin did not achieve statistical significance. Leptin at either dose did not alter body weight or epididymal fat mass compared with vehicle treated controls. Leptin, 10 microg/h, decreased circulating insulin-like growth factor-1 levels. No differences in GLUT-4 content in either in brown or epididymal fat were observed as a result of leptin-treatment. Leptin, 10 microg/h, significantly decreased urine osmolality, increased water intake, and reduced renal potassium excretion compared with vehicle-infused rats. In additional rats, we measured the acute effect of i.v. leptin on insulin sensitivity determined as whole body glucose utilization during hyperinsulinemic glucose clamps performed at glucose targets of 60 and 90 mg/100 ml. Glucose utilization was increased by 29% during the last 135 min of glycemia clamped at 60 mg/100 ml (P < 0.05) and by 30% during the last 135 min of glycemia clamped at 90 mg/dl (P < 0.01) in rats infused with leptin compared with vehicle. In summary, leptin increased insulin sensitivity in normal rats both under fasting conditions and in the presence of hyperinsulinemia at clamped glucose. These effects did not appear dependent on altered body weight. Leptin also altered salt and water metabolism under fasting conditions resulting in increased water intake and more dilute urine.
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PMID:Effects of leptin on insulin sensitivity in normal rats. 923 93

The effect of sodium chloride salt restriction and overload on insulin sensitivity is still an open question. Some authors have shown that NaCl salt restriction increases insulin resistance, whereas others have reported the opposite. In the present study, the objective was to get some more insight on this issue by studying the influence of dietary salt content on glucose uptake in isolated adipocytes. Male Wistar rats were fed from weaning either low (0.15%) or high (7.94%) salt diets. On the 12th week of age, weight and tail-cuff blood pressure were measured, followed 10 days later by an intravenous glucose tolerance test with concomitant insulin determinations. One week later, the rats were killed by decapitation and epididymal adipocytes were obtained for glucose metabolism evaluation. No weight differences were observed between both groups of animals. Blood pressure was significantly higher (P < .001) on salt overloaded rats (146 +/- 11 mm Hg) than on salt restricted ones (115 +/- 5 mm Hg). Dietary salt content did not influence the area under the curve of plasma glucose. Area under the curve of insulin levels was lower (P = .023) on the high than on the low salt diet. A higher (P < .001) glucose uptake in the absence and in the presence of insulin was observed in adipocytes from rats on the high salt diet. The median effective concentration (EC50) from the dose-response curves of glucose uptake was the same on both groups of animals. Glucose oxidation and incorporation into lipids was also enhanced by salt overload. High salt increased insulin receptor density (P < .001). In conclusion, salt overload increased blood pressure, and high and low salt dietary content did not influence insulin sensitivity based on the unchanged EC50 from the in vitro studies. However, insulin-independent glucose uptake, oxidation, and incorporation into lipids were enhanced in adipocytes from rats on the high salt diet. The lower levels of insulin during the glucose tolerance test on salt-loaded animals may be a consequence of the higher insulin-independent glucose uptake in that group.
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PMID:Chronic salt overload increases blood pressure and improves glucose metabolism without changing insulin sensitivity. 923 25

In this study, administration of pivalic acid or its sodium salt was found to decrease the L-carnitine concentration in the epididymal lumen of the hamster; it also tested whether this decrease affected sperm cell motility, chromatin structure, or fertilizing capacity. Provision of pivalic acid or its sodium salt (20 mM or 40 mM) in the drinking water of mature male golden hamsters for 30 days reduced (by 72%, 75%, and 83% in three experiments) the L-carnitine concentration of the cauda epididymidis but did not inhibit sperm chromatin condensation, as assessed by flow cytometry. The treatments did not alter the location of motile sperm in the epididymidis nor did they appreciably affect the motility of sperm obtained from the distal cauda epididymidis. The numbers and percentage of ova that reached the 2-cell stage 36-40 h after uterine insemination with spermatozoa from control and treated hamsters served as a measure of sperm fertility. Treatment with pivalic acid or sodium pivalate did not render male hamsters infertile although it appeared to reduce the fertilizing ability of their spermatozoa. These results suggest that the high concentration of L-carnitine present in the lumen of the cauda epididymidis is not required for maturation of sperm chromatin or development of sperm motility.
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PMID:Effects of pivalic acid and sodium pivalate on L-carnitine concentrations in the cauda epididymidis and on male fertility in the hamster. 940 52

We have previously identified a hamster sperm protein, P26h, proposed to be involved in the interaction between spermatozoa and the egg's zona pellucida. In this study we investigated the mechanism of P26h accumulation on hamster spermatozoa during epididymal maturation. Immunocytochemical studies showed an accumulation of P26h on the acrosomal cap of hamster spermatozoa during epididymal transit. To document the anchoring mechanism of P26h, cauda epididymal spermatozoa were exposed to different treatments. High-salt buffered solutions were unable to remove P26h from the surface of intact spermatozoa. P26h was released in a dose-dependent manner when live spermatozoa were treated with a solution of phospholipase C specific to phosphatidylinositol. In contrast, the P26h remained associated to the sperm surface following treatment with trypsin. To document the transfer mechanisms of P26h on the maturing spermatozoa, prostasomes were isolated from the epididymal fluid and subjected to immunodetection. Western blots and immunogold studies showed that P26h was associated to epididymal prostasomes. Phospholipase C treatment performed on epididymal prostasomes, indicated that P26h also is anchored to these vesicles via a phosphatidylinositol. These results suggest that epididymal sperm maturation involves a cell to cell transfer of a phosphaditylinositol-anchored protein and that prostasomes may be implicated in this process.
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PMID:Hamster sperm antigen P26h is a phosphatidylinositol-anchored protein. 989 Jul 54

Vinclozolin is a well-characterized antiandrogenic fungicide. It produces adverse effects when administered during sexual differentiation, and it alters reproductive function in adult male rats by acting as an androgen-antagonist. Two active metabolites of vinclozolin, M1 and M2, compete with natural androgens for the rat and human androgen receptors (ARs), an effect that blocks androgen-induced gene expression in vivo and in vitro. In addition to their effects during perinatal life, androgens play a key role in pubertal maturation in young males. In this regard, the present study was designed to examine the effects of peripubertal oral administration of vinclozolin (0, 10, 30, or 100 mg kg-1 day-1) on morphological landmarks of puberty, hormone levels, and sex accessory gland development in male rats. In addition, as binding of the M1 and M2 to AR alter the subcellular distribution of AR by inhibiting AR-DNA binding, we examined the effects of vinclozolin on AR distribution in the target cells after in vivo treatment. We also examined serum levels of vinclozolin, M1, and M2 in the treated males so that these could be related to the effects on the reproductive tract and AR distribution. Vinclozolin treatment delayed pubertal maturation (at 30 and 100 mg kg-1 day-1) and retarded sex accessory gland and epididymal growth. Serum luteinizing hormone (LH; significant at all dosage levels) and testosterone and 5 alpha-androstane, 3 alpha, 17 beta-diol (at 100 mg kg-1 day-1) levels were increased. Testis size and sperm production, however, were unaffected. It was apparent that these effects were concurrent with subtle alterations in the subcellular distribution of AR. In control animals, most AR were in the high salt cell fraction, apparently bound to the natural ligand and DNA. Vinclozolin treatment reduced the amount of AR in the high salt (bound to DNA) fraction and it increased AR levels in the low salt (inactive, not bound to DNA) fraction. M1 and M2 were found in the serum of animals from the two highest dosage groups, but they were present at levels well below their K1 values. In summary, these results suggest that when the vinclozolin metabolites occupy a small percentage of AR in the cell, this prevents maximal AR-DNA binding and alters in vivo androgen-dependent gene expression and protein synthesis, which in turn results in obvious alterations of morphological development and serum hormone levels. It is noteworthy that similar exposures during prenatal life result in a high incidence of malformations in male rats.
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PMID:Peripubertal exposure to the antiandrogenic fungicide, vinclozolin, delays puberty, inhibits the development of androgen-dependent tissues, and alters androgen receptor function in the male rat. 1018 92

Cysteine rich secretory proteins (CRISPs) have been detected immunochemically in the equine male genital tract. CRISPs are secretory products of the epididymis, the ampulla and the seminal vesicle. A particular feature of the horse is the abundance of CRISPs in seminal plasma. CRISPs can also be detected in extracts of testicular, epididymal and ejaculated spermatozoa in increasing amounts. Unlike other seminal plasma proteins, they cannot be removed completely from spermatozoa by high salt treatment. The remaining CRISP antigens are localized on the midpiece, and the postacrosomal and equatorial region of the sperm head. Tissue distribution and localization of CRISPs on equine spermatozoa point to a role of these proteins in epididymal sperm maturation and equine reproduction.
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PMID:Expression of CRISP proteins in the male equine genital tract. 1064 67

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.
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PMID:Maturational changes of the CD52-like epididymal glycoprotein on cynomolgus monkey sperm and their apparent reversal in capacitation conditions. 1101 36

Even though the epididymis produces an environment promoting sperm maturation and viability, some sperm do not survive transit through the epididymal tubule. Mechanisms that segregate the epididymal epithelium and/or the viable sperm population from degenerating spermatozoa are poorly understood. We report here the identification and characterization of HEP64, a 64-kDa glycoprotein secreted by principal cells of the corpus and proximal cauda epididymidis of the hamster that specifically binds to and coats dead/dying spermatozoa. The HEP64 monomer contains approximately 12 kDa carbohydrate and, following chemical deglycosylation, migrates as a approximately 52-kDa polypeptide. Both soluble (luminal fluid) and sperm-associated HEP64 are assembled into disulfide-linked high molecular weight oligomers that migrate as a doublet band of 260/280 kDa by nonreducing SDS-PAGE. In the epididymal lumen, HEP64 is concentrated into focal accumulations containing aggregates of structurally abnormal or degenerating spermatozoa, and examination of sperm suspensions reveals that HEP64 forms a shroudlike coating surrounding abnormal spermatozoa. The HEP64 glycoprotein firmly binds degenerating spermatozoa and is not released by either nonionic detergent or high salt extraction. Electron microscopic immunocytochemistry demonstrates that HEP64 localized to an amorphous coating surrounding the abnormal spermatozoa. The potential mechanisms by which this epididymal secretory protein binds dead spermatozoa as well as its possible functions in the sperm storage function of the cauda epididymidis are discussed.
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PMID:Identification of a hamster epididymal region-specific secretory glycoprotein that binds nonviable spermatozoa. 1105 48

In bulls, P25b is a sperm protein associated with the plasma membrane covering the acrosome. The amount of P25b bound to a constant number of spermatozoa varies from one individual to the other, low levels being associated with bull subfertility. In this study, we describe the epididymal origin of P25b using Western blot analysis. Whereas P25b was undetectable on caput spermatozoa, the amount of P25b associated to a constant number of spermatozoa increases from the corpus to the cauda. Prostasome-like particles were prepared by ultracentrifugation of epididymal fluid. P25b appears to be also associated with those membranous vesicles in increasing amounts along the epididymis. P25b is anchored to the plasma membrane of spermatozoa through glycosylphosphatidyl-inositol as shown by the ability of phospholipase C. but not of high salt treatment, to release P25b. Coincubation experiments revealed that prostasome-like particles are able to transfer P25b to spermatozoa, this process being more efficient at slightly acidic pH. P25b thus appears to be a marker of sperm epididymal maturation in bulls.
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PMID:Prostasome-like particles are involved in the transfer of P25b from the bovine epididymal fluid to the sperm surface. 1133 53

Excessive activation of macrophages is considered to be the etiological factor of marital infertility. Peritoneal macrophages participate in the phagocytosis of menstrual detritus and sperm in the peritoneal cavity. Iron ingested by peritoneal macrophages could be responsible for their increased spermiophagy. This mechanism would operate in some gynecological diseases, particularly in endometriosis when the ectopic location of endometrial tissue in the pelvic cavity or oviduct becomes a source of cyclic menorrhagia into the peritoneal fluid. The aim of this study was to establish the effect of iron (Jectofer, Astra D, complex salt of Fe+3; 50 micrograms Fe+3/ml) on the morphology and phagocytic activity of LPS-activated peritoneal macrophages. Macrophages were cultured with iron in the presence or absence of iron chelator--Desferal (DFO) (Sigma; 500 micrograms/ml), using the method of Nechala and Hrudka [20]. The viability of cells was evaluated with the trypan blue exclusion test. Cells were washed twice, suspended in modified Dulbecco's medium, supplemented with 2% inactivated fetal calf serum and antibiotics, than transferred (1 x 10(6)) into a culture dish. Nonadherent cells were removed by repeated washing after 1 h incubation at 37 degrees C and 5% CO2. Macrophages were cultured in 1 ml medium with LPS (1 microgram/ml). After 2 or 24 h the macrophages were covered with the same number of rat epididymal sperm cells. Following 1.5 h of incubation, phagocytosis was assessed on the basis of the spermiophagic index (SPI). After 3.5 h of culture macrophages formed monolayers and groups of cells with intersecting sperm tails (Fig. 2). Increased sperm phagocytosis was observed in the macrophage culture exposed to iron for 3.5 h. SPI was significantly higher compared to control value (Fig. 1). The findings were confirmed with scanning and transmission electron microscopy. Macrophages cultured with iron for 3.5 h displayed features of activation, growing to considerable size and developing numerous elongated processes with which they surrounded spermatozoa. The cytoplasm was replete with endosomes containing spermatozoa (Fig. 3). Electron-dense structures could be seen in phagolysosomes. The presence of iron in these structures was confirmed by X-ray microanalysis (Fig. 6). In comparison, macrophages cultured in the presence of iron and iron chelator demonstrated diminished phagocytic activity (Fig. 1). After 24 h of culture macrophages formed cluster-like structures. Spermiophagy was still taking place outside such aggregates and macrophages had a normal appearance (Fig. 4). When iron was added to such culture very few macrophages and spermatozoa could be seen in the electron microscope (Fig. 5A). Iron-loaded macrophages underwent necrosis, their nucleus, plasma membrane and organelles displayed features of degeneration (Fig. 5B). SPI of macrophages exposed to iron for 24 h was significantly decreased as compared with control value (Fig. 1). The ultrastructure of macrophages exposed for 24 h to DFO only was not altered and the phagocytic activity was comparatively higher (Fig. 1). There was a great number of macrophages and spermatozoa forming giant aggregations. The present results suggest that iron enhances spermiophagy in 3.5 h culture. As phagocytic activity of macrophages was reduced by Desferal in 3.5 h culture, an iron chelator could be beneficial in endometriosis to reduce the iron content in the peritoneal cavity where a regular influx of new macrophages takes place.
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PMID:[The effect of iron on peritoneal macrophage activity and sperm phagocytosis in rats]. 1171 18

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