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)

The in vitro metabolism of [3H] testosterone (17beta-hydroxy-4-androsten-3-one), [3H] androstenedione (4-androstene-3,17-dione) and [3H] dehydroepiandrosterone (3beta-hydroxy-5-androsten-17-one) by cauda epididymal spermatozoa from the rat, rabbit, hamster, guinea-pig and ram, varied between species. There were differences in the androgens utilized, the extent of their conversion and the identities of the metabolites formed. Of the steroid substrates tested rat spermatozoa metabolized testosterone preferentially while spermatozoa from guinea-pig transformed [3H] dehydroepiandrosterone (DHEA) almost exclusively. Rabbit spermatozoa converted all three [3H] androgens while hamster sperm utilized [3H] testosterone and [3H] DHEA. Spermatozoa collected from rams killed at the abattoir metabolized both [3H] androstenedione and [3H] DHEA but this capacity was dramatically reduced in spermatozoa collected from rams subjected to short-term anaesthesea. The results are discussed in relation to the possible direct roles of androgens in sperm physiology.
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PMID:In vitro metabolism of androgens by mammalian cauda epididymal spermatozoa. 15 59

A histochemical study has been made of the localization and changes of lipids, carbohydrates, ATPase and 5'-nucleotidase in fresh and fixed frozen sections of testicular and epididymal components in the normal and alpha-chlorohydrin-treated rats. After treatment with a single low dose of alpha-chlorohydrin, the phospholipids are decreased with corresponding increase in triglycerides in both the testis and epididymis. Glycogen, ATPase and 5'-nucleotidase are also decreased after treatment with alpha-chlorohydrin. The physiological significance of these histochemical changes has been discussed.
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PMID:Histochemical changes of the rat testis and epididymis after treatment of alpha-chlorohydrin-effects of a single low dose. 15 90

Concentrations of high affinity (Ka equals 5.5 plus or minus 0.83 times 10-8M-1) androgen binding activity in carbonextracted rat testicular supernatants have been determined by Scatchard plot analysis under a variety of hormonal situations: (a) 0-90 days following hypophysectomy; (b) 0-60 days of daily injection of NIH-FSH-P1 (150 mug) beginning 1 day after hypophysectomy; and (c) 0-60 days of daily FSH treatment beginning 30 days after hypophysectomy. The high affinity binding component declined from 0.32 pmoles/mg protein intact adults to 0.28, 0.17, and less than 0.08 (limit of detectability) pmoles/mg protein at 11, 16 and 31 days, respectively. FSH treatment beginning immediately after surgery slowed this decline, giving values of 0.30, 0.17, and 0.12 pmoles/mg protein after 11, 29, and 54 days of treatment, respectively. Expressed as pmoles per testis this represented 96, 61, and 40% of the intact control level. Similar effects on the level of androgen binding protein (Rf 0.54) were measured by steady-state polyacrylamide gel electrophoresis (PAGE). The concentration in both testis and epididymis declined gradually to nondetectable levels by 30 days after surgery. FSH treatment for 11, 29, and 54 days, respectively, resulted in 0.37, 0.38, and 0.03 pmoles of sites/mg protein in testis compared to 0.34 in intact controls and 5.7, 2.6, and 0.2 pmoles/mg protein in epididymis compared to 2.8 in intact controls. Doses of 80, 150, and 300 mug FSH/rat/day for 3 days beginning 30 days after hypophysectomy when postmeiotic elements of the germinal epithelium had degenerated caused graded increases in both testicular and epididymal levels of androgen binding protein. Prolonged FSH treatment (150 mug) under these conditions resulted in an increase in binding activity to a level of 0.12, 0.19, 0.17, and 0.20 pmoles/mg protein after 3, 11, 25, and 56 days of treatment. On a per testis basis this represented less than 20% of intact control levels. PAGE estimates were comparable except at the long treatment intervals. These results indicate that FSH treatment influences the level of androgen binding protein in adult testis and epididymis. This may reflect a direct influence on synthesis, degradation, and transport and/or indirect effects on general maintenance and responsiveness of the pertinent cell types.
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PMID:Hormonal influences on the level of testicular androgen binding activity: effect of FSH following hypophysectomy. 16 82

The effect of hypothyroidism on the noradrenaline-induced accumulation of 3H-cyclic-AMP was measured in rat epididymal adipose tissue. Adipocytes from hypothyroid animals showed a decreased response to noradrenaline 0.02-0.2 times 10-5 m, while higher concentrations of the catecholamine seemed to elicit the same response in cells obtained from euthyroid or hypothyroid animals. The diminished sensitivity to noradrenaline was unaltered after the addition of phentolamine. It is suggested that thyroid hormones modulate the catecholamine-induced lipolytic response at least partly through the adenyl cyclase cyclic-AMP system.
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PMID:Accumulation of cyclic AMP in hypothyroidism. Decreased sensitivity to norepinephrine in rat adipocytes. 16 63

Evidence is presented that modulation of the maximum velocity of a particulate low K-m cyclic adenosine 3':5'-monophosphate (cyclic AMP) phosphodiesterase by thyroid hormones is one mechanism for the regulation of the responsiveness of rat epididymal adipocytes to lipolytic agents such as epinephrine and glucagon. Fat cells of propylthiouracil-induced hypothyroid rats are unresponsive to lipolytic agents and the V-max of particulate low K-m cyclic AMP phosphodiesterase of these cells is elevated above normal. In vivo treatment of hypothyroid rats with triiodothyronine restores to control values both the lipolytic response of the fat cells to epinephrine and the V-max of the particulate bound low K-m cyclic AMP phosphodiesterase. No similar correlation is found with the soluble high K-m cyclic AMP phosphodiesterase. The phosphodiesterases of fat cells from normal and hypothyroid rats respond identically in vitro to propylthiouracil, triiodothyronine, methylisobutylxanthine, or theophylline, although the particulate low K-m cyclic AMP phosphodiesterase is inhibited to a greater extent than soluble cyclic guanosine 3':5'-monophosphate phosphodiesterase activity. Protein kinase of fat cells from hypothyroid rats can be stimulated by cyclic AMP to the same total activity as observed in fat cells of normal rats. However, less of the protein kinase in fat cells from hypothyroid rats was in the cyclic AMP-independent form. This shift in the equilibrium of protein kinase forms is consistent with an increased activity of low K-m cyclic AMP phosphodiesterase and probably results from a lowering of the lipolytically significant pool of cyclic AMP.
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PMID:Cyclic nucleotide phosphodiesterases and thyroid hormones. 16 41

[3-H]Epinephrine binding to isolated purified rat liver plasma membranes is a reversible process. An initial peak in binding occurs at about 15 min and a plateau occurs by 50 min. Optimal binding occurred at a membrane protein concentration of 125mug. Rat liver plasma membranes stored at-70 degrees C up to 4 weeks showed no difference in epinephrine binding capacity as compared to control fresh membranes. Epinephrine binding to liver plasma membranes was decreased by 79% by phospholipase A2 (phosphatide acylhydrolase EC 3.1.1.4), 81% by phospholipase C (phosphatidylcholine choline phosphohydrolase EC 3.1.4.3) and 59% by phospholipase D (phosphatidylcholine phosphatidohydrolase EC 3.1.4.4). Trypsin and pronase digestion of the membrane decreased epinephrine binding by 97 and 47% respectively. In the presence of 10-3M Mg-2+ ions, increasing concentrations of QTP decreased epinephrine binding to liver plasma membranes. A maximal effect was demonstrated with 10-5M GTP, representing an inhibition of 52% of the control. In a Mg-2+ -free system, epinephrine binding was unaffected by GTP. However, in a Mg-2+ -free system, increasing concentrations of ATP cause increasing inhibition of hormone binding. ATP at 10-3 M reduced epinephrine binding to 28% of the control. GRP (10-5 M) was shown to inhibit epinephrine uptake rather than epinephrine release from the membrane. [3-H]Epinephrine binding to isolated rat epididymal fat cells shows an initial peak within 5 min followed by a gradual rise which plateaus after 60 min. Epinephrine binding increased nearly linearly with increasing fat cell protein concentration (40-200 mug protein). GTP (10-5 M) and ATP (10-4 M) decreased epinephrine binding to rat epididymal fat cells by 41%. Nearly complete inhibition of binding was demonstrated with 10-2-10-3M ATP. Epinephrine analogs that contain two hydroxyl groups in the 3 and 4 position on the benzene ring act as inhibitors of [3-H]epinephrine binding to rat adipocytes. Alteration of the epinephrine side chain has relatively little influence on binding. Analogs in which one of the ring hydroxyl groups is missing or methylated are poor inhibitors of [3-H]epinephrine binding. Alpha-(phentolamine and phenoxybenzamine) and beta-(propranolol and dichorisoproterenol) adrenergic blocking agents were tested with respect to their ability to influence [3-H]epinephrine binding and their influence on epinephrine-stimulated lipolysis. Only dichloroisoproterenol significantly inhibited epinephrine binding (by 25%). The two beta-adrenergic blocking agents caused an inhibition of epinephrine-stimulated glycerol release, with propranolol being most effective. Phentolamine and phenoxybenzamine had no significant effect on the epinephrine stimulation of glycerol release by fat cells.
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PMID:Hormone action at the membrane level. IV. Epinephrine binding to rat liver plasma membranes and rat epididymal fat cells. 16 9

Insulin has been shown to lower cyclic AMP (cAMP) levels in hormonally sensitive tissue. The mechanism by which this lowering occurs has not yet been fully defined. We studied the effects of insulin on rat adipose tissue cyclic nucleotide phosphodiestrase (PDE) in an incubation system. The adipose tissue used was from both normal animals and animals rendered diabetic by intravenous injections of streptozotocin. Rat epididymal fat pads were incubated in a Krebs-Ringer bicarbonate-4% albumin system with O, 100, 1,000 or 10,000 PU/ml insulin (INS); epinephrine (EPI) or glucagon (GLU) at several different concentrations. After 15 min of incubation, each tissue was homogenized, centrifugated, and the supernatant assayed for cAMP PDE activity using the breakdown of (3-H)cAMP. The data was used to characterize cAMP PDE into apparent high and low K-m PDE components. In the normal animals, INS increased Vmax of the low Km PDE components; 100 pU/ml INS, 30%, 1000 p1/ML INS, 40; and 10,000 pU/ml INS, 20%. In contrast, streptoxotocin diabetes lowered this Vmax by 30%. In the diabetic animals, INS also increased Vmax by 30%. In the diabetic animals, INS also increased Vmax of the low Km PDE component; 100 pU/ml INS, 30%; 1000 pU/ml INS, 50% and 10,000 pU/ml INS, 100%. Epinephrine at 1, 10, and 100 pg/ml stimulated low Km cAMP PDE activity by 67%, 73% and 44% respectively. The stimulatory effect of EPI on both the low and high Km cAMP PDE activity was neutralized by propranolol or adenosine. In comparison to EPI, GLU at very low concentrations, 10-9M, stimulated low Km cAMP PDE. These studies suggest that some of the biologic actions of insulin, an antilipolytic substance, are mediated through activation of low Km PDE. Furthermore, this enzymatic activity is lower in experimental diabetes. The stimulation of low Km PDE by lipolytic hormones may reflect a long-range protective action of these agents.
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PMID:Effect of insulin and lipolytic hormones on cyclic AMP phosphodieterase activity in normal and diabetic rat adipose tissue. 16 58

Quantitative studies of the action of theophylline and papaverine were performed in rat epididymal fat pads, both on the lipolytic effect and on the activity of phosphodiesterase, adenylate cyclase and protein kinase. Papaverine, a stronger inhibitor of phosphodiesterase than theophylline, did not produce lipolysis. The maximum lipolytic effect (glycerol release) of theophylline was much higher than that of epinephrine and nearly approached the effect exerted by dibutyryl cyclic AMP. While theophylline potentiated or was without any effect on lipolysis produced by epinephrine and dibutyryl cyclic AMP, papaverine at concentration 10- minus 3 M reduced the effect of both drugs as well as of theophylline by 90 per cent. These concentrations of papaverine also strongly inhibited the activity of adenylate cyclase. Neither papaverine nor theophylline prevented the activation of protein kinase by cyclic AMP. The data suggest that the lack of a lipolytic effect of papaverine migth be caused by a combination of its inhibitory effect on adenylate cyclase and direct inhibition of activation of triglyceride lipase.
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PMID:The absence of stimulation of lipolysis by papaverine, a strong inhibitor of phosphodiesterase. 16 81

Isolated fat cells from rat epididymal adipose tissue were incubated with various lipolytic hormones in the absence and presence of the alpha-adrenergic blocking agent phentolamine. Lipolysis, stimulated by noradrenaline, isoproterenol, or ACTH, was inhibited dose-dependently by phentolamine. At concentrations of phentolamine where lipolysis was already inhibited, phentolamine had a biphasic effect on hormone-stimulated formation of cAMP. Low concentrations of phentolamine enhanced cAMP formation, while high concentrations inhibited cAMP. The additional increase of cAMP formation by phentolamine was only seen with maximally effective concentrations of noradrenaline, isoproterenol, and ACTH. Half-maximally effective concentrations were invariably inhibited by phentolamine. The activity of noradrenaline-stimulated adenylate cyclase of fat-cell plasma membranes was inhibited by phentolamine, whereas cAMP phosphodiesterase activity was unaffected.
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PMID:Biphasic effect of the alpha-adrenolytic phentolamine on hormone-stimulated formation of cyclic adenosine-3',5'-monophosphate in isolated fat cells of rats. 16 51

Preincubation of isolated epididymal fat cells with dexamethasone or treating rats with cortisol enhances the epinephrine-stimulated lipolysis of the cells as well as cAMP-dependent protein kinase activity in homogenates of these fat cell suspensions. During maximal inhibition of phosphodiesterase activity by theophylline or dibutyryl cAMP, this potentiating effect of glucocorticoids on the fat cells was also present. There was no lowering of the total phosphodiesterase activity in homogenates of fat cell suspensions of rats that were treated with cortisol, but there appeared to be a lower activity of the low KM phosphodiesterase activity. It is concluded that induction of protein kinase by glucocorticoid hormone is responsible for its special type of stimulative action on lipolysis.
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PMID:The mechanism of the potentiating effect of glucocorticoids on catecholamine-induced lipolysis. 16 65

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