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)

Genetically obese Zucker (fa/fa) rats exhibit numerous metabolic and endocrine disorders associated with modest hypercorticosteronemia and reported changes in peripheral target tissue sensitivity to glucocorticoids. In this study we investigated phenotypic differences in basal and stress-induced ACTH and corticosterone (B) secretion in intact and adrenalectomized lean and obese male Zucker rats. In addition, we determined whether differences in the sensitivity to B of plasma ACTH and insulin secretion as well as other peripheral B targets could be observed between the two phenotypes. There were no significant differences in basal ACTH or B in either the morning (AM) or evening (PM) in intact obese and lean rats; however, mean B was increased in the obese rats in the AM, and signs of chronically increased adrenocortical activity were observed, including increased adrenal weight and intraadrenal phenylethanolamine-N-methyl transferase activity and decreased thymus weight. In a second experiment, B was significantly elevated 3 min after either administration in obese compared to lean rats; however, there was no significant difference in B between the groups at 10 min, nor were ACTH levels at these times different. Five days after adrenalectomy with sc B replacement, ACTH was decreased as a function of B in both phenotypes under AM basal and stress conditions. The IC50 values for inhibition of basal ACTH by B were 3.16 and 4.17 micrograms/dl in lean and obese rats, respectively. Under stress conditions, the IC50 values were not different (4.39 micrograms/dl for lean and 4.24 micrograms/dl for obese rats). B dose-dependent increases in body and epididymal fat depot weights were greater in obese than in lean rats, an expected result because of elevated insulin levels in this group. Insulin exhibited only small B-dependent increases, and thymus weight decreased in a B-dependent fashion; there were no differences in the sensitivity to B of these measures between lean and obese rats. We conclude that 1) there is no evidence for altered sensitivity to B in obese rats for any of the B-sensitive end points measured; and 2) basal adrenocortical activity is slightly elevated, and the sensitivity of ACTH to B feedback is decreased in obese rats under AM conditions in the absence of external stress.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Obese Zucker (fa/fa) rats exhibit normal target sensitivity to corticosterone and increased drive to adrenocorticotropin during the diurnal trough. 133 42

The effects of cold exposure (7 days, 5 degrees C) and cold acclimation (21 days, 5 degrees C) on the regulation of lipolysis were investigated in adipocytes isolated from epididymal fat pads of rats. Catecholamines stimulated lipolysis in an affinity sequence typical of the beta 1-adrenoceptor subtype: one-half maximum velocity (1/2 Vmax) isoproterenol (35 nM) much greater than 1/2 Vmax norepinephrine (150 nM) approximately 1/2 Vmax epinephrine (200 nM). Cold exposure markedly decreased the sensitivity (1/2 Vmax) and the responsiveness (Vmax) of the adipocytes to the lipolytic action of catecholamines. Addition of adenosine deaminase to fat cells isolated from cold-exposed rats did not normalize the lipolytic activity, suggesting that extracellular adenosine was not responsible for the obtunded lipolysis. This effect of cold exposure was transient as the lipolytic response to catecholamines was normal in fully cold-acclimated animals. Remarkably, the responsiveness of adipocytes to the lipolytic action of glucagon (200 nM) and adrenocorticotropic hormone (ACTH, 1 microM) progressively increased during cold acclimation. Adipocyte lipolytic response to dibutyryl adenosine 3',5'-cyclic monophosphate (cAMP) and theophylline was normal in cold-exposed rats, indicating that the lipolytic defect resides at an early step in the lipolytic cascade (pre-cAMP). On the other hand, the antilipolytic effect of insulin on norepinephrine-induced lipolysis significantly decreased during cold acclimation, particularly at physiological levels of insulin (nanomolar level). These results demonstrate that the transient decrease in the lipolytic action of catecholamines observed during cold acclimation is compensated by 1) an increased responsiveness of adipocytes to glucagon and ACTH and 2) by a decreased effectiveness of insulin to induce antilipolysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Alterations in adipocyte response to lipolytic hormones during cold acclimation. 215 29

Treatment of normal rats kept on a balanced laboratory chow diet with beta,beta'-tetramethyl-substituted hexadecanedioic acid (MEDICA 16) (Bar-Tana et al., 1985, J. Biol. Chem, 260, 8404-8410) resulted in an acute reduction in adiposity, which was already established during the first week of treatment and was sustained as long as the drug was administered. Adipose reduction consisted of 30-80 percent decrease in the perirenal, omental, epididymal, parametrial and subcutaneous fat with a concomitant 50 percent decrease in total body neutral lipid mass. The reduction in adiposity was accounted for by a respective decrease in the lipid content of individual adipocytes together with a transient or sustained decrease in the number of adipocytes of selected adipose tissues. The decrease in the lipid content resulted from (a) an extensive hypotriglyceridemia in MEDICA 16-treated rats; (b) inhibition of adipose lipogenesis by MEDICA 16; (c) increased sensitivity to catecholamines-. ACTH- and forskolin-induced lipolysis in MEDICA 16 adipocytes. Adipose reduction by MEDICA 16 was not compromised by a decrease in overall net caloric intake but was accompanied by a 40 percent increase in resting metabolic rate.
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PMID:Adipose reduction by beta,beta'-tetramethyl-substituted hexadecanedioic acid (MEDICA 16). 267 Jul 91

The release of S-100 protein brought about in rat epididymal fat pads by 10 microM epinephrine was inhibited by about 50% in the presence of more than 8 nM insulin. The inhibitory effect of insulin was also observed in the release of S-100 protein induced by isoproterenol or adrenocorticotropin (ACTH), but not in the release induced by a high concentration (5 mM) of dibutyryl cyclic AMP. Since insulin suppressed (to about 50%) the increase in cyclic AMP content induced by epinephrine under the same conditions, it is suggested that the inhibitory mechanism is mediated by the cyclic AMP levels in adipocytes. The S-100 protein release induced by catecholamine was significantly decreased (to about 50%) in the fat pads obtained from insulin-injected rats. In contrast, in the fat pads obtained from diabetic or long-term starved rats, the S-100 protein release was greatly enhanced, showing several-fold higher levels of basal release in the absence of hormones, and S-100 protein contents in the epididymal adipose tissues of these rats were significantly lower than those of the control rats. These results suggest that the S-100 protein content in adipocytes is regulated by insulin as well as the lipolytic hormones.
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PMID:Inhibition of adipose S-100 protein release by insulin. 298 24

Adipocytes contain adenosine receptors, termed A1 receptors, which inhibit lipolysis by decreasing adenylate cyclase activity. The inhibition of lipolysis by adenosine agonists in vivo acutely suppresses the plasma concentrations of free fatty acids (FFA) and triglycerides. We have found that infusions of the adenosine receptor agonist phenylisopropyladenosine (PIA) initially decreases plasma FFA concentrations; however, with prolonged exposure (6 d), rats become very tolerant to the effects of the drug. Adipocytes isolated from epididymal fat pads from PIA-infused rats have altered lipolytic responses. When lipolysis is stimulated with a relatively high concentration of isoproterenol (10(-7) M), PIA does not inhibit lipolysis in adipocytes from the infused animals. However, PIA inhibits isoproterenol-stimulated cyclic AMP (cAMP) accumulation in adipocytes from the infused rats although with decreased sensitivity compared with controls. The explanation for the impaired antilipolytic effect appears to be due to the fact that isoproterenol-stimulated cAMP accumulation is markedly increased in cells from infused rats. Indeed, basal lipolysis and lipolysis stimulated with lower concentrations of isoproterenol (10(-9), 10(-8) M) are effectively inhibited by PIA. cAMP accumulation is greatly increased in adipocytes from infused rats when stimulated by isoproterenol, ACTH, and forskolin. The results have some striking analogies to changes induced in nerve cells by prolonged exposure to narcotics. These data suggest that tolerance to PIA develops in adipocytes as a consequence of enhanced cAMP accumulation.
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PMID:Desensitization of adenosine receptor-mediated inhibition of lipolysis. The mechanism involves the development of enhanced cyclic adenosine monophosphate accumulation in tolerant adipocytes. 301 37

The effects of corticosterone and ACTH(1-24) on lipoprotein lipase (LPL) activity of rat epididymal fat tissue were studied. Hypercorticism induced by s.c. administration of 10 mg corticosterone acetate for 3 days led to a decrease in LPL activity. This decrease could be prevented by treatment of the rats simultaneously with synthetic ACTH(1-24). Adrenalectomy also reduced LPL activity. Corticosterone and ACTH(1-24) treatment had a similar effect on LPL activity in adrenalectomized and intact rats. These results indicate that ACTH(1-24) may affect adipose tissue LPL in the rat by a mechanism in which corticosterone is not involved.
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PMID:Disparate effects of ACTH (1-24) and corticosterone on lipoprotein lipase in rat adipose tissue. 331 63

The release of S-100 protein from epididymal fat pads was enhanced by epinephrine in vitro, and about 50% of S-100 protein in the tissue was released into the medium after 2-h incubation at 37 degrees C with 10 microM epinephrine. Similar results were obtained with the incubation of isolated adipocytes. The S-100 protein release was also enhanced by isoproterenol, norepinephrine, ACTH, and dibutyryl cyclic AMP, which all increase the lipolysis by increasing cyclic AMP levels in the tissue. Propranolol, a beta-adrenergic blocker, could block the increase of S-100 protein release by catecholamines, indicating that the release was mediated by the beta-adrenergic effect of catecholamines. However propranolol had no suppressive effect on the enhancement of S-100 protein release by ACTH or dibutyryl cyclic AMP. Insulin had an inhibitory effect on the epinephrine-enhanced S-100 protein release. Epinephrine or ACTH could not stimulate the S-100 protein release in the absence of Ca2+, whereas the epinephrine-enhanced glycerol release was not affected under the same conditions. The increase in S-100 protein release was induced by only a pretreatment of the tissue with epinephrine. However, the lipolysis in the tissue was not enhanced by the pretreatment alone. These results indicate that the release of S-100 protein from adipocytes is regulated by the hormones that have been known to control the lipolysis with a manner slightly different from that of lipolysis.
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PMID:Hormonal regulation of adipose S-100 protein release. 609 38

The present communication shows the effects of several alpha-adrenergic agonists and antagonists on cyclic AMP levels in hamster epididymal adipocytes. In response to ACTH (30 mU/ml) in combination with 1-methyl-3-isobutylxanthine (0.10 mM) or adenosine deaminase (1.0 micrograms/ml), cyclic AMP levels increased to a maximum by 10 min and this level was maintained for another 20 min. Elevated cyclic AMP levels were partially suppressed by the alpha-adrenergic agents clonidine, methoxamine, methyl norepinephrine and phenylephrine. The lowest effective concentration of each of these agonists required to suppress cyclic AMP levels was 10 nM clonidine; 3 microM methoxamine; 10 microM methyl norepinephrine; 10 microM phenylephrine. Clonidine and methoxamine suppressed cyclic AMP levels by nearly 65% while phenylephrine and methyl norepinephrine caused only a 30% decline. Studies of the relative potencies of alpha-adrenergic blocking drugs on prevention of the inhibitor effect of clonidine on cyclic AMP levels disclosed that phentolamine and yohimbine were more potent blockers of clonidine action than phenoxybenzamine and prazosin. The rank order of potencies of agonists at causing suppression of cyclic AMP levels and the rank order of potencies of antagonists of clonidine action suggest similarity of the alpha-adrenergic receptors present on hamster adipocytes, which affect cyclic AMP accumulation to alpha-2 adrenergic receptors.
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PMID:Alpha-adrenergic inhibition of cyclic AMP accumulation in hamster adipocytes. Similarity of receptor with alpha-2 adrenergic receptors. 615 28

The effects of age and cellularity on lipolysis have been investigated in isolated epididymal fat cells from both Swiss albino mice and Sprague-Dawley rats. No significant lipolytic response to glucagon could be demonstrated with adipocytes from either young or old mice, while glycerol output was increased by this hormone with fat cells from young rats. Larger adipocytes from older mice showed significantly greater isoproterenol-stimulated lipolysis than those from younger animals if the glycerol output was expressed on a per cell basis. However, the lipolytic response per cell appeared to be equivalent in young and old rat adipocytes with either isoproterenol or ACTH-(1-24). In a complete aging study, relationships between body weight, epididymal fat pad weight and cellularity were examined covering the life span of the mouse. ACTH-(1-24)- and dibutyryl cyclic AMP-stimulated lipolysis increased with age and cell size but fell at senescence when adipocyte size diminished. Although an effect of aging per se cannot be ruled out with the experimental techniques used in the present study, a dominant influence of adipocyte size on the lipolytic process was demonstrated.
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PMID:Effect of aging and cellularity on lipolysis in isolated mouse fat cells. 624 88

The effects of exercise training and food restriction on the regulation of lipolysis were studied comparatively in adipocytes isolated from male and female rats. Exercise training inhibited cell proliferation in parametrial, but not in epididymal adipose tissue, whereas it significantly reduced adipocyte size in both fat depots. Adipocyte capacity for responding lipolytically to epinephrine (10 microns) or to ACTH (1 micron) was markedly increased by exercise training. Enhanced lipolysis was also observed when cells isolated from exercise-trained animals were stimulated by bypassing with dibutyryl cyclic AMP (5 mM) or theophylline (5 mM) the early metabolic steps associated with hormonal activation of the adenylate cyclase complex. Significantly, binding of (-)-[3H]dihydroalprenolol to cellular receptor sites was not affected by exercise training. It is therefore concluded that exercise training increases adipocyte responsiveness to lipolytic hormones at a metabolic step distal to stimulus recognition by adrenoreceptors, possibly at the level of protein kinases or lipases. Food restriction markedly reduced adipocyte size and partially mimicked the effects of exercise training on adipocyte proliferation and lipolysis.
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PMID:Mechanism of enhanced lipolysis in adipose tissue of exercise-trained rats. 625 3

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