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

l-Isoproterenol has been proposed to stimulate lipolysis in rat epididymal adipocytes via atypical beta adrenergic receptors, whereas radioligand binding studies only revealed the presence of beta 1 adrenergic receptors on adipocyte membranes. We have made use of the unique properties of CGP12177 to evidence that both the beta 1 and the atypical beta adrenergic receptor subtypes are mediating the lipolytic response of rat epididymal adipocytes to l-isoproterenol. CGP12177, an antagonist with high affinity for beta 1 receptors, triggers lipolysis by specifically stimulating the atypical receptors. For this response, CGP12177 displays low potency (EC50 = 68 nM), but high intrinsic activity (94% relative to l-isoproterenol). At low concentrations (3 nM), CGP12177 inhibits the lipolytic response to 10 nM l-isoproterenol by 43%, indicating that at least this fraction of the response is beta 1 receptor-mediated. The response to BRL37344, which is a selective agonist for the atypical receptors, is not inhibited by CGP12177. The pA2 values of the beta adrenergic antagonists propranolol, metoprolol and atenolol were calculated from the rightward shifts that they impose on dose-response curves of both l-isoproterenol and CGP12177. With l-isoproterenol, these values (6.54, 5.83 and 5.07, respectively) are lower than those expected for beta 1 and beta 2 receptors, indicating that atypical receptors are also involved in the lipolytic response to this agonist. With CGP12177, the pA2 values of propranolol, metoprolol and atenolol are even lower (5.80, 5.03 and 4.06, respectively), and are likely to be a more accurate reflection of their affinities for the atypical receptors.
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PMID:Multiple beta adrenergic receptor subclasses mediate the l-isoproterenol-induced lipolytic response in rat adipocytes. 132 52

1. Short-circuit current (SCC) technique was used to study the adrenoceptors involved in the electrogenic chloride secretion by cultured cauda epididymal epithelium of rats. Stimulation of the epithelium with noradrenaline (primarily beta 1-adrenoceptor selective agonist), salbutamol (beta 2-adrenoceptor selective agonist) and adrenaline (non-selective beta-adrenoceptor agonist) led to a rise in SCC. At a low chart-speed (2 mm min-1), the response profile to these agonists consisted of a peak followed by a sustained response considerably higher than the basal SCC. 2. The EC50s (doses of agonist producing 50% maximum response) of noradrenaline, salbutamol and adrenaline were 300, 115 and 10 nM respectively. Pretreating the tissues with 1 microM atenolol (beta 1-selective antagonist) and 10 microM butoxamine (beta 2-selective antagonist) shifted the dose-response curves of noradrenaline (shifted EC50 = 4000 nM) and salbutamol (shifted EC50 = 1050 nM) to the right. Atenolol (1 microM) and butoxamine (10 microM) shifted the dose-response curve of adrenaline to the right with new EC50s of 30 nM and 115 nM, respectively. 3. The rapidly rising phase of the SCC response to noradrenaline and adrenaline observed at low chart-speed consisted of a brief and transient retraction followed by a rebound increase in SCC. At a high chart-speed (1 mm s-1), the retraction and rebound phenomenon manifested as a fast initial spike which could be blocked by phentolamine (non-specific alpha-adrenoceptor antagonist) in a dose-dependent fashion. Similar initial spikes were observed when the tissues were stimulated with phenylephrine (alpha-selective agonist) but not with isoprenaline (non-selective beta-agonist) or forskolin (activator of adenylate cyclase). The response of the initial spike triggered by noradrenaline was dose-dependent and the EC50 was 2000 nM.4. The present study showed that the electrogenic chloride secretion by rat epididymis could be stimulated by (alphaxi-, beta131- and beta2-adrenoceptor agonists. The al-mediated response had a faster onset and more transient action than the 3-counterpart. It is postulated that epididymal chloride secretion might be regulated by neural (noradrenaline-mediated) and humoral (adrenaline-mediated) controls and that the stimulus-secretion coupling mechanisms might involve both Ca2+(alpha-mediated response) and adenosine 3':5'-cyclic monophosphate (beta-mediated response) as intracellular second messengers.
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PMID:Characterization of adrenoceptors involved in the electrogenic chloride secretion by cultured rat epididymal epithelium. 135 80

A chimeric transforming growth factor beta (TGF-beta) molecule has been synthesized to map the amino acids responsible for the substantially greater activity of TGF-beta 1 than TGF-beta 2 on growth and migration of endothelial cells. This chimera consists of a dimer of a monomeric unit composed of amino acids 1-39 of TGF-beta 2, 40-82 of TGF-beta 1, and 83-112 of TGF-beta 2. Structural identity of the purified recombinant protein has been confirmed by immunoblotting and NH2-terminal sequencing. The biological potency of the TGF-beta 2-1-2 chimera was equal to that of TGF-beta 1 in inhibition of growth of both fetal bovine heart endothelial cells and rat epididymal fat pad microvascular endothelial cells. Similarly, the TGF-beta 2-1-2 chimera was nearly equivalent to TGF-beta 1 and at least 10-fold more active than TGF-beta 2 in inhibiting migration of bovine aortic endothelial cells. These results identify the sequence between amino acids 40-82 as an important region within TGF-beta that functions to specify a TGF-beta 1- or TGF-beta 2-like activity.
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PMID:Identification of a structural domain that distinguishes the actions of the type 1 and 2 isoforms of transforming growth factor beta on endothelial cells. 163 Nov 20

It is now generally accepted, that in most of the animal species the adrenergic control of lipolysis from adipose tissue is mediated by adrenergic beta 1 and alpha 2 receptors. Therefore, the problem we deal with in this article is concerned with the role of alpha adrenergic receptors in lipolysis in the rat adipose tissue because only in this species the function of alpha adrenergic receptors in lipolysis is still not clear. In in vitro experiments with epididymal adipose tissue of adult rats (where we followed up the release of free fatty acids into the albumin medium) we found: 1) Alpha adrenergic blocking agents phentolamine and phenoxybenzamine had no influence on the lipid mobilizing effect of adrenergic agonists. This effect was absent also when drugs with the strong alpha sympathomimetic effects, e.g. norepinephrine and noroxedrine, were used. 2) On the other hand, alpha adrenergic agonist phenylephrine was able to antagonize in rat adipose tissue the lipid mobilizing effect of beta adrenergic agonist isoproterenol. 3) From our experiments it can be concluded, that phenylephrine acts as a competitive dualist on beta adrenergic receptors, it reduces the effect of full agonist (e.g. isoproterenol) to the level of its own maximum lipolytic effect. No participation of alpha adrenergic receptors in described effects of phenylephrine were detected, because neither the lipolytic, nor the lipolysis blocking effects of phenylephrine were influenced by alpha adrenergic blocking agents. Our studies using alpha adrenergic agonist phenylephrine or nonselective alpha adrenergic blocking agents did not indicate the presence of any alpha adrenergically controlled lipolysis in the rat adipose tissue. However, the role of antilipolytic alpha 2 adrenoceptors in rat adipose tissue cannot be completely excluded, some of these receptors were found on the membranes of rat adipocytes. Our future study deals with this problem.
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PMID:[The effect of alpha adrenergic agents on lipolysis in rat adipose tissue; the effect of nonselective alpha adrenomimetics and alpha adrenolytics in an experiment in vitro]. 168 69

We prepared a monoclonal antibody (MAb) against N-acetylglucosaminide beta 1----4 galactosyltransferase purified from F9 embryonal carcinoma cells. The MAb recognized the protein portion of the enzyme, since it inhibited galactosyltransferase activity, reacted with the enzyme both from F9 cells and from bovine milk, and did not exhibit anti-carbohydrate activity. Using this MAb, we studied the subcellular localization of the enzyme by immunoelectron microscopy. Intense staining was observed in trans-Golgi stacks within testicular interstitial cells and mucous neck cells, confirming the specificity of the immunological reaction. Cell surface galactosyltransferase was detected in the following regions: cultured cells such as F9 embryonal carcinoma cells, testicular interstitial cells, seminiferous tubule epithelial cells, Sertoli cells, the head of the epididymal sperm, epididymal epithelial cells, and apical surfaces of epithelial cells in the fundic gland and of intestinal goblet cells. The use of Triton X-100 intensified the cell surface immunoreactivity, and in certain cases the mode of distribution of the cell surface enzyme was different from that described in previous reports. In addition, nuclear envelopes of cultured cells were distinctly stained. The possible significance of the latter finding is discussed in relation to recent advances in nuclear localization of glycoproteins.
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PMID:Subcellular localization of N-acetylglucosaminide beta 1----4 galactosyltransferase revealed by immunoelectron microscopy. 194 Mar 15

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

The potency, selectivity and specificity of atipamezole [MPV-1248, 4-(2-ethyl-2,3-dihydro-1H-inden-2-yl)-1H-imidazole], as an alpha 2-adrenoceptor antagonist was studied. In receptor binding studies [( 3H]-clonidine and [3H]-prazosin displacement) an alpha 2/alpha 1 selectivity ratio of 8526 was obtained for atipamezole, while idazoxan and yohimbine showed ratios of 27 and 40, respectively. Atipamezole had also about a 100 times higher affinity on alpha 2-adrenoceptors than the reference compounds. In the electrically stimulated prostatic portion of rat vas deferens, atipamezole showed potent competitive antagonistic activity against clonidine (pA2 8.6) and medetomidine (pA2 8.7) at presynaptic alpha 2-adrenoceptors. In the epididymal portion of the rat vas deferens, atipamezole had only weak competitive antagonistic activity against phenylephrine (pA2 5.0). In binding studies and studies with isolated organs, atipamezole had no effect on beta 1-, beta 2-, H1-, H2-, 5-HT1-, 5-HT2-, muscarine, DA2-, tryptamine, GABA, opiate and benzodiazepine receptors. In the pithed rat, atipamezole, like idazoxan, had partial alpha 1-adrenoceptor-mediated vasoconstrictor effects in addition to potent alpha 2-adrenoceptor blocking activity. In mice, medetomidine-induced sedation was effectively antagonized by atipamezole. These results show that atipamezole is a potent, selective and specific antagonist of both centrally and peripherally located alpha 2-adrenoceptors.
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PMID:Highly selective and specific antagonism of central and peripheral alpha 2-adrenoceptors by atipamezole. 256 52

1. The nature of the rat epididymal adipocyte beta-adrenoceptor was investigated by studying the effects of beta 1- and beta 2-selective antagonists on lipolysis induced by (-)-isoprenaline and the lipolytically selective agonist BRL 37344. 2. From 10 nM to 10 microM, the potent and highly selective beta 1-adrenoceptor antagonist CGP 20712A did not influence the concentration-response curve (CRC) of BRL 37344 whereas small but consistent shifts to the right of the (-)-isoprenaline-induced CRC were observed. Clear rightward shifts of the CRCs induced by both (-)-isoprenaline and BRL 37344 were produced only at 100 microM CGP 20712A with the corresponding pA2 values being 4.80 and 4.61, respectively. 3. When the beta 2-selective antagonist ICI 118,551 was used at 10 microM and higher, clear and concentration-dependent shifts to the right of the CRCs of both agonists were observed. The slopes of the Schild plots did not deviate significantly from unity, the pA2 values being 5.49 and 5.33 against (-)-isoprenaline and BRL 37344, respectively. 4. The results demonstrate that (-)-isoprenaline-induced lipolysis in rat white adipocytes is mediated predominantly by atypical beta-adrenoceptors, whereas the typical beta 1-adrenoceptors play a small, subordinate role. The lipolytically selective agonist BRL 37344 acts solely through atypical beta-adrenoceptors.
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PMID:Direct evidence for the atypical nature of functional beta-adrenoceptors in rat adipocytes. 257 16

The effect of pretreatment with reserpine (1.0 mg/kg i.p. daily for 7 days) on beta-adrenoceptor-mediated responses has been measured in epididymal white and interscapular brown adipocytes, left atria and vas deferens of rats in order to investigate the classification of the receptors and whether they are innervated. Lipolysis was measured in adipocytes, and from the same rats, the beta 1-adrenoceptor-mediated positive inotropic responses of isolated paced left atria and beta 2-adrenoceptor-mediated inhibition of field stimulation-induced contraction of the vas deferens were examined. The agonists used were isoprenaline, oxyfedrine (atria only) and (except in brown adipocytes) ritodrine, which was a partial agonist in white adipocytes, atria and vas deferens. Atria and brown adipocytes exhibited beta-adrenoceptor supersensitivity after reserpine pretreatment, whereas vas deferens and white adipocytes did not. Reserpine-induced reductions in food intake and body weight did not appear to influence beta-adrenoceptor-mediated lipolysis, since restriction of the diet equivalent to that of reserpine-treated rats produced no change in white adipocyte sensitivity. Responses mediated via beta 1-, but not beta 2-adrenoceptors, display supersensitivity after chronic depletion of neuronal catecholamines with reserpine and this is evidence for innervation of this receptor subtype. Thus, atrial beta 1-adrenoceptors are assumed to be innervated, whereas vas deferens beta 2-adrenoceptors are not. The present results are consistent with histochemical evidence that brown, but not white, adipocyte beta-adrenoceptors are innervated. However, they are not compatible with conventional receptor classification studies, which suggest that rat brown and white beta-adrenoceptors are similar--either both beta 1 or both atypical.
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PMID:Beta-adrenoceptor sensitivity of brown and white adipocytes after chronic pretreatment of rats with reserpine. 302 2

Two alpha-D-mannosidases have previously been identified in rat epididymis. This communication reports the purification and characterization of the "acid" alpha-D-mannosidase. The enzyme was purified over 1000-fold to near homogeneity by acetone and (NH4)2SO4 precipitation followed by ion-exchange and hydroxylapatite chromatography. The molecular weight of the enzyme was estimated to be 220,000 by gel filtration. Polyacrylamide gel electrophoresis of the native enzyme under two conditions of buffer and pH showed a single band when stained for protein while electrophoresis under denaturing conditions resulted in bands of apparent Mr 60,000 and 31,000. The enzyme is a glycoprotein containing about 5.6% hexose. In addition to mannose (3.1%) and glucosamine (2.0%), the enzyme also contained small amounts of glucose, fucose, and galactose. Chemical analysis indicated the absence of sialic acid. The substrate specificity of the purified enzyme was investigated using linear and branched mannose-containing oligosaccharides. The enzyme cleaved linear oligosaccharides [Man(alpha 1-2)Man(alpha 1-2)Man(alpha 1-3)Man(beta 1-4)GlcNAc and Man(alpha 1-2)Man(alpha 1-3)Man(beta 1-4)GlcNAc] very efficiently. However, little or no activity was observed toward high mannose oligosaccharides (Man9GlcNAc through Man5GlcNAc) or the branched trimannosyl derivative Man3GlcNAc. This specificity is very similar to that observed with rat kidney lysosomal alpha-D-mannosidase. Additional evidence that the epididymal enzyme is essentially a lysosomal alpha-D-mannosidase is the fact that polyclonal antibody prepared against the purified epididymal enzyme cross-reacted with lysosomal alpha-D-mannosidase from several rat tissues and with acidic alpha-D-mannosidase of a human cell line, results suggesting that the antibody will be useful in studying the biosynthesis and turnover of lysosomal alpha-D-mannosidases in at least two species.
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PMID:Rat epididymal alpha-D-mannosidase: purification, carbohydrate composition, substrate specificity, and antibody production. 319 37


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