UNIPROT:P01185 - FACTA Search

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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. An in vitro preparation of the rabbit knee joint, perfused with oxygenated Locke solution, was used to investigate the presence of purinoceptors and the role of endothelium within articular blood vessels. 2. The basal tone of the blood vessels was not affected by adenosine or acetylcholine. Adenosine 5'-triphosphate (ATP) injection produced vasoconstriction which was unaffected by removal of the endothelial layer, but diminished by alpha, beta methylene ATP, a compound which desensitizes P2-purinoceptors. 3. When knee joint blood vessel tone was raised by perfusion with vasopressin (10(-8) M) or 5-hydroxytryptamine (10(-5) M), acetylcholine, ATP and adenosine were all found to induce concentration-dependent relaxation of these vessels. ATP was found to have a dual effect of transient constriction followed by longer-lasting dilatation. 4. 3-Methylxanthine, a P1-purinoceptor antagonist significantly reduced the relaxation response to adenosine but had no effect on the vasodilator effect of ATP. 5. Removal of the endothelial layer virtually abolished the vasodilator effects of acetylcholine and ATP but not adenosine. 6. These results demonstrate that articular blood vessels supplying the rabbit knee contain P1-purinoceptors located on the vascular smooth muscle which mediate vasodilatation. P2-purinoceptors mediating a constrictor effect are also present on this smooth muscle. It is likely that the vasodilator effect of ATP is mediated via P2-purinoceptors located on the endothelial layer.
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PMID:The role of the endothelium in mediating the actions of ATP, adenosine and acetylcholine on flow through blood vessels in the rabbit knee joint. 232 2

Subcutaneous injections of elcatonin, a synthetic analogue of eel calcitonin, lowered the blood pressure in DOCA/saline-hypertensive and spontaneously hypertensive rats (SHR), but not in normotensive Wistar rats. The hypotensive effect was more prominent in the DOCA hypertensive rats. Daily injections of elcatonin (10-30 U/kg/day for 21 days) resulted in maximum hypotension on the 4th day in DOCA hypertensive rats and on the 14th day in SHR, and the reduced level of blood pressure was maintained. After the cessation of elcatonin injections, the pressure started to elevate gradually towards the control level. In normotensive rats, elcatonin did not significantly alter the blood pressure for 6 weeks. Daily injections of elcatonin significantly prevented the development of DOCA-induced hypertension and spontaneously-occurring hypertension. Elcatonin-induced hypotension did not differ in the control and parathyroidectomized DOCA hypertensive rats. Elcatonin did not alter the pressor response to noradrenaline, vasopressin and angiotensin II nor the depressor response to isoproterenol, acetylcholine and histamine in DOCA hypertensive rats. It is concluded that the antihypertensive effect of elcatonin is not associated with the release of parathyroid hormone nor with the blockade of alpha, beta, angiotensin II and vasopressin receptors.
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PMID:[Antihypertensive action of elcatonin]. 667 29

We examined factors mediating a 70% increase in arterial blood pressure that occurs during feeding in newborn lambs. We report that the increase in blood pressure during feeding was significantly reduced (to approximately 50%) and delayed in onset by combined alpha- and beta-adrenergic blockade. Plasma angiotensin and vasopressin levels did not increase significantly during feeding, nor was the pressor response to feeding attenuated while using captopril to block the production of angiotensin II. Adrenalectomy or muscarinic cholinergic blockade with atropine was also unsuccessful in attenuating the pressor response to feeding. We demonstrated that the component of the pressor response to feeding that was insensitive to alpha, beta, and muscarinic blockade was mediated by the autonomic nervous system because it was completely eliminated by ganglionic blockade with hexamethonium. Thus nonadrenergic noncholinergic autonomic mechanisms mediate approximately half the pressor response to feeding in lambs.
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PMID:Nonadrenergic noncholinergic autonomic mediation of pressor response to feeding in lambs. 810 2

To define the role of protein kinase C (PKC) in oxygen-dependent production of erythropoietin (EPO) in the liver, we have determined EPO messenger ribonucleic acid (mRNA) expression in primary cultures of juvenile rat hepatocytes incubated at different oxygen tensions in the absence and presence of phorbol esters, vasopressin, and structurally different kinase inhibitors. Upon reduction of oxygen concentrations from 40% to 3% EPO mRNA in cultured hepatocytes increased markedly within 1.25 h, reached maximal values after 2.5 h and remained elevated for up to 72 h. Treatment of hepatocytes during 1.25-5 h of hypoxic exposure with phorbol 12-myristate-13 acetate (PMA) attenuated hypoxia-induced EPO mRNA levels dose-dependently by a maximum of approximately 50%. This inhibitory effect of PMA disappeared upon treatment for more than 5 h and was completely lost after incubation for 9 and 18 h in the presence of 10(-6) M and 10(-7) M PMA, respectively. Phorbol 12,13-dibutyrate and vasopressin also inhibited EPO mRNA accumulation, whereas 4 alpha-phorbol 12,13-didecanoate was ineffective. Western blot analysis of PKC isozymes revealed the presence of PKC alpha, beta II, delta, epsilon and zeta and provided no evidence that the PMA-induced inhibition of EPO expression was associated with depletion of any of these isozymes. Conversely, PMA-induced inhibition of EPO mRNA accumulation was paralleled by translocation of PKC alpha from cytosol to membranes and the time- and dose-dependent attenuation of the inhibitory effect of PMA on EPO mRNA levels was paralleled by down-regulation of PKC alpha. A dose-dependent inhibition of EPO mRNA formation, independent of effects on total RNA synthesis, as determined by [3H]uridine incorporation, was also found in the presence of the kinase inhibitor staurosporine (ED50 approximately 2 x 10(-8) M) and three structurally related derivatives with increased selectivity for PKC (RO 317549, ED50 approximately 1 x 10(-6) M; RO 318220, ED50 approximately 1 x 10(-6) M and CGP 41251, ED50 approximately 4 x 10(-6) M). The markedly lower potency of the latter three compounds as compared to staurosporine suggests that this suppression of EPO gene induction was not mediated by inhibition of PKC. In summary the data indicate that PKC alpha is a negative modulator of EPO gene expression in hepatocytes. A kinase other than PKC, however, appears to be an essential element of hypoxic signalling.
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PMID:Hypoxia-induced accumulation of erythropoietin mRNA in isolated hepatocytes is inhibited by protein kinase C. 814 21

Sodium transport across the apical membrane, via amiloride sensitive sodium channels, is the limiting step of sodium absorption in transporting epithelia with high intercellular electrical resistance, such as the distal parts of the colon and of the renal tubule. Several types of amiloride sensitive sodium channels have been functionally characterized: one of them (type I) with high selectivity and low conductance for sodium is under the control of aldosterone and antidiuretic hormone. This channel has been cloned (2): it is formed of three subunits, alpha, beta and gamma. The distribution of these subunits has been examined in several epitheliums at the mRNA (in situ hybridization) and protein (immunocytochemistry) levels. All three subunits are expressed in the most superficial cells of the distal colon, in principal cells of the renal distal tubule and cortical collecting duct, in striated ducts of serous acini of salivary glands, and in excretory ducts of sweat glands. Immunocytochemistry established the apical localization of the channel subunit proteins. No expression was detected in other cell types of these tissues. These results highlight the crucial role of the type I amiloride sensitive sodium channel in the control of sodium homeostasis at the level of tight, aldosterone-sensitive epitheliums. Furthermore, novel questions are opened, in view of the sodium channel being a member of a highly conserved family of mechanoreceptors, and of its implication in some human genetic diseases.
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PMID:[Distribution of amiloride-sensitive sodium channel in epithelial tissue]. 859 Feb 16

The amiloride-sensitive epithelial Na+ channel is formed by the assembly of three homologous subunits, alpha, beta and gamma. The channel is characterized by its sensitivity to amiloride and to some amiloride derivatives, such as phenamil and benzamil, by its small unitary conductance (approximately 5 pS), by its high selectivity for lithium and sodium, and by its slow kinetics. The alpha-, beta-, and gamma-proteins share significant identity with degenerins, a family of proteins found in the mechanosensory neurons and interneurons of the nematode Caenorhabditis elegans. They are also homologous to FaNaCh, a protein from Helix aspersa nervous tissues, which corresponds to a neuronal ionotropic receptor for the Phe-Met-Arg-Phe-NH2 peptide. All these proteins contain a large extracellular loop, located between two transmembrane alpha-helices. The NH2 and COOH terminal segments are cytoplasmic and contain potential regulatory segments that are able to modulate the activity of the channel. Accordingly, in Liddle syndrome, in which patients develop a form of genetic hypertension, mutations within the cytoplasmic COOH terminal of the beta- and gamma-chains of the epithelial Na+ channel lead to a hyperactivity of the channel. Epithelial Na+ channel activity is tightly controlled by several distinct hormonal systems, including corticosteroids and vasopressin. In kidney and colon, aldosterone is the major sodium-retaining hormone, acting by stimulation of Na+ reabsorption through the epithelium. In the distal colon from steroid-treated animals, a large increase in beta- and gamma-subunit transcription is observed, whereas the alpha-subunit remains constitutively transcribed. In kidney, RNA levels of the three subunits are not altered by aldosterone, suggesting that other mechanisms control Na+ channel activity in that tissue. In lung, the glucocorticoids are positive regulators of the channel activity, especially around birth, and act via an increased transcription of the three subunits.
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PMID:Molecular biology of the amiloride-sensitive epithelial Na+ channel. 873 81

Alcohol acutely causes vasodilation and hypotension in Orientals. To study the mechanisms responsible for the alcohol-induced blood pressure (BP) reduction, we examined levels of various vasoactive hormones after a single intake of alcohol in twelve Japanese men with mild hypertension. On the alcohol intake day, they consumed 1 ml/kg of alcohol with an evening meal, while on the control day they took an isocaloric control drink. BP and vasoactive hormone levels were determined before and 2 h after intake of the alcohol or the control drink. BP after alcohol ingestion was significantly lower than that before drinking or on the control day. This alcohol-induced hypotension was associated with significant increases in heart rate, plasma catecholamines and plasma renin activity (PRA). The changes in heart rate and plasma noradrenaline were inversely related to the changes in BP. Plasma levels of vasopressin and insulin were lower in the alcohol period than in the control period, but these changes were not correlated with the changes in BP. Levels of aldosterone, cortisol, atrial natriuretic peptide, prostaglandin (PG) E2, 6-keto-PGF1 alpha, beta-endorphin, and cyclic GMP were not significantly different between the alcohol and the control periods. These results suggest that changes in pressor hormones may not contribute to the acute hypotensive effect of alcohol, and that the sympathetic nervous system is activated by the BP reduction. The levels of the depressor hormones measured also appear to play no role in alcohol-induced hypotension.
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PMID:Pressor and depressor hormones during alcohol-induced blood pressure reduction in hypertensive patients. 895 4

The amiloride-sensitive epithelial Na+ channel is formed by the assembly of three homologous subunits alpha, beta and gamma. The channel is characterized by its sensitivity to amiloride and to some amiloride derivatives, such as phenamil and benzamil, by its small unitary conductance (approximately 5pS), by its high selectivity for lithium and sodium, and by its slow kinetics. The alpha, beta, and gamma proteins share significant identity with degenerins, a family of proteins found in the mechanosensory neurons and interneurons of the nematode Caenorhabditis elegans. They are also homologous to FaNaCh, a protein from Helix aspersa nervous tissues, which corresponds to a neuronal ionotropic receptor for the Phe-Met-Arg-Phe-amide peptide. All these proteins contain a large extracellular loop, located between two transmembrane alpha-helices. The NH2 and COOH terminal segments are cytoplasmic, and contain potential regulatory segments that are able to modulate the activity of the channel. In Liddle syndrome, in which patients develop a form of genetic hypertension, mutations within the cytoplasmic COOH terminal of the beta and gamma chains of the epithelial Na+ channel lead to a hyper-activity of the channel. Epithelial Na+ channel activity is tightly controlled by several distinct hormonal systems, including corticosteroids and vasopressin. In kidney and colon, aldosterone is the major sodium-retaining hormone, acting, by stimulation of Na+ reabsorption through the epithelium. In the distal colon from steroid-treated animals, a large increase of the beta and gamma subunits transcription is observed, whereas the alpha subunit remains constitutively transcribed. In kidney, RNA levels of the three subunits are not significantly altered by aldosterone, suggesting that other mechanisms control Na+ channel activity in that tissue. In lung, the glucocorticoids are the positive regulators of the channel activity, especially around birth, and act via an increased transcription of the three subunits.
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PMID:[The amiloride sensitive sodium channel]. 901 66

The activity of the epithelial sodium channel (ENaC) in the distal nephron is regulated by an antidiuretic hormone, aldosterone, and insulin, but the molecular mechanisms that mediate these hormonal effects are mostly unknown. We have investigated whether aldosterone, insulin, or activation of protein kinases has an effect on the phosphorylation of the channel. Experiments were performed in an epithelial cell line generated by stable cotransfection of the three subunits (alpha, beta, and gamma) of ENaC. We found that beta and gamma, but not the alpha subunit, are phosphorylated in the basal state. Aldosterone, insulin, and protein kinases A and C increased phosphorylation of the beta and gamma subunits in their carboxyl termini, but none of these agents induced de novo phosphorylation of alpha subunits. Serines and threonines but not tyrosines were found to be phosphorylated. The results suggest that aldosterone, insulin, and protein kinases A and C modulate the activity of ENaC by phosphorylation of the carboxyl termini of the beta and gamma subunits.
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PMID:In vivo phosphorylation of the epithelial sodium channel. 950 Dec 57

1. The effect of externally applied ATP on cytosolic free Ca2+ concentration ([Ca2+]i) was tested in single isolated rat neurohypophysial nerve terminals by fura-2 imaging. The release of vasopressin (AVP) and oxytocin (OT) upon ATP stimulation was also studied from a population of terminals using specific radioimmunoassays. 2. ATP evoked a sustained [Ca2+]i increase, which was dose dependent in the 1-100 microM range (EC50 = 4.8 microM). This effect was observed in only approximately 40 % of the terminals. 3. Interestingly, ATP, in the same range (EC50 = 8.6 microM), evoked AVP, but no significant OT, release from these terminals. 4. Both the [Ca2+]i increase and AVP release induced by ATP were highly and reversibly inhibited by suramin, suggesting the involvement of a P2 purinergic receptor in the ATP-induced responses. Pyridoxal-5-phosphate-6-azophenyl-2',4'-disulphonic acid (PPADS), another P2 purinergic receptor antagonist, strongly reduced the ATP-induced [Ca2+]i response. 5. To further characterize the receptor, different agonists were tested, with the following efficacy: ATP = 2-methylthio-ATP > ATP-gamma-S > alpha, beta-methylene-ATP > ADP. The compounds adenosine, AMP, beta, gamma-methylene-ATP and UTP were ineffective. 6. The ATP-dependent [Ca2+]i increase was dependent on extracellular Ca2+ concentration ([Ca2+]o). Fluorescence-quenching experiments with Mn2+ showed that externally applied ATP triggered a Mn2+ influx. The ATP-induced [Ca2+]i increase and AVP release were independent of and additive to a K+-induced response, in addition to being insensitive to Cd2+. The ATP-induced [Ca2+]i increase was strongly reduced in the presence of Gd3+. These results suggest that the observed [Ca2+]i increases were elicited by Ca2+ entry through a P2X channel receptor rather than via a voltage-dependent Ca2+ channel. 7. We propose that ATP, co-released with neuropeptides, could act as a paracrine-autocrine messenger, stimulating, via Ca2+ entry through a P2X2 receptor, the secretion of AVP, in particular, from neurohypophysial nerve terminals.
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PMID:ATP-evoked increases in [Ca2+]i and peptide release from rat isolated neurohypophysial terminals via a P2X2 purinoceptor. 967 66

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