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)

The development of hypertension in the spontaneously hypertensive rat (SHR) is associated with renal dysfunction; the observed renal vasoconstriction may reflect an imbalance of constrictor and dilator systems. The present studies evaluated renal vascular reactivity to arginine vasopressin (AVP) and mediation by V1 and/or V2 receptors. Renal blood flow (electromagnetic flowmetry) was measured in water-loaded, 8-wk-old SHR, Wistar-Kyoto rats (WKY), and Munich-Wistar rats. Injection of AVP (2 and 5 ng) into the renal artery caused dose-dependent renal vasoconstriction. The maximum blood flow response was approximately twofold larger in SHR than both normotensive strains. The strain difference was largely unaffected by indomethacin administration, although the reduction in blood flow produced by 5 ng AVP was 4-6% larger in both SHR and WKY during cyclooxygenase inhibition. The V1 receptor antagonist, [D-(CH2)5,Tyr(Me)2,Tyr(NH2)9]Arg8-vasopressin, blocked up to 90% of the renal vasoconstriction elicited by AVP. Intrarenal injection of the V1-receptor agonist [Phe2,Ile3,Org8]vasopressin produced renal hemodynamic effects similar to AVP; this agonist reduced renal blood flow, with twofold larger responses in SHR (-40 vs. -18% for 10 ng). In contrast, similar doses of the V2-receptor agonist 1-desamino-8-D-arginine vasopressin had no effect. These results indicate that AVP-induced vasoconstriction is mediated predominantly by the V1 receptor in the rat kidney. The enhanced vascular reactivity in 8-wk-old SHR may reflect an increased V1 receptor density and/or affinity or postreceptor signaling pathways, largely independent of buffering by the vascular V2 receptor or vasodilator prostaglandin activity. The strain difference in the vascular response to AVP may contribute to the renal vasoconstriction observed during the development of genetic hypertension.
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PMID:Enhanced renal vasoconstriction induced by vasopressin in SHR is mediated by V1 receptors. 877 Jan 61

The renal vascular effects of [Arg8]vasopressin (vasopressin) were investigated in the isolated perfused rat kidney. Vasopressin (0.01-3 nM) elicited a dose-dependent vasoconstriction in kidneys from Sprague Dawley rats, with a EC50 value of 0.206 +/- 0.044 nM. Inhibition of nitric oxide synthase by N omega-nitro-L-arginine (100 microM) shifted the vasopressin-induced vasoconstrictor response curve to the left. Inhibition of cyclooxygenase by indomethacin (10 or 30 microM) blunted the constriction induced by low concentrations of the peptide. Vasopressin, like angiotensin II but not noradrenaline, induced tachyphylaxis, SR 49059 ((2S)1-[(2R,3S)-5-chloro-3-(2-chlorophenyl)-1-(3,4-dimethoxybenzene- sulfonyl)-3-hydroxy-2,3-dihydro-1H-indole-2-carbonyl]-pyrrolidine-2- carboxamide) (1-30 nM), a new potent and selective non-peptide vasopressin V1A receptor antagonist, shifted the concentration-response curve for vasopressin to the right without decreasing the maximum contraction. Antagonism became competitive with a pA2 value (+/- S.D.) of 9.72 +/- 0.20 during inhibition of nitric oxide release. [Mpa1,D-Arg8]Vasopressin (desmopressin; 0.1-100 nM), or vasopressin (0.01-1 nM) after blockade of the vasopressin V1A receptor by SR 49059, induced no vasopressin V2 receptor-related renal relaxation in kidneys with vascular tone previously restored by noradrenaline or prostaglandin F2 alpha. These findings indicate that in the isolated perfused rat kidney vasopressin is a potent renal vasoconstrictor. The constriction depends on activation of smooth muscle vasopressin V1A receptors and is modulated by endothelial nitric oxide but not by prostacyclin or vasopressin V2 receptor-related vasodilation.
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PMID:Vascular effects of [Arg8]vasopressin in the isolated perfused rat kidney. 895 54

The febrile and neuroendocrine responses to circulating endotoxin are effected, at least in part, by a central action of prostaglandins with interleukins serving as intermediaries. Data from rodents suggest that prostaglandin and interleukin (IL-1 beta) synthesis in response to endotoxin challenge may occur within the circumventricular organs of the brain, especially the choroid plexus; the present study investigated this possibility using the sheep as an experimental model. A pyretic dose of bacterial endotoxin (40 micrograms lipopolysaccharide) was given intravenously to sheep (n = 5) and the effect on gene expression in the choroid plexus after a 40 min interval was compared with that observed in vehicle-treated animals (n = 5) using in situ hybridisation histochemistry. Evidence of activational and synthetic events following endotoxin administration was provided by significant increases in c-fos (P < 0.05) and IL-1 beta (P < 0.01) mRNA expression. Constitutive cyclooxygenase (cox-1 mRNA) and inducible cyclooxygenase (cox-2 mRNA) synthesis were unchanged. The investigation also sought to provide evidence for endotoxin effects on neuroendocrine activity in this species by examining changes in hypothalamic gene expression. The results showed that c-fos mRNA increased in the paraventricular (P < 0.01) and supraoptic (P < 0.05) nuclei and that CRH mRNA was upregulated in the paraventricular nucleus (P < 0.001). However, in agreement with previous work, there was no change in vasopressin gene expression although oxytocin mRNA was enhanced throughout the paraventricular nucleus (P < 0.05). These findings suggest the following: (1) possible involvement of the choroid plexus in the response of sheep to immunological challenge: (2) endotoxin-induced changes in gene expression in the ovine hypothalamus similar in those caused by other stressors: and (3) possible changes in oxytocin synthesis concomitant with fever in the sheep.
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PMID:Bacterial endotoxin-induced gene expression in the choroid plexus and paraventricular and supraoptic hypothalamic nuclei of the sheep. 903 17

The present study was carried out to investigate whether prostaglandins (PG) are involved in the mechanism that contributes to the sex difference in the antidiuretic and pressor actions of vasopressin. The experiments were performed in conscious male and nonestrous female rats. In hydrated rats, the graded infusion of vasopressin (10-1,000 pg.min 1.kg body wt-1) resulted in a dose-dependent antidiuresis: decreases in urine flow and free water clearance and an increase in urine osmolality. These responses were significantly greater in male than in nonestrous female rats. Pretreatment with a cyclooxygenase inhibitor, indomethacin (10 mg/kg body wt iv), significantly enhanced the antidiuretic response to vasopressin in both sexes. However, the magnitude of this enhancement was greater in female than in male rats. Thus indomethacin abolished the sex difference in the antidiuretic response to vasopressin. In a separate experiment in rats without water hydration and urine collection, infusion of pressor doses of vasopressin (1,000-6,000 pg.min-1.kg body wt-1) resulted in a greater increase in blood pressure in male than in nonestrous female rats. Treatment with indomethacin enhanced this response equivalently in both sexes and thus did not affect the sex difference in the pressor action of vasopressin. These data indicate that renal PG may mediate, at least in part, the sex difference in the antidiuretic action of vasopressin, whereas vascular PG seem not to play an important role in the sex difference in the pressor action of vasopressin.
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PMID:Sex differences in the cardiovascular and renal actions of vasopressin in conscious rats. 903 31

We investigated the effects of human calcitonin gene-related peptide (CGRP) on isolated rabbit hearts to evaluate the mechanisms responsible for the vasodilatory action of the peptide on the coronary district, monitoring contemporaneously the effects on left ventricular pressure (LVP) and heart rate (HR). We also evaluated the reactivity of the human internal mammary artery (IMA) to excitatory drugs acting with different mechanisms and the inhibitory response to CGRP in comparison with the commonly used vasodilatory agents. The peptide induced a slight inhibitory effect on the basal coronary perfusion pressure (CPP), whereas it was ineffective on the inotropism and chronotropism. A more detectable coronary vasodilation was evident when CPP was increased by spasmogenic agents [vasopressin, methoxamine, Bay K 8644, and prostaglandin F2 alpha (PGF2 alpha)]. This inhibitory effect was dose dependent (10(-11)-10(-8) M) and apparently not specific, occurring to the same extent on different stimuli. Forskolin (10(-8) M), an adenylate-cyclase activator, and indomethacin (1.4 x 10(-5) M), a cyclooxygenase inhibitor, did not modify the spasmolytic activity of CGRP on precontracted coronary smooth muscle. The experiments performed on the segments of IMA, used for myocardial revascularization of patients affected by coronary diseases, have shown an evident spasmolytic action of CGRP on increased vascular tone induced by KCl (90 mM), noradrenaline (10(-5) M), serotonin (10(-6) M), and angiotensin II (10(-6) M). These inhibitory responses of CGRP on the spasmogenic compounds disappeared when the endothelial function of IMA, validated by the acetylcholine test, was abolished by mechanical ablation. A series of IMA segments was incubated (30 min) with N(G)-monomethil-L-arginine (L-NMMA), which inhibits nitric oxide (NO) synthase. In these experiments, the peptide failed to induce the vasodilation, suggesting that its action may be related to synthesis of NO. All these results show that CGRP is able to induce a potent vasodilatory action on different vessels of humans (internal mammary artery) and animals (rabbit coronary arteries). In particular the data obtained from IMA demonstrated that the vasorelaxant effect was related to synthesis of NO, one of the most studied endothelium-derived relaxing factors (EDRFs).
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PMID:Mechanism of action of human calcitonin gene-related peptide in rabbit heart and in human mammary arteries. 915 55

Although melatonin has been reported to influence neurohypophysial hormone release, no binding has been demonstrated in the neurohypophysial system, suggesting melatonin could affect afferent inputs. The effect of neurotransmitter receptor antagonists on the inhibitory effect of melatonin on neurohypophysial hormone release from the rat hypothalamus in vitro was therefore determined. The agents employed were atropine, a muscarinic cholinergic antagonist; mecamylamine, a nicotinic cholinergic antagonist; atenolol, a beta-adrenergic antagonist; phentolamine, a nonselective alpha-adrenergic antagonist; prazosin, a selective alpha-adrenergic antagonist; haloperidol, a dopaminergic antagonist; naloxone, an opioid antagonist; and ibuprofen, a cyclooxygenase inhibitor. Rat hypothalami were incubated in either medium alone or medium containing melatonin or melatonin and antagonist, and hormone release determined. Melatonin (43 nM) significantly inhibited (p < 0.05) vasopressin and oxytocin release. Inhibition was still observed in the presence of atenolol, phentolamine, and naloxone, suggesting that neither adrenergic nor opioid pathways contribute to the response. The inhibitory effect of melatonin on vasopressin and oxytocin release was abolished (p < 0.05) in the presence of atropine (10[-8] M), mecylamine (10[-6] and 10[-4] M), ibuprofen (10[-4] M) and haloperidol (10[-6] and 10[-5] M). The melatonin-induced inhibition of oxytocin release was also attenuated in the presence of prazosin (10[-8] and 10[-6] M). This study suggests that melatonin may influence neurohypophysial hormone release through modulation of afferent pathways mediated by acetylcholine, dopamine, and/or prostaglandin.
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PMID:Mechanisms of melatonin inhibition of neurohypophysial hormone release from the rat hypothalamus in vitro. 943 2

Alterations of the endothelium may play a role in the generation of cerebral vasospasm. The objective of this study was to investigate the involvement of the endothelium and of endogenous endothelin (ET) on the NG-nitro-L-arginine (L-NOARG)-induced contractions in isolated rat basilar arteries. L-NOARG, NG-nitro-L-arginine methyl esther, and methylene blue, but not D-NOARG, induced concentration-dependent contractions and spontaneous vasomotion. The effect of L-NOARG was reversed by L-arginine and submaximally reduced in de-endothelialized arteries. The contractile effect of L-NOARG was completely suppressed by the ET-antagonists BQ 123 and Ro 46-2005 in a part of the basilar arteries. After washout of the respective antagonist, the L-NOARG-induced contraction started, but was not influenced by a second application of the antagonist. In another part of preparations the antagonists failed to influence the L-NOARG-induced contraction. Inconsistent suppressor effects were also observed after preincubation with ketanserin, Manning compound, losartan, or indomethacin. None of these antagonists reversed the established L-NOARG-induced contraction. Thus, endothelium-derived NO suppresses spontaneous contraction and vasomotion in rat basilar arteries. Endogenous ET, 5-HT, vasopressin, angiotensin or cyclooxygenase metabolites do not cause the contraction induced by inhibition of the NO synthase, but may act as 'trigger factors', that may play a role in rat models of cerebral vasospasm or infarction.
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PMID:Contractions induced by NO synthase inhibition in isolated rat basilar artery: role of the endothelium and endogenous vasoconstrictors. 947 Nov 5

To examine the role of vasopressin V1 and V2 receptors, nitric oxide and prostanoids in the coronary vascular effects of [Arg8]vasopressin, coronary blood flow was measured with an electromagnetic flow transducer placed around the left circumflex (23 goats) or anterior descending (11 goats) coronary artery and vasopressin (0.03-1 microg) was intracoronarily injected in 34 anesthetized, open-chest goats. Basal mean values for coronary blood flow, mean systemic arterial pressure and heart rate, were 34 +/- 2.38 ml/min, 89 +/- 3.34 mmHg and 80 +/- 3.06 beats/min, respectively. Vasopressin produced dose-dependent decreases in coronary blood flow and the maximal reduction of this flow, attained with 1 microg of vasopressin, was 14 +/- 1.49 ml/min (42 +/- 2.64% of basal flow) (P < 0.01). Desmopressin (0.03-1 microg; 8 goats) did not affect significantly coronary blood flow. The intracoronary infusion of the antagonist for vasopressin V1 receptors d(CH2)5Tyr (Me) arginine vasopressin (2 microg/min per kg, 6 animals) significantly diminished the effects of vasopressin on coronary blood flow (the effects of 1 microg of vasopressin were reduced by 28%, P < 0.05). The mixed antagonist for vasopressin V1 and V2 receptors desGly-d(CH2)5-D-Tyr(Et)Val arginine vasopressin (0.2, 0.7 and 2 microg/min per kg, 9 animals) decreased in a dose-dependent manner the effects of vasopressin on coronary blood flow (the effects of 1 microg of vasopressin were decreased by 61% with 2 microg/min per kg, P < 0.01). Intracoronary infusion of saline (vehicle, 3 goats) did not change the effects of vasopressin on coronary blood flow. Intravenous administration of the inhibitor of nitric oxide synthesis N-omega-nitro-L-arginine methyl ester (L-NAME, 47 mg/kg, 9 animals) decreased resting coronary blood flow by 10% (P < 0.01) and augmented mean systemic arterial pressure by 20% (P < 0.01), without changing heart rate. During this treatment the reduction in coronary blood flow produced by vasopressin was higher than under control (the effects of 1 microg of vasopressin were increased by 28%, P < 0.01). Intravenous administration of the inhibitor of cyclooxygenase, meclofenamate (5 mg/kg, 7 animals), neither modified resting coronary blood flow, arterial pressure and heart rate nor the effects of vasopressin on this flow. These data indicate that vasopressin produces marked coronary vasoconstriction and suggest that: (a) it may be mediated by vasopressin V1 receptors, without involvement of vasopressin V2 receptors, (b) it is probably inhibited by nitric oxide under normal conditions and (c) it may be not modulated by prostanoids.
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PMID:Coronary vasoconstriction produced by vasopressin in anesthetized goats. Role of vasopressin V1 and V2 receptors and nitric oxide. 954 90

Although two-way communication between the hypothalamus and the immune system in now well established, particularly for the hypothalamo-pituitary-adrenal axis, the role of the gaseous neurotransmitters nitric oxide (NO) and carbon monoxide (CO) is much less well understood in terms of hypothalamic function. These agents are an important part of the peripheral inflammatory response; and their synthetic enzymes, NO synthase (NOS) and heme oxygenase (HO), respectively, have been localized to the hypothalamic PVN and SON. The induced generation of both NO and CO leads to the suppression of CRH and vasopressin, the major stimulators of the HPA. Thus, the addition of hemin to hypothalamic explants is maximally active at 1 microM in attenuating the release of CRH and vasopressin, and this dose is also most effective in generating biliverdin and associated CO. CO generation is also able to stimulate cyclooxygenase to produce prostaglandin E2, an established intermediary in the cytokine-stimulated activation of the HPA. Finally, inducible NOS mRNA is specifically induced in the hypothalalmus in response to endotoxin, in parallel to interleukin-1. These data provide increasing evidence in favor of NO and CO as counterregulatory agents in the HPA response to immune activation.
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PMID:Acute and subacute effects of endotoxin on hypothalamic gaseous neuromodulators. 962 53

Prostaglandin E2 is the major cyclooxygenase product of arachidonic acid metabolism produced along the nephron. This autacoid interacts with four distinct, G-protein-coupled E-prostanoid receptors designated EP1-EP4. The intrarenal distribution of each receptor has been mapped and the consequences of receptor activation examined. EP3 receptor mRNA is expressed highly in the medullary thick ascending limb (mTAL) and collecting duct (CD). EP3 receptor activation inhibits cAMP generation via Gi, thus inhibiting vasopressin-stimulated water reabsorption in the CD. EP3 receptor activation also may contribute to PGE2-mediated inhibition of NaCl absorption in the mTAL. The EP1 receptor is coupled to increased cell [Ca2+]. EP1 mRNA expression is restricted to the CD, and receptor activation inhibits Na+ absorption. PGE2 also increases cAMP generation in the cortical thick ascending limb and CD; this may be due to EP4 receptor activation. EP4 mRNA is readily detected in the CD with little detectable EP2 expression. The EP4 receptor appears to be expressed both on luminal and basolateral membranes. EP4 receptor activation also may contribute to the regulation of renin release by the juxtaglomerular apparatus. The consequences of renal EP-receptor activation for salt and water balance may be determined by the relative renal expression of each of these receptors.
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PMID:Regulation of renal function by prostaglandin E receptors. 973 61

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