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)

Angiotensin II binding sites were demonstrated at discrete nuclei in the brain of three nonhuman primate species by autoradiography, using the agonist ligand, [Sar1]AII. Although there were some differences in location of the binding sites, all three species exhibited a characteristic pattern of distribution in areas related to water intake, vasopressin secretion, and blood pressure regulation through modulation of sympathetic activity. Studies in the cynomolgus monkey with the antagonist ligand, [Sar1,Ile8]AII, which localizes in pathways as well as nuclei, revealed novel regions of binding including the habenular-interpeduncular pathway, ventral bundle, and XII nerve, in addition to the X nerve. These data indicated that AII, as in other species, has a role in the central homeostatic control mechanisms in the primate.
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PMID:Distribution of angiotensin II receptors in the brain of nonhuman primates. 211 79

A comparison was made of the vascular actions of two hormones having a renal site of action, angiotensin II and vasopressin, using laser Doppler flowmetry to measure perfusion of the cortical and papillary regions of the kidney. Angiotensin II infusion caused dose-related increases in blood pressure and reductions in cortical perfusion, the latter responses being potentiated in the presence of the converting enzyme inhibitor, cilazapril. However, angiotensin II had no effect on papillary perfusion either before or following cilazapril. The reasons for this differing vasoconstrictor ability of angiotensin II at the cortex and papilla are unclear, but it could be due to medullary generation of prostaglandin or bradykinin. Administration of equipressor doses of vasopressin caused graded reductions in both cortical and papillary perfusions, and subsequent cilazapril significantly enhanced the papillary responses. This study demonstrates that the regulation of blood flow through the different regions of the kidney can be differentially regulated by the peptide hormones angiotensin II and vasopressin.
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PMID:The effect of angiotensin II and vasopressin on renal haemodynamics. 214 94

A 62-year-old man with pneumonia and left flank pain had a clinical syndrome of hyponatremia, hypotension, dehydration, and high urinary sodium excretion in the presence of a normal glomerular filtration rate. The plasma level of antidiuretic hormone was relatively high despite decreased serum osmolality. Thyroid function and excretion of glucocorticoid and sex steroids were normal. The serum aldosterone level was very low despite elevated plasma renin activity. Angiotensin II failed to stimulate any secretion of aldosterone, despite the occurrence of a progressive rise in blood pressure. On the other hand, rapid ACTH administration increased both serum aldosterone and cortisol. The patient showed no effective response to increased salt intake, but large doses of mineralocorticoid resulted in a normal serum sodium level without dehydration. Subsequently, he suffered cardiac arrest secondary to ventricular tachycardia. Postmortem examination showed well differentiated adenocarcinoma in the left pleura and an intact, histologically normal adrenal zona glomerulosa and kidney. This is the first reported case of a critically ill patient with hyponatremia caused by hyperreninemic hypoaldosteronism possibly due to angiotensin II insensitivity and tubular unresponsiveness to mineralocorticoid.
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PMID:Hyponatremia and hyperreninemic hypoaldosteronism in a critically ill patient: combination of insensitivity to angiotensin II and tubular unresponsiveness to mineralocorticoid. 217 79

Preeclampsia is characterized by increased vascular sensitivity to Angiotensin II, endothelial damage, and arteriolar spasm. We hypothesize that these events may be initiated by stimulation of V1 receptors. V1 receptors are normally activated by vasopressin. However, V1 receptors may be activated by the nonapeptide formed when vasopressin is metabolized by the placental enzyme--vasopressinase. This enzyme, found only in humans, cleaves the ring structure of vasopressin, but leaves the N-terminal end, the locus of pressor activity, intact. The resulting molecule, vasopressinase altered vasopressin (VAV), may be present in greater concentration in preeclamptic women and over the months of the second trimester initiate the cascade of pathophysiologic changes resulting in toxemia.
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PMID:A proposed relationship between vasopressinase altered vasopressin and preeclampsia. 219 37

Stimulation of the renin angiotensin system, catecholamines and antidiuretic hormone causes prominent vasoconstriction in severe heart failure. Angiotensin converting enzyme inhibitors reverse these effects, and thus ameliorate cardiac function and reduce mortality in severe heart failure. Angiotensin II is an important regulator of renal function in diseases with renal hypoperfusion, and treatment with angiotensin converting enzyme inhibitors may cause a serious decrease in glomerular filtration and hyperkalemia. Asymptomatic heart failure, acute heart failure and acute myocardial infarction are areas where angiotensin converting enzyme inhibitors may prove beneficial in the future.
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PMID:[Treatment of heart failure with angiotensin converting enzyme inhibitors]. 221 71

Experiments were performed in anesthetized rats to examine the effect of an intravenous infusion of norepinephrine or vasopressin on the tubuloglomerular feedback (TGF) response of stop flow pressure (PSF). During infusion of norepinephrine at an average rate of 107.5 ng/kg min, mean femoral arterial pressure (MAP) increased from 102.1 +/- 3.55 to 113.7 +/- 3.44 mm Hg and PSF-max increased from 7.45 +/- 1.13 to 9.95 +/- 1.19 mm Hg. When MAP was returned to control by a suprarenal aortic clamp PSF-max was 5.64 +/- 1.09 mm Hg (NS vs. control). Similarly, at an infusion rate of 226.5 ng/kg min PSF-max was not significantly different from control (6.79 +/- 1.61 mm Hg). V1/2, the half-maximum flow rate, was not altered by norepinephrine whether MAP increased or was kept constant. Infusion of vasopressin at the pressor dose of 13.0 mU/kg min increased MAP by about 25 mm Hg and raised PSF-max from 6.56 +/- 0.84 to 14.45 +/- 1.54 mm Hg. However, when MAP was returned to normal PSF-max was 5.41 +/- 0.75 mm Hg (NS). Our data show that in contrast to angiotensin II, norepinephrine and vasopressin do not augment TGF responses when a rise in MAP is prevented. Angiotensin II appears to play a specific role in altering the sensitivity of the TGF mechanism.
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PMID:Effect of angiotensin and other pressor agents on tubuloglomerular feedback responses. 225 82

We studied trophic effects of angiotensin II, vasopressin and oxytocin on explanted ventral spinal cord cultures derived from 13 to 14-old day rat embryos. There was a significant neurite promoting effect in angiotensin II and vasopressin-treated cultures. Angiotensin II had the most potent effect at any concentrations. It became clear that minimum effective concentration was 10(-8)M in both angiotensin II and vasopressin. However, oxytocin had no neurotrophic effect at any concentrations. Our results demonstrated that angiotensin II and vasopressin have a neurotrophic effect on ventral spinal cord in cultures, and may contribute to therapeutic strategy of amyotrophic lateral sclerosis.
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PMID:[Trophic effect of angiotensin II, vasopressin and oxytocin on the ventral spinal cord of rat embryo]. 227 65

Cisplatin-containing chemotherapy regimens are known to produce intense nausea and vomiting. Angiotensin II (AII) and vasopressin (AVP) have been shown to have emetic properties. The role of these two peptides on cisplatin-induced vomiting was investigated in beagle dogs. Cisplatin (2 mg/kg, IV over 5 min) produced consistent emesis in all dogs after a mean latency time of 144 +/- 4 min. Serum Angiotensin Converting Enzyme (ACE) and plasma AII levels did not significantly change 3 hr after cisplatin administration (at the time of nausea and emesis) in control animals. AVP levels rose from 0.3 pg/ml to 7.5 pg/ml 3 hrs after cisplatin. Complete inhibition of ACE with enalapril (given at 3 mg/kg p.o., 3 hrs prior to cisplatin) reduced AII levels by 70%, but failed to significantly modify the increase in AVP levels (7.2 +/- 2.2 pg/ml), the latency time to emesis (149 +/- 2 min) and the number of emetic episodes induced by cisplatin. These results suggest that AII does not mediate cisplatin-induced emesis, nor does it mediate the increase in AVP observed at the time of emesis. We propose that AVP may be a good marker for nausea and emesis, and that increases in AVP may be neurally-mediated. The large increase in circulating AVP may represent a desirable water conservation response in anticipation of fluid losses induced by vomiting.
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PMID:Role of angiotensin II and vasopressin in cisplatin-induced emesis. 231 91

The renin-angiotensin system has a range of physiological actions concerned with the control of the circulation. Angiotensin II has both an immediate and a delayed pressor effect; it stimulates the secretion of aldosterone and antidiuretic hormone, promotes thirst, stimulates the sympathetic nervous system at various sites while inhibiting vagal tone, and has a range of direct effects on the kidney. Several aspects of this range of actions can become deranged in a number of forms of hypertension as well as in congestive cardiac failure. Hence much effort has been directed in recent years to the development of agents designed to interfere with the renin-angiotensin system and to apply these clinically in the treatment of hypertension and congestive cardiac failure. Orally active converting enzyme inhibitors are of proven benefit not only in renovascular hypertension, but also, when combined with loop diuretics, in the treatment of intractable hypertension as well as, both alone and in combination with thiazide diuretics, in the treatment of essential hypertension. In congestive cardiac failure controlled trials have shown that converting enzyme inhibitors can improve exercise tolerance while diminishing lassitude, correct potassium deficiency, and limit ventricular arrhythmias. Energetic efforts are being made to develop orally active inhibitors of the enzyme renin itself, since these should be more specific in action than the presently available and very successful converting enzyme inhibitors.
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PMID:Circulatory basis for the use of angiotensin converting enzyme inhibitors in hypertension and cardiac failure. 242 88

The rat adipocyte contains two separate mechanisms for prostaglandin (PG) production. Norepinephrine stimulates prostacyclin (PGI2) and PGE2 production and triglyceride lipolysis in isolated rat adipocytes. In contrast, the vasoactive peptides angiotensin II, vasopressin, and bradykinin stimulate PGI2 production, but not PGE2 production or triglyceride lipolysis, in these cells. In this study, we characterized the two separate mechanisms of PG production with respect to the time course, the role of cAMP, the identity of the adrenergic receptor, and the effects of insulin and glucocorticoids. Angiotensin II stimulated PGI2 production rapidly (at 5 min) and independently of cAMP. beta-Adrenergic stimulation with isoproterenol produced a rapid 11-fold increase in the cAMP concentration and stimulated PGI2 production more slowly (at 120 min). The phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine (0.2 and 0.5 mM) and the adenylate cyclase activator forskolin (10 microM) also stimulated cAMP production rapidly and PGI2 production more slowly. 1-Methyl-3-isobutylxanthine (5.0 mM) further stimulated cAMP levels, but prevented the increase in PGI2 production and blunted the increase in glycerol release seen at lower concentrations. beta-Adrenergic blockade with propranolol or timolol completely inhibited the norepinephrine- or isoproterenol-stimulated production of PGI2 and triglyceride lipolysis, respectively. Insulin selectively inhibited isoproterenol-stimulated PGI2 production and triglyceride lipolysis at physiological concentrations, but had no effect on angiotensin II-stimulated PGI2 production. In contrast, dexamethasone inhibited PGI2 production induced by both isoproterenol and angiotensin II. We conclude that: angiotensin II stimulates PGI2 production rapidly and independently of cAMP, but isoproterenol stimulates PGI2 production more slowly, an effect that is cAMP dependent; insulin inhibits the cAMP-dependent beta-adrenergic stimulation of PGI2 production (and triglyceride lipolysis), but not the cAMP-independent angiotensin II-induced stimulation of PGI2 production (this suggests that the former effect is mediated by a decrease in cAMP levels in the adipocyte); and dexamethasone inhibits both mechanisms of PGI2 production. Both mechanisms of PGI2 production by rat adipocytes are exquisitely sensitive to hormonal regulation.
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PMID:Prostacyclin production by isolated rat adipocytes: evidence for cyclic adenosine 3',5'-monophosphate-dependent and independent mechanisms and for a selective effect of insulin. 242 31

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