Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pithed rats were used to compare the abilities of vasopressin and NG-nitro-L-arginine methyl ester (L-NAME) to prevent the early (1 h after starting an endotoxin infusion) E. coli endotoxin-induced impairment of pressor responsiveness to noradrenaline, cirazoline, BHT 933 and to sympathetic stimulation (T8). L-NAME increased arterial blood pressure and augmented pressor responses to noradrenaline and to sympathetic nerve stimulation to a similar degree in control and endotoxin-treated rats. The response to the alpha 1-adrenoceptor agonist cirazoline was augmented by L-NAME in endotoxin-treated rats only, whereas the response to the alpha 2-adrenoceptor agonist BHT 933 was unaffected. Vasopressin (0.64 I.U. kg-1 h-1) prevented the hypotension that resulted from endotoxin administration and produced a similar increase in blood pressure to that produced by L-NAME. This dose of vasopressin also augmented pressor responses to noradrenaline and sympathetic nerve stimulation similarly in both control and endotoxin-treated rats. Sodium nitroprusside, in a dose that mimicked the degree of hypotension caused by endotoxin, also impaired pressor responsiveness to cirazoline; this impairment was prevented by co-infusion of vasopressin. Thus the effects of L-NAME in preventing the early phase of endotoxin-induced impairment of vascular responsiveness may be related to its hypertensive properties, due to inhibition of the constitutive form of nitric oxide synthase, rather than inhibition of endotoxin-induced nitric oxide synthase. These data suggest that early endotoxin-induced impairment of vascular reactivity probably involves factors other than nitric oxide. The well documented effect of endotoxin in inducing nitric oxide synthase probably explains the later, more sustained loss of vascular responsiveness.
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PMID:Modification of alpha-adrenoceptor-mediated pressor responses by NG-nitro-L-arginine methyl ester and vasopressin in endotoxin-treated pithed rats. 128 May 96

Old concepts of an "inert" vascular endothelium have been entirely discredited. It is now known that the vascular endothelium and media form a "functional unit", communicating via both electric and humoral signals. Normal endothelium maintains vascular dilation through release of various dilatory substances, the main one being endothelial relaxing factor (EDRF), which is nitric oxide (NO). EDRF is, for example, released in response to increased shear stress that accompanies high flow rates, and acts by engaging the cyclic GMP system of smooth muscle cells. Even potential vasoconstrictors such as vasopressin, catecholamines and serotonin release EDRF. Endothelial release of prostacyclin supplements the EDRF action. EDRF (and prostacyclin) also inhibit platelet aggregation. In the presence of hypertension and/or atherosclerosis, endothelial function is often impaired and pressor/thrombogenic factors such as endothelin, thromboxane, vasopressin, catecholamines, and serotonin become more dominant. Antihypertensive therapy should, ideally, seek to restore endothelial function to normal.
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PMID:Hypertension and endothelial function--aspects of atheroma protection. 134 64

The role of endothelium-derived nitric oxide (EDRF/NO) for control of systemic and regional vascular resistances and for regulation of neurohumoral systems was investigated by studying the effects of the inhibitor of EDRF/NO-synthesis NG-nitro-L-arginine (L-NNA; 5 mg/kg) in six conscious dogs. L-NNA increased mean arterial pressure by an increase in total peripheral resistance, increased renal vascular, and total pulmonary resistances and reflexly decreased heart rate and cardiac output. Renal plasma flow, urine flow, and urinary sodium excretion were reduced, glomerular filtration rate was not affected. These changes were reversed by additional treatment with L-arginine (150 mg/kg). Plasma concentrations of renin, norepinephrine, vasopressin, and atrial natriuretic peptide were not changed by L-NNA. Our conclusions were that basal release of EDRF/NO plays an important physiologic role for control of systemic and regional vascular resistances, thereby controlling blood pressure, organ blood flow, and function. Neurohumoral systems are not affected by the inhibition of EDRF/NO synthesis and do not contribute to the observed vasoconstriction.
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PMID:Inhibition of synthesis of endothelium-derived nitric oxide in conscious dogs. Hemodynamic, renal, and hormonal effects. 134 12

1 We have determined the dermal microvascular effects of the nitric oxide (NO) synthase inhibitor, NG-nitro-L-arginine methyl ester (L-NAME, 100 nmol/site), endothelin-1 (ET-1, 0.1-10 pmol/site) and ET-3 (0.1-30 pmol/site) in rats with streptozotocin (STZ)-induced diabetes mellitus. Cutaneous blood flow changes as measured by a 133xenon (133Xe) clearance technique, were determined in diabetic rats four weeks after treatment with streptozotocin (STZ) and compared with responses measured in normal rats four weeks after treatment with saline. 2 Resting skin blood flow was similar in diabetic and in normal rats, as measured by 133Xe clearance and laser Doppler flowmetry. 3 Intradermal NG-nitro-L-arginine methyl ester (L-NAME) reduced skin blood flow in normal rats by 55.2 +/- 2.6% as measured by 133Xe clearance, (n = 9). L-NAME was significantly less effective in diabetic rats, inducing a 40.9 +/- 7.7% decrease in blood flow (n = 9, P less than 0.05). The enantiomer D-NAME had no effect in either group of rats. 4 Low doses of ET-1 and ET-3 injected intradermally induced dose-dependent decreases in blood flow, measured by 133Xe clearance, which were similar in both groups of rats. However, the responses to the highest doses of ET-1 (10 pmol/site) and ET-3 (10 and 30 pmol/site) were significantly reduced in the diabetic compared with the normal rats (P less than 0.05).In addition vasoconstriction to the highest doses of vasopressin (0.3 and 3 pmol/site) and vasodilatation to the neuropeptide calcitonin gene-related peptide (CGRP, 1O pmol/site) were similarly reduced in the diabetic rats (P <0.05).5. The decrease in blood flow induced by submaximal doses of ET-1 was enhanced by co-injection with L-NAME (100 nmol/site) in both diabetic and normal rats. However, this enhanced response was significantly reduced in the diabetic rats (P<0.05). A similar pattern of responses were observed to ET-3 in the presence and absence of L-NAME.6. These results indicate that the cutaneous microvasculature of rats with STZ-induced diabetes responds differently to intradermal ET-1 and ET-3 compared with normal rats; a similarly altered vascular reactivity was observed with vasopressin and CGRP. Hence, the diabetic microcirculation has impaired responses to several vasoconstrictors and a vasodilator. The effect of the nitric oxide synthase inhibitor L-NAME is also suppressed in the diabetics, suggesting that there may be decreased local production of, or response, to nitric oxide.
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PMID:Altered microvascular reactivity to endothelin-1, endothelin-3 and NG-nitro-L-arginine methyl ester in streptozotocin-induced diabetes mellitus. 139 77

1. Male, homozygous Brattleboro (i.e. vasopressin-deficient) rats were chronically instrumented with pulsed Doppler flow probes and intravascular catheters, and were studied 5 h after a subcutaneous injection of an hyperoncotic solution of polyethylene glycol to render them hypovolaemic, and hence dependent on the renin-angiotensin system for maintenance of haemodynamic status. Pilot experiments showed that, in this model, primed infusion of perindoprilat (0.05 mg kg-1 bolus, 0.05 mg kg-1 h-1 infusion) or captopril (0.2 mg kg-1 bolus, 0.2 mg kg-1 h-1 infusion) just abolished the pressor effect of angiotensin I (120 pmol), and had similar initial hypotensive and renal hyperaemic vasodilator effects. 2. Perindoprilat had more sustained hypotensive, and mesenteric and hindquarters vasodilator effects than captopril in the presence of saline. In the presence of NG-nitro-L-arginine methyl ester (L-NAME 3 mg kg-1 h-1), the renal vasodilator effects of perindoprilat were unchanged, whereas the other haemodynamic effects of perindoprilat and captopril were reduced. Hence, in the presence of L-NAME, all haemodynamic effects of perindoprilat were greater than those of captopril. 3. The renal hyperaemic vasodilator effects of acetylcholine were abolished by L-NAME and by perindoprilat, and were markedly reduced by captopril. However, since perindoprilat and captopril caused such marked renal hyperaemic vasodilatation themselves, it is feasible this change in baseline status contributed to their effects. It is unlikely this could be a full explanation of the results, because the haemodynamic effects of lemakalim were unchanged under any experimental conditions. 4. Bradykinin alone, or in the presence of saline, caused mesenteric hyperaemic vasodilatation whereas, in the presence of perindoprilat or captopril, bradykinin caused marked renal and mesenteric vasoconstrictions. However, in the additional presence of L-NAME, the mesenteric vasoconstriction was reduced, yet the hypotensive effect of bradykinin was augmented. One possible explanation of these observations is that, in the presence of L-NAME and either perindoprilat or captopril, bradykinin caused marked coronary vasoconstriction, leading to a reduction in cardiac output. 5. Neither perindoprilat nor captopril impaired the pressor, or renal, mesenteric, or hindquarters vasoconstrictor effects of L-NAME. Indeed, in their presence, the effects of L-NAME were generally enhanced, consistent with perindoprilat and captopril causing activation of nitric oxide-dependent mechanisms that were subsequently inhibited by L-NAME.
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PMID:Involvement of nitric oxide in the regional haemodynamic effects of perindoprilat and captopril in hypovolaemic Brattleboro rats. 146 39

1. The response of the cutaneous microvasculature to intradermal injection of the endothelins (ET-1, ET-2 and ET-3) and the modulatory effect of endogenously produced nitric oxide (NO) have been determined in the rat. 2. Intradermal injection of endothelins (0.1- 10 pmol/site) induced dose-dependent local reductions in blood flow, measured by 133xenon clearance, with the following potency order; ET-1 = ET-2 greater than ET-3. 3. Laser Doppler blood flowmetry established that ET-1 (10 pmol/site) significantly (P less than 0.05) reduced microvascular blood flow for 3 h after injection. Over a wide dose-range, the response to the endothelins did not include any vasodilatation or visible flare. 4. A possible modulatory role of locally-produced NO was investigated by the intradermal injection of the potent inhibitor of NO generation NG-nitro-L-arginine methyl ester (L-NAME). L-NAME (100 nmol/site) injected alone induced a significant decrease in blood flow. The vasoconstriction induced by L-NAME was partially reversed by L-arginine (P less than 0.05) but not observed with NG-nitro-D-arginine methyl ester (D-NAME). 5. L-NAME significantly (P less than 0.05) enhanced the decrease in blood flow induced by submaximal doses of ET-1, ET-2 and ET-3 and vasopressin, although the results do not suggest that any of the vasoconstrictors stimulate NO release. The response to L-NAME was still observed 3.5 h after inducing a prolonged constriction with ET-1 (10 pmol/site).6. These results indicate that locally produced NO maintains a dilator tone in the cutaneous microvasculature of the rat and acts to modulate the effect of vasoconstrictors such as endothelins. Hence, it is suggested that in conditions where endogenous NO release is reduced, vasoconstrictor agents such as the endothelins could induce a dangerous decrease in blood flow possibly leading to ischaemia and tissue necrosis.
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PMID:Responses to endothelins in the rat cutaneous microvasculature: a modulatory role of locally-produced nitric oxide. 150 57

Desmopressin acetate (DDAVP) is a synthetic analogue of vasopressin used to promote hemostasis and reduce postoperative blood loss. Desmopressin acetate can cause hypotension in humans. Our study evaluated the hemodynamics of rapid administration of DDAVP into the isolated hindlimb in live rats and assessed this response after pretreatment with various antagonists. Thirty male Sprague-Dawley rats (350-450 g) were given intraperitoneal pentobarbital anesthesia (50 mg/kg). Perfusion was set at a rate that gave a control mean hindlimb perfusion pressure (HPP) of 100-120 mm Hg. Rats were assigned to five groups (N = 5, each group), with each rat serving as its own control. As a control, saline solution (in volumes equivalent to those used for the antagonists) was injected into the hindlimb preparation before the agonist injections. Each group received both the clinical preparation of DDAVP (i.e., with preservative) and a laboratory preparation of DDAVP in doses of 0.3-3 ng. Group 1 was tested before and after injection of saline solution control; group 2, before and after propranolol (0.5 mg/kg); group 3, before and after meclofenamate (1.5 mg/kg), a cyclooxygenase inhibitor; group 4, before and after nitroarginine (5 mg/kg) an inhibitor of nitric oxide synthesis; and group 5, before and after atropine sulfate (1 mg/kg). Chlorobutanol (25-75 micrograms), the preservative in the clinical preparation of DDAVP, was tested for changes in HPP in five rats similarly prepared. Systemic mean arterial pressure remained constant during the study. The HPP decreased with increasing doses of the clinical preparation of DDAVP, compared with saline solution controls, whereas no change occurred with the laboratory preparation of DDAVP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of desmopressin acetate on hindlimb perfusion pressure in rats: what is the mechanism? 151 Feb 63

Inhibitors of nitric oxide (NO) synthesis increase blood pressure and decrease regional blood flow. We investigated whether blockade of the renin-angiotensin, sympathetic nervous, prostaglandin or vasopressin systems attenuates the effects of the NO synthesis inhibitor NG-nitro-L-arginine (L-NOARG) on mean arterial pressure and renal blood flow in anesthetized male Sprague-Dawley rats. Treatment with L-NOARG (10 mg kg-1, i.v. bolus plus infusion at 20 mg kg-1 hr-1) increased mean arterial pressure from 113 +/- 2 to 133 +/- 4 mm Hg, decreased renal blood flow from 7.7 +/- 0.6 to 4.3 +/- 0.6 ml min-1 g-1 and increased renal vascular resistance from 15.8 +/- 1.8 to 36.9 +/- 6.1 mm Hg/ml min-1 g-1. These effects were attenuated in rats pretreated with L-arginine to interfere with the inhibitory action of L-NOARG on NO synthesis, but not in rats pretreated with D-arginine. Acetylcholine did not relax aortic rings taken from rats treated with L-NOARG, consistent with inhibition of NO-mediated vasorelaxation. The pressor and renal vasoconstrictor effects of L-NOARG were not impaired in rats separately pretreated with either chlorisondamine, captopril, prazosin, indomethacin or d(CH2)5Tyr(Me)AVP, or in rats pretreated with chlorisondamine, captopril and indomethacin in combination. Collectively, these data argue against significant contribution of the sympathetic nervous system, the renin-angiotensin system, vasopressor prostanoids or vasopressin to the mechanisms of L-NOARG-induced elevation of mean arterial pressure and renal vasoconstriction in anesthetized rats.
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PMID:Pressor and renal vasoconstrictor effects of NG-nitro-L-arginine as affected by blockade of pressor mechanisms mediated by the sympathetic nervous system, angiotensin, prostanoids and vasopressin. 156 Mar 71

Increased levels of circulating vasodilators have been claimed to be the causative factor in the hyporesponsiveness to endogenous vasopressors in portal hypertension. To investigate whether this hyporeactivity to vasopressors is also present in an in vitro system perfused with a synthetic medium, the responsiveness to graded concentrations of norepinephrine, arginine-vasopressin, and potassium chloride was tested in perfused superior mesenteric arterial beds of normal rats and rats with portal hypertension induced by partial portal vein ligation (PVL). The same vasopressors were tested after incubation of vessel preparations with the stereo-specific nitric oxide formation inhibitor N omega-nitro-L-arginine (NNA, 10(-4) mol/L). Vessel preparations of PVL compared with normal rats (n = 8 per group and vasopressor) expressed a significant (P less than 0.05) hyporeactivity to norepinephrine, arginine-vasopressin, and potassium chloride over a wide range of concentrations. This hyporesponsiveness was overcome by preincubating vessel preparations with NNA. In summary, portal hypertension is accompanied by a significant in vitro hyporeactivity of splanchnic vessels to norepinephrine, arginine-vasopressin, and potassium chloride, and secretion of nitric oxide in this preparation seems responsible for this blunted response.
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PMID:Nitric oxide mediates hyporeactivity to vasopressors in mesenteric vessels of portal hypertensive rats. 161 31

Systemic hypoxia, produced in deeply anesthetized, paralyzed rats in which arterial chemoreceptors were denervated, elicited a decrease in arterial pressure (AP) averaging -47 mmHg. Systemic administration of NG-nitro-L-arginine (L-NO2Arg), an inhibitor of nitric oxide (NO) synthase, attenuated the hypoxic depressor response by 79% and elevated AP by 21 mmHg. The effects of L-NO2Arg on the hypoxic depressor response and arterial pressure were reversed by systemic administration of L- but not D-arginine. Elevation of AP with arginine-vasopressin or reduction of AP with nitroprusside to the pre-L-NO2Arg levels did not modify the fall of AP to hypoxia. Endogenous NO synthesized in vivo from L-arginine, mediates most of the hypoxic depressor response.
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PMID:Evidence nitric oxide mediates the vasodepressor response to hypoxia in sino-denervated rats. 173 26


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