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)

Male Sprague-Dawley rats with unilateral renal artery stenosis and a contralateral untouched kidney develop a malignant hypertension (MH) which is characterized by high blood pressures, sodium and water depletion, and subsequent activation of the renin-angiotensin system. In the present studies we found plasma arginine vasopressin (AVP) concentrations-3-fold higher than those in rats with benign renal hypertension, and 4- to 5-fold higher than those in normotensive control rats. Analysis of individual values showed considerable scatter; about 50% of the values fell in the range of benign hypertensive or control rats. When a specific AVP antiserum was injected, iv, into eight conscious unrestrained MH rats, BP transiently fell toward control values in four; in one, BP fell by only 10 mm Hg, and three other MH rats showed no response. In the same rats, injection of a specific angiotensin II antiserum always induced a transient fall in BP. On the basis of these and previously reported observations, we conclude that, subsequent to sodium and water loss and activation of the renin-angiotensin system, vasopressin release is stimulated in a significant number of MH rats and that, in these rats, vasopressin may cause significant systemic vasoconstriction. Thereby vasopressin may contribute to the development of malignant renal hypertension in rats.
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PMID:Plasma vasopressin concentrations and effects of vasopressin antiserum on blood pressure in rats with malignant two-kidney Goldblatt hypertension. 61 98

Acute renal artery stenosis in hydropenic dogs caused a contralateral increase in urine volume and free water clearance without change in glomerular filtration, renal blood flow, or osmolar clearance. The increase in urine volume was not dependent on the development of hypertension since it occurred in animals pretreated with trimethaphan but was dependent upon angiotensin since it was presented with angiotensin blockade with Saralasin. The effect was not caused by angiotensin inhibiting antidiuretic hormone release since the polyuria occurred in hypophysectomized animals receiving a constant infusion of 10 muU/kg per min of aqueous Pitressin. Since the rise in urine volume was associated with an increase in renal vein prostaglandin E concentration and was prevented by pretreatment with indomethacin (5 mg/kg) the results suggest that the rise in plasma angiotensin after renal artery stenosis causes an increase in contralateral prostaglandin E synthesis with resultant antagonism to antidiuretic hormone at the collecting tubule.
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PMID:Studies of the mechanism of contralateral polyuria after renal artery stenosis. 84 53

We examined whether vasopressin and/or sympathetic vasoconstrictor mechanisms constitute the efferent limb of an afferent renal nerve (ARN)-dependent renal pressor "reflex" produced by acute unilateral renal artery stenosis (RST). Rats that had received sinoaortic denervation (SAD) were implanted with right renal artery occluders and flow probes. After recovery, conscious rats received captopril. Acute RST increased arterial pressure (AP) by 25% and mesenteric and hindquarters resistances by 35 and 51%, respectively. Vasopressin receptor antagonism was without effect on the reflex. Ganglionic blockade (chlorisondamine or trimethaphan) abolished the reflex, as did alfaxalone/alfadolone or urethan-chloralose anesthesia. In an additional study, SAD animals were prepared with chronic T6 spinal cord transection. Increases in AP during RST were unaffected by spinal transection (27 +/- 4 mmHg). However, the increase in hindquarter resistance in the sham-transected animals (57 +/- 12%) was markedly attenuated (19 +/- 4%) in the spinal-transected group. The data suggest that in animals with depressed baroreflexes and renin-angiotensin system responsiveness, acute RST initiates an ARN-dependent pressor reflex with vasoconstrictor nerves comprising the efferent limb of the reflex. The reflex can be integrated at the spinal level and is highly sensitive to anesthesia.
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PMID:Renal pressor reflex: involvement of sympathetic vasoconstrictor mechanisms. 310 58

In 11 hypertensive subjects with unilateral and 8 patients with bilateral renal artery stenosis as well as in 7 hypertensive patients with a so-called small kidney and in 33 normotensive subjects the behaviour of the plasma osmolality, plasma aldosterone and vasopressin level (AVP) as well as of the plasma renin activity (PRA) were estimated twice. First after the supply of a normal salted diet (100-120 mmol NaCl/d) and 8 hr overnight recumbency, and a second time after NaCl restriction (20 mmol NaCl/d) for 3 days and 3-4 hr upright position. In hypertensive patients with bilateral renal artery stenosis and with a "small kidney" significantly elevated AVP-levels were found both before and after NaCl-restriction in the diet as compared with normotensives. In contrast to normotensive subjects in hypertensive patients no significant correlation was found between plasma osmolality and AVP levels. No correlation was also found between plasma AVP-levels and blood pressure as well as between AVP-levels and PRA (with the exception of patients with unilateral renal artery stenosis). From the result obtained in this study the existence of a positive feedback mechanism between the renin-angiotensin-aldosterone system and the AVP-secretion and the participation of AVP in the pathogenesis of the hypertension caused by reduced blood supply of the kidneys is questioned.
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PMID:[Behavior of the renin-angiotensin-aldosterone system and vasopressin secretion in patients with renovascular hypertension or small kidney]. 389 Mar 86

The spontaneously hypertensive rat (SHR) and the stroke-prone substrain (sp-SHR) have been reported to have several abnormalities in levels of peptides both in tissue and in plasma (beta-endorphin, prolactin, thyroid stimulating hormone and vasopressin) when compared to the Wistar Kyoto (WKY) normotensive control rat. As the secretion of these peptides is under dopaminergic control and the abnormalities consistently suggest under-activity of the dopaminergic control system in the brain, injections of dopamine (0.4 mg/kg) were given i.c.v. to 10 SHR, 10 renal artery stenosis hypertensive rats (LRAS) and 10 genetically hypertensive rats of the New Zealand strain (GHR). Mean blood pressure fell from 205 +/- 6 (SEM) mmHg to 128 +/- 8 mmHg in the SHR (p less than 0.001), from 184 +/- 7 mmHg to 176 +/- 7 mmHg in the LRAS (p greater 0.05) and from 157 +/- 5 mmHg to 138 +/- 6 mmHg in he GHR (p less than 0.02). These effects were unlikely to be due to leakage of dopamine out into the periphery as i.v. dopamine (0.4 mg/kg) increased blood pressure in these animals.
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PMID:Neuropeptide abnormalities suggest a dopaminergic basis for high blood pressure in the spontaneously hypertensive rat. 609 77

Prehypertensive rabbits with renal artery stenosis of 3 days' duration (one-kidney, one clip) are known to have increased pressor responses to norepinephrine and vasopressin; this pressor hyperresponsiveness is restored to normal by the angiotensin II (AII) antagonist, [ Sar1, Ile8 ] AII, even though plasma renin activity (PRA) and plasma AII concentrations are not elevated. In the present study, the cross-circulation of blood between conscious one-kidney, 3-day renal artery stenosis rabbits and conscious normal rabbits resulted in the transfer of pressor hyperresponsiveness to the normal rabbits, although both groups of rabbits had normal values for PRA. A similar cross-circulation of blood between one-kidney rabbits without renal artery stenosis and normal rabbits did not alter the pressor responsiveness of the normal rabbits to norepinephrine. It was concluded that a circulating humoral factor is involved in mediating pressor hyperresponsiveness in 3-day renal artery stenosis rabbits. To evaluate the interrelationship between AII and the hormonal hyperresponsiveness factor, an additional experiment was performed in which blood was cross-circulated between one-kidney, 3-day renal artery stenosis rabbits and normal rabbits, with the normal rabbits receiving [ Sar1, Ile8 ] AII immediately following cross-circulation. Administration of this AII antagonist to the normal rabbits prevented them from showing pressor hyperresponsiveness following the cross-circulation of blood. It is concluded that in this prehypertensive renal artery stenosis model the humoral hyperresponsiveness factor exerts its effect through AII mechanisms, rather than AII acting to increase the release or secretion of the hyperresponsiveness factor.
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PMID:Humoral factor in pressor hyperresponsiveness in renal prehypertensive rabbits. 634 58

One-kidney rabbits were subjected to renal artery stenosis, and acute experiments were performed 3 days later on conscious animals; one-kidney rabbits without renal artery stenosis served as controls. Rabbits with 3-day renal artery stenosis were normotensive and had normal values for plasma renin activity. Intravenous infusion of arginine vasopressin at 5 mU.min-1.kg body wt-1 for 5 min resulted in a significantly (P less than 0.01) greater increase in mean arterial pressure and total peripheral resistance (TPR) in the renal artery stenosis rabbits than in the controls. Infusion of the angiotensin II (AII) competitive antagonist, [Sar1, Ile8]AII, before the vasopressin infusion abolished the hyperresponsiveness to vasopressin in the renal artery stenosis rabbits and resulted in changes in mean arterial pressure and TPR that were approximately of the same magnitude as the controls. Infusion of [SAr1, Ile8]AII before vasopressin infusion in control rabbits did not alter the cardiovascular responses to vasopressin. Because previous studies have shown that 3-day renal artery stenosis rabbits have exaggerated pressor responses to norepinephrine and that this hyperresponsiveness to norepinephrine is blocked by [Sar1, Ile8]-AII, the present study with vasopressin provided evidence that the increased responsiveness in this model is not specific for a single pressor agent. These studies also demonstrated that AII plays an important role in mediating the exaggerated pressor responses to vasopressin in this prehypertensive model.
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PMID:Pressor responses to vasopressin in rabbits with 3-day renal artery stenosis. 701 61

The mechanism behind iodinated radiocontrast nephropathy remains elusive. Direct oxidative damage is the prevailing hypothesis, but the apparent protective effect of iodine against oxidation contradicts this view. We propose that autonomic dysfunction participates in the pathogenesis of radiocontrast nephropathy and may account for other contrast-associated reactions previously attributed to allergy. Iodine, through its effects on thyroid function and chemoreceptor response to metabolic acidosis, may induce hyperadrenergia and consequently diminish renovascular flow and urine output. The renal response to adrenergia likely served an adaptive function during prehistoric evolution when trauma was a dominant source of hypovolemia and adrenergia, but the response may behave maladaptively today as evolutionarily nai ve triggers for adrenergia have emerged. Autonomic dysfunction can further impair renal function by deranging renovascular autoregulation and inducing oxidative reperfusion injury as a secondary phenomenon. Many other causes of acute renal failure such as drug toxicity, surgery, hospitalization, and diabetes may operate through hyperadrenergia, impaired renovascular autoregulation, and oxidative reperfusion injury. Dialysis, a volume reduction therapy for renal failure, can counterintuitively worsen renal dysfunction by exacerbating adrenergia, which may explain its association with accelerated atherosclerosis, inflammation, and cancer. Other examples of vicious cycles that perpetuate renal dysfunction may include renal artery stenosis, carotid stenosis, and atherosclerosis as well as the cardio-renal, hepato-renal, and pulmonary-renal syndromes. The benefits of hydration and bicarbonate in protecting renal function may operate in part through baroreceptor- and chemoreceptor-mediated reduction of sympathovagal ratio, respectively. New treatment paradigms for renal failure including pharmacologic and electro-mechanical therapies are envisioned based on autonomic remodeling, reduced sympathovagal ratio, and neuromodulation of pathways typically associated with trauma such as renin, angiotensin, vasopressin, and aldosterone.
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PMID:Contrast nephropathy may be partly mediated by autonomic dysfunction: renal failure considered as a modern maladaptation of the prehistoric trauma response. 1633 Jan 57

A 19-year-old male was admitted to our hospital for the treatment of severe hypertension with renal dysfunction. Two years before admission, his hypertension had been diagnosed as essential hypertension based on a series of examinations when his renal function was not impaired. Visits to his primary physician ended when he developed severe hypertension of 210/140 mmHg, at which time renal dysfunction and serum creatinine of 2.25 mg/dL were discovered. Renin and antidiuretic hormone were slightly elevated, but renal artery stenosis or other abnormalities were not detected by magnetic resonance imaging and computer tomography. After the hypertension was controlled by medication, a renal biopsy was performed to assess renal impairment. Histology demonstrated lesions compatible with thrombotic microangiopathy (TMA) and ischemic lesions, including fibrinoid necrosis, intimal thickening, occlusion in the small arteries, wrinkling and duplication of the glomerular basement membrane with microthrombi, and focal interstitial fibrosis. Renal function ameliorated after the hypertension was controlled. This case suggests that severe and accelerated hypertension can cause TMA with renal impairment even in young people.
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PMID:[Case of kidney failure with thrombotic microangiopathy lesions in renal biopsy caused by accelerated hypertension in young adult]. 1992 62

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