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)

A series of experiments was designed to explore the mechanisms contributing to hypertension caused by an acute or chronic sodium load. Acute salt-loading in totally or subtotally nephrectomized animals caused hypertension mediated partly through stimulation of excessive vasopressin release and partly through adrenergic stimulation. Chronic high-salt diet in rats submitted to partial nephrectomy, mineralocorticoid excess or one-kidney-one-clip renovascular hypertension caused blood pressure elevation mediated through a central neurogenic mechanism that could be reversed by administration of an inhibitor of phenylethanolamine-N-methyltransferase, the enzyme catalyzing conversion of norepinephrine to epinephrine. Thus, two vasopressor mechanisms were stimulated by sodium excess: an acute, transient, partly vasopressin-mediated phase seemed to be followed by a chronic phase mediated through stimulation of central sympathetic neurons. In neither phase was blood pressure related to intravascular fluid volume expansion.
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PMID:Possible mechanisms of sodium-dependent hypertension: volume expansion or vasoconstriction? 710 37

Changes in inulin space, plasma and blood volume, exchangeable and "noninulin" sodium were studied during the prehypertensive, early and late hypertensive stages of deoxycorticosterone (DOC)-salt administration in the rat. The effect of an acute water load in previously nephrectomized animals was also studied. Hypertension developed after 1 to 2 weeks of the DOC-salt regimen and was always preceded by enlargement of the inulin space and increased plasma and blood volume. Expansion of extracellular fluids receded when blood pressure started to rise but reappeared after 4 to 6 weeks of treatment. Plasma sodium was high only in the hypertensive groups. An acute water load increased blood pressure of normal rats and decreased blood pressure of DOC-salt early hypertensive rats. These findings suggest that extracellular volume expansion inhibits a vasopressor mechanism that involves vasopressin and could be stimulated by hypernatremia.
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PMID:Role of extracellular volume expansion in the development of DOC-salt hypertension in the rat. 710 34

An anteroventral third ventricle (AV3V) lesion in the brain prevents several forms of experimental hypertension. The present experiment was designed to determine whether the AV3V lesion prevents NaCl-induced hypertension in Dahl salt-sensitive (S) rats and whether attenuation of vasopressin release reported in lesioned rats contributes to the protective effect of the AV3V lesion against hypertension. After the AV3V lesion Dahl S rats received daily injections of either vasopressin (pitressin tannate, 500 mU/kg) or vehicle during 10 wk of 8% high-NaCl diet. Sham-lesioned rats served as controls. The blood pressure in sham-lesioned rats receiving vehicle was 189 mmHg after 10 wk of high-NaCl diet. Lesioned rats given vehicle showed a significantly smaller increase in blood pressure than sham-lesioned rats (P less than 0.001), the blood pressure averaging 161 mmHg at 10 wk. Lesioned rats given vasopressin also showed a smaller increase in blood pressure than sham-lesioned rats (P less than 0.05), but the final blood pressure averaged 176 mmHg and was significantly higher than that of lesioned rats given vehicle (P less than 0.025). Vasopressin injections corrected the hypernatremia in lesioned rats. In another experiment the effect of the AV3V lesion on the renal papillary plasma flow (RPPF) in Dahl S rats was studied. Dahl S rats have a lower RPPF than Dahl salt-resistant (R) rats even on a low-NaCl intake. The AV3V lesion increased the RPPF by 14% in S rats (P less than 0.025). These findings suggest that NaCl-induced hypertension in Dahl S rats requires the integrity of the AV3V region for its full expression, and the ability of the AV3V lesion to attenuate the NaCl-induced hypertension in Dahl S rats is partly related to the attenuation of vasopressin release. Moreover, the AV3V lesion partly corrected one of the characteristic features of Dahl S rats, the reduction in RPPF, when compared with Dahl R rats, with both strains on a low-NaCl intake.
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PMID:Effect of an anteroventral third ventricle lesion on NaCl hypertension in Dahl salt-sensitive rats. 712 69

The hypothalamo-neurohypophyseal function was evaluated in a patient with the chronic hypernatremia syndrome. By dosing plasmatic neurophysins, a selective loss of the osmoreceptor function was demonstrated. Morphine administration was followed by a reduction of the diuresis and a slight elevation of plasmatic neurophysins. The mechanism of morphine action is discussed.
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PMID:[Chronic hypernatremia. A study of plasma neurophysins and action of morphine]. 715 51

An adolescent boy with essential hypernatremia, absent corpus callosum, mental retardation, hypodipsia, and partial diabetes insipidus with "inappropriate" ADH regulation and secretion was studied regarding factors controlling ADH and neurophysin release. Persistent hyperosmolality was noted while on 100 mEq sodium intake daily. Endogenous vasopressin activity was demonstrated after prolonged water deprivation. Hypertonic saline infusion produced increased volumes but dilute urine. Aqueous pitressin increased urinary osmolality, decreased serum osmolality, urine flow rate, and free water clearance. Stable water diuresis was induced by water loading and on normal saline infusion. Nicotine-stimulated neurophysin remained unexpectedly low and below the level of detectability when sampled during the physiologic studies, whereas oestrogen-stimulated neurophysin was elevated during oestrogen stimulation, water loading, and orthostasis procedures. Plasma vasopressin was suppressed with water loading but remained suppressed 90 min after tilt table testing. These data indicate impairment of the osmoreceptor mechanism: however, since the patient had a normal response of oestrogen-stimulated neurophysin, that part of the neurohypophysis appears intact. Chlorpropamide was effective in alleviating the hyperosmolar state acutely and maintained normal osmolar concentrations during two years of therapy.
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PMID:Essential hypernatraemia, antidiuretic hormone and neurophysin secretion: response to chlorpropamide. 746

Sheep which were predominantly urinary excretors (U) or faecal excretors (F) of sodium were exposed to a 75% reduction of water intake for 72 h. The experiment was performed on moderate, low or high sodium intakes (0.4, 0.05 or 1.2 mmol kg-1 day-1) to test the hypothesis that dehydration natriuresis was not a cause of sodium depletion but a defence against hypernatraemia. Dehydration caused elevation of plasma sodium concentration, osmolality, antidiuretic hormone (ADH) and oxytocin but, as in other experiments, a fall in haematocrit. The two higher levels of sodium intake were associated with dehydration natriuresis but also a smaller increase in faecal sodium excretion in both U and F sheep. On low sodium intake, however, neither urinary nor faecal sodium excretion increased in either group of sheep although the rise in plasma sodium concentration caused by dehydration was similar. Thus, when there is a risk of sodium depletion, due to low sodium intake, dehydration natriuresis does not occur, consistent with the hypothesis. Active sodium transport inhibitor (ASTI) and atrial natriuretic peptide (ANP) fell rather than rose during dehydration. Since aldosterone is suppressed by the higher levels of sodium intake, none of these hormones is likely to mediate dehydration natriuresis in sheep. F sheep showed more effective renal and faecal water conservation when dehydrated. During water restriction, the urinary potassium excretion of U sheep was significantly reduced, unlike that of F sheep; moreover, the latter maintained an identical plasma potassium concentration between baseline and restriction period, whereas in U sheep it was 0.3 mmol l-1 higher during water restriction. Increased drinking rather than reduced urine output was the basis of rehydration when ad lib. water intake was restored.
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PMID:Responses to reduced water intake, including dehydration natriuresis, in sheep excreting sodium predominantly in urine or in faeces. 778 17

We experienced three patients who have collagen diseases with respiratory failure accompanied by hyponatremia. They were one systemic lupus erythematosus patient with interstitial pneumonia, one rheumatoid arthritis patient with acute pneumonitis, and one dermatomyositis patient with pulmonary fibrosis and organizing pneumonia. In all 3 patients, hyponatremia appeared along with a decrease in arterial O2 partial pressure (PaO2) and the hyponatremia tended to improve when the PaO2 increased after inhalation of oxygen, even though their respiratory failure were not improved. In dermatomyositis patient, serum Na levels were over-corrected after increase in PaO2. The serum and urine osmolality, serum antidiuretic hormone (ADH) levels and clinical pictures demonstrated a presence of inappropriate secretion of ADH (SIADH) in all 3 cases when hyponatremia and hypoxia appeared. A close association between hyponatremia and hypoxia observed in 3 patients strongly suggested that their SIADH were associated with hypoxia since SIADH could be demonstrated by hypoxia. Therefore, it is important to realize that hypoxia-induced hyponatremia will be promptly corrected to hypernatremia by an oxygen inhalation, which could cause a lethal central pontine myelinolysis.
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PMID:[Three cases of respiratory failure of collagen diseases accompanied by syndrome of inappropriate secretion of antidiuretic hormone (SIADH)]. 780 Dec 3

The effect of hypertonic NaCl consumption on vasopressin (VP) and oxytocin (OT) mRNA levels and plasma and pituitary peptides was evaluated in rats with sham or anterior ventral third ventricular (AV3V) lesions. Rats were given tap water or 2% NaCl for 4 days. Because the rats with lesions drank significantly less salt solution than the controls (78.8 +/- 17.4 vs. 205.5 +/- 37.8 ml/4 days), a second control group was included in which saline intake was matched to the lesioned group. AV3V rats showed a deficit in the peptide response to the osmotic stimulus. There was no increase in plasma VP or OT or decrease in posterior pituitary peptide content in the face of an extreme hypernatremia: plasma sodium of 180.1 +/- 4.2 meq/l. Evaluation of mRNA changes by means of in situ hybridization showed that animals with lesions responded to the salt challenge with increases in hypothalamic VP and OT mRNA levels. There were significant increases in paraventricular and supraoptic OT mRNA and paraventricular VP mRNA in the lesioned group. The salt-matched control group showed no changes in peptide mRNA levels. These results demonstrate that AV3V lesions produce an impairment of the salt-neuroendocrine reflex but a persistence of the peptide mRNA response. Differences in control mechanisms must account for this dissociation between peptide mRNA expression and peptide secretion.
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PMID:Dissociation between vasopressin and oxytocin mRNA and peptide secretion after AV3V lesions. 781 Jul 75

The albino rat experiments have demonstrated that despite the type, metabolic acidosis causes an increase in plasma and urinary osmolarity, hyperkalemia and hypernatremia, enhanced urinary excretion of potassium, phosphates, and titrated acids with a tendency for the glomerular filtration rate and urinary pH to be lowered with the increased concentrations of plasma vasopressin and insulin and renal cortical PGE2. Hyperchlorinemic acidosis without increases in the anion difference is accompanied by severe chloremia, natriuresis, chloruresis, ammoniuresis without diuretic changes with the inhibited renin-aldosterone system and progesterone synthesis. Lactate acidosis with a growing anion difference leads to lower diuresis, Na+ and Cl- excretion without enhancing ammonium excretion in the presence of elevated plasma levels of renin, aldosterone, and progesterone. It is concluded that in metabolic acidosis, adaptation to water-electrolytic exchange derangements greatly depends upon the type of metabolic acidosis and it is mediated by hormones to a considerable extent.
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PMID:[Mechanisms of renal adaptation to disorders of water-electrolyte balance in metabolic acidosis]. 782 47

We report a case of postobstructive hypernatremia, and illustrate its pathogenesis and treatment. Physicians should be aware of this condition, given its high mortality rate (up to 70%), the high prevalence of potentially obstructive prostatic disease in elderly people and the peculiar sensitivity of this age group to disorders of osmotic regulation. Knowledge of the processes involved in osmoregulation has provided insights into the pathogenesis of this condition, which includes at least three factors: (i) decreased efficacy of the thirst mechanism in elderly patients, (ii) water loss in excess of effective solutes, resulting from osmotic diuresis from urea and transient renal tubular unresponsiveness to antidiuretic hormone, and (iii) inadequate fluid administration and failure to induce a positive fluid balance. These insights led to the development of specific strategies aimed at adequate correction of hypernatremia. Initial therapy should be rapid infusion of normal saline (or half-normal saline) coupled to administration of free water to restore euvolemia and correct hypernatremia, relying on repeated calculations of the free water deficit and taking into account ongoing urinary and insensible losses.
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PMID:Physiopathology of hypernatremia following relief of urinary tract obstruction. 787 35

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