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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The hypothalamic-neurohypophyseal system functions to maintain plasma osmolality within narrow limits. It also is an important mechanism in maintaining normal body fluid volume. The system exerts its influence via release or inhibition of vasopressin (antidiuretic hormone, ADH) which acts on the kidney to decrease water excretion. Deficiency of ADH is usually due to hypothalamic-neurohypophyseal lesions (central diabetes insipidus) or insensitivity of the kidney to ADH (nephrogenic diabetes insipidus). These patients, if untreated, have the predictable result of dehydration, hyperosmolality, hypovolemia, and eventual death in severe cases. On the other hand, ADH excess of the syndrome of inappropriate ADH secretion due to a variety of causes promotes water retention, hypoosmolality and hyponatremia which, if untreated, may progress to convulsions, coma, and death. It is obviously important to diagnose accurately these pathologic states of hydration. Not only is initiation of treatment in general dependent upon recognition of the disease, but each type of pathologic hydration state has specific treatment which rewards both patient and physician with effective correction of the problem.
Nephron 1979
PMID:Vasopressin: deficiency, excess and the syndrome of inappropriate antiduretic hormone secretion. 10 6

This paper reviews the physiology of antidiuretic hormone, including the factors involving the formation, storage and release of the hormone, the metabolism of vasopressin and its physiologic and pharmacologic effects on water and electrolyte transport. The consequences of both deficiency and excess of the hormone are also discussed.
Nephron 1975
PMID:Physiology of antidiuretic hormone and the interrelationship between the hormone and the kidney. 17 May 48

The in vivo mechanisms whereby systemic alpha- and beta-adrenergic stimulation exert opposing effects on renal water excretion are reviewed. An extrarenal mechanism is suggested since the effect of intravenous infusion of norepinephrine or isoproterenol on water excretion cannot be mimicked by the intrarenal administration of these agents. A ROLE OF VASOPRESSIN IS IMPLICATED SINCE NEITHER MAN NOR DOG WITHOUT A PITUITARY SOURCE OF VASOPRESSIN DEMONSTRATE THE SAME EFFECT OF CATECHOLAMINES ON WATER EXCRETION AS OBSERVED IN INTACT MAN AND DOG. Evidence also is presented that systemic alpha- and beta-adrenergic stimulation affect vasopressin release primarily by altering baroreceptor tone. The potential role of the autonomic nervous system in mediating other nonosmotic stimuli for vasopressin is discussed.
Nephron 1975
PMID:Catecholamines and renal water excretion. 17 May 49

The diffusional water permeability of collecting ducts in vitro and the cyclic A.M.P. content of isolated papillae were measured after exposure to different concentrations of antidiuretic hormone, isoproterenol and noradrenalin. Antidiuretic hormone 25 mu units/ml. caused a 25% increase in diffusional water permeability. This response was not affected by isoproterenol (10(-6) M) or noradrenalin (2 x 10(-6) M). Antidiuretic hormone 100 mu unit ml-1 caused a 50% increase in diffusional water permeability which likewise was not altered by isoproterenol or noradrenalin. Isoproterenol (10(-6) M) and noradrenalin (2 x 10(-6) M) had no significant effect on basal levels of diffusional water permeability. Isoproterenol had no significant effect on the tissue concentration of cyclic A.M.P. concentration induced by antidiuretic hormone. Noradrenalin (2 x 10(-6) and 10(-4)) had no significant effect on basal cyclic A.M.P. concentration. However, noradrenalin inhibited the stimulation of cyclic A.M.P. induced by antidiuretic hormone. This effect was inhibited by phentolamine. This study suggests that catecholamines do not alter water handling by a direct action on the water permeability of the kidney but probably exert their action through an effect of A.D.H. release.
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PMID:A study of the interaction of catecholamines and antidiuretic hormone on water permeability and the cyclic AMP system in isolated papillae of the rat. 20 6

The effects of norepinephrine, phentalamine, oxytocin, vasopressin, several prostaglandins, and indomethacin on the spontaneous motility of isolated guinea pig cauda epididymidis were explored. Phentolamine and indomethacin reduced the isometric peak tension of spontaneous epididymal contractions. Phentolamine also depressed the frequency. Both findings suggest that catecholamines and endogenous prostaglandins are in some way regulators of the spontaneous motility of the cauda epididymidis. Norepinephrine resulted in the development of a distinct, sustained, tonic contraction without phasic activity, whereas prostaglandins E1, E2, and F2 alpha elicited a tonic increase accompanied by frequent, superimposed, phasic contractions. Both oxytocin and vasopressin comparably enhanced epididymal motility, producing contractile responses similar to those observed with prostaglandins. Since the epididymal contractions can influence the time spent by spermatozoa in passing through the ductus epididymidis, the above-mentioned compounds could play an important role in spermatozoal transport via modulation of epididymal contractile activity. In addition, such naturally occurring substances might regulate the release of sperm from the last portion of the epididymis into the ductus deferens.
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PMID:Physiologic and pharmacologic studies on the motility of isolated guinea pig cauda epididymidis. 80 41

1 The hepatic portal vein of the anesthetized dog was cannulated and perfused with blood derived from the cannulated superior mesenteric vein. 2 The portal vein was perfused at constant flow, the hepatic portal venous pressure being monitored continuously together with the inferior vena caval pressure. From these measurements, the hepatic portal venous vascular resistance was calculated. 3 Noradrenaline and adrenaline were injected intraportally in graded doses which caused dose-dependent increases in the hepatic portal vascular resistance. At all doses, adrenaline was significantly (P less than 0.05) more potent than noradrenaline. 4 Intraportal injections of vasopressin caused reductions in calculated hepatic portal venous vascular resistance in most experiments; three effects were dose-dependent. 5 No tachyphylaxis to the effects of noradrenaline, adrenaline or vasopressin was observed. 6 Intraportal injections of angiotensin caused dose-dependent increases in calculated hepatic portal vascular resistance up to 5 mug; therafter larger doses caused smaller increases in portal resistance. 7. Repeated intraportal injections of angiotensin revealed the existence of tachyphylaxis in the hapatic portal vascular bed. 8 Intraportal infusions of anagiotensin caused rises in calculated hepatic portal vascular resistance from which there was almost complete 'escape' despite the continued infusions. Infusions of noradrenaline which caused similar rises in calculated portal vascular resistance did not exhibit equivalent degrees of 'escape'. 9 The development of tachyphylaxisx explains the fact that doses of 10 and 20 mug of angiotensin injected after 5 mug doses produced smaller effects. If a much longer time interval was allowed between injections (30 min), the dose-response curve to angiotensin had a sigmoid shape. 10 These findings are discussed with respect to their possible importance in the functional status of the hepatic portal vascular bed in this species.
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PMID:The effects of intraportal injections of noradrenaline, adrenaline, vasopressin and angiotensin on the hepatic portal vascular bed of the dog: marked tachyphylaxis to angiotensin. 83 16

Prolactin was shown to activate adenylate cyclase in broken cellular enzyme preparations from rat renal medulla. Likewise, vasopresin was effective on this enzyme system. Parathyroid hormone was similarly active in the renal cortex. The simultaneous administration of vasopressin and prolactin to medullary kidney slices did not result in an additive effect in stimulating medullary adenyl cyclase. Audioradiographic techniques revealed a selective and prolonged localization of intravenously injected 125I-prolactin to the thick limb of the loop of Henle, the distal tubule and the collecting duct. It is concluded that prolactin activates medullary adenylate cyclase, and may do so by occupying ADH receptors.
Nephron 1977
PMID:Prolactin-induced stimulation of rat renal adenylate cyclase and autoradiographic localization to the distal nephron. 86 55

Negative sodium balance was produced in 10 human volunteers. Body weight, plasma sodium, osmolality, hematocrit, renin activity (PRA), and antidiuretic hormone (ADH) concentrations were determined before, during, and after sodium restriction. Body weight declined and PRA rose during the period of low sodium intake. Plasma sodium concentration and osmolality did not change. A statistically significant change in ADH was not observed. It is suggested that a decrease in ADH was prevented by a rising titer of renin and contraction of the extracellular space.
Nephron 1977
PMID:Concentrations of antidiuretic hormone in plasma during human sodium restriction. 91 79

Norepinephrine was continuously infused for 30 minutes at a rate of 0.2 and 0.3 mug/kg/min into 3 normal human subjects, and plasma vasopressin levels, plasma osmolality, hematocrit value, blood pressure, and heart rate were determined simultaneously. In norepinephrine infusion, an elevation of mean blood pressure and a decrease in heart rate was seen, and the degree of these changes was greater with the infusion at a rate of 0.3 mug/kg/min. Plasma vasopressin levels were suppressed by the infusion, and a dose-response relationship was recognized between the infusion at rates of 0.2 mug/kg/min and 0.3 mug/kg/min, while plasma osmolality did not change, and the hematocrit value rose slightly. These results suggest that norepinephrine-induced water diuresis is related to the suppression of the vasopressin release.
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PMID:Effect of norepinephrine infusion on plasma vasopressin levels in normal human subjects. 94 39

The factors involved in renin release have been extensively evaluated. The primary determinants are the transmural pressure at the afferent arteriole, sodium delivery to the macula densa, and the activity of the adrenergic nervous system. Other possible factors include circulating catecholamines, the serum and cerebrospinal fluid sodium concentration, serum potassium concentration, angiotensin II concentration, and antidiuretic hormone release. There is no convincing evidence that the renin-angiotensin system mediates renal autoregulation. Plasma renin activity is altered in a number of clinical settings. This parameter is elevated in most patients with cirrhosis and the nephrotic syndrome as well as in individuals with severe congestive heart failure. Despite inappropriately large weight gains, plasma renin suppresses normally with increased salt intake in edematous patients who have a normal glomerular filtration rate. The mechanisms of the alteration in the renin-angiotensin system in Bartter's syndrome is still not clear.
Nephron 1975
PMID:Renin and the kidney. 110 Oct 89


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