Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

dl-Propranolol (0.8-1.6 mg/kg - h for 1 h) produced a transient two- to three-fold increase in sodium excretion in nondiuretic rats infused with Pitressin and aldosterone and in water diuretic rats. Sodium excretion increased more in rats depleted of renin by chronic Doca and salt administration than in rats maintained on a low salt diet. An angiotensin inhibitor (1,sarcosine-8,valine angiotensin II) decreased sodium excretion. Therefore the natriuresis was not mediated by antidiuretic hormone, aldosterone, or renin-angiotensin. d-Propranolol did not produce a natriuresis. Prior treatment with phenoxybenzamine did not prevent the natriuretic response but chlorisondamine pretreatment did. The natriuresis is produced by beta blockade and requires post ganglionic nerve function but is independent of alpha receptors. dl-Propranolol decreased heart rate and cardiac output but systemic pressure did not fall and renal blood flow increased. This suggests a dopamine-mediated renal vasodilation and natriuresis. Haloperidol and pimozide, both dopamine blocking agents with minimal beta blocking effects, prevented the natriuretic response. We conclude that propranolol may increase sodium excretion directly by blocking beta receptors in the distal nephron and indirectly by dopamine-mediated renal vasodilation.
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PMID:Propranolol induces acute natriuresis by beta blockade and dopaminergic stimulation. 1 Oct 39

The specifically 13C-labeled (90% 13C-enriched) peptide hormone derivatives [1-hem[2-13C]cystine]oxytocin, [1-hemi[1-13C]cystine]oxytocin, and [2-[-2-13C]tyrosine[-oxytocin and the analogue [3-[2-13C]leucine]oxytocin were prepared by total synthesis and used to study the interactions of the neurohypophyseal hormones with the bovine neurophysins as a function of pH and temperature. Under all conditions, whether high or low pH, the chemical shifts of the labeled carbon atoms of the bound hormones are the same, but they are shifted significantly from their positions in the free hormone. These results indicate that interactions of the side chain and disulfide moieties of the hormone with the neurophysins do not change as a function of pH. At neutral pH and 20--35 degrees C, the labeled atoms of the hormone are in slow exchange (1--5 s-1) with the neurophysins for the above hormone derivatives, but at low pH they are in intermediate or fast exchange depending upon the pH and temperature. At low pH, the dissociation rate constant (koff) is about 100-fold greater than the value at neutral pH, and this increase appears to be due exclusively to the breaking of the salt bridge involving the N-terminal amino group of oxytocin and a side-chain carboxyl group of neurophysin. Since the dissociation constant (Kd) also increases by about 100-fold in going from neutral to low pH, the association rate constant is deduced to be the same at neutral and low pH. In contrast to the low pH results, an increase in pH (from 6.6 to 10.5) leads to a continual decrease in the binding constant but to no apparent change in the dissociation rate constant. The bound hormone is always in slow exchange at high pH, even when the binding constant has been reduced by 2 or 3 orders of magnitude. At high pH, the decrease in binding affinity is due solely to the deprotonation of the alpha-amino group of the free hormone. Thus, at high pH the apparent association rate constant decreases, while the dissociation rate constant remains unchanged.
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PMID:Investigation of the interactions of oxytocin with neurophysins at low pH using carbon-13 nuclear magnetic resonance and carbon-13-labeled hormones. 3 33

Clonidine s.c. (0.01-0.3 mg/kg), in unanesthetized rats, caused an initial rise (+20 mm Hg), followed by a continuous fall of BP and a dose-dependent natriuresis and diuresis for up to 2 h. Glomerular filtration rate (GFR) (CIn) increased during the first 20 min, while effective renal plasma flow (ERPF) (CPAH) remained normal. Subsequently, between 20 and 60 min after injection, ERPF (CPAH) decreased considerably while GFR had reverted to its normal value. In saline-infused rats clonidine diuresis was accompanied by an "inappropriate" positive free water clearance. Pentobarbital anesthesia suppressed the initial BP peak and the diuresis. Phenoxybenzamine (1 mg/kg i.v.) was antinatriuretic in saline diuresis; the effect of phenoxybenzamine + clonidine on diuresis and salt excretion represented the sum of the effects of both drugs, but phenoxybenzamine enhanced the clonidine-induced increase of GFR. Neither haloperidol (1 mg/kg i.v.) nor bulbocapnine (3 mg/kg i.v.) interfered with the renal effects of clonidine. Clonidine s.c. caused hyperglycemia and glucosuria which did not account for the natriuresis. Clonidine thus appears to increase the GFR and "filtration fraction" (FF) by a phenoxybenzamine-insensitive rise of glomerular ultrafiltration, to depress ERPF by alpha-adrenergic afferent vasoconstriction, to induce natriuresis by a tubular action not blocked by phenoxybenzamine and to exert an antivasopressin effect, either by depressing pituitary vasopressin secretion or the renal response to vasopressin.
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PMID:The renal effects of clonidine in unanesthetized rats. 4 24

Patients treated with lithium salt have an inability to concentrate urine, possible due to the inhibition of the antidiuretic effect of vasopressin. Since beta adrenergic stimulation also induces antidiuresis, a possible effect of lithium on the catecholamine-induced antidiuresis was investigated in dog kidneys. The urinary concentrating ability induced by the iv injection of isoproterenol 0.1 mug/kg was markedly inhibited in the lithium-treated animals (plasma lithium 1.13 plus or minus 0.10 mM). The increase of cyclic AMP concentration by 1 muM isoproterenol was also significantly less in the renal medullary slices obtained from the lithium-treated animals than in those obtained from the control animals. These findings suggest that the inability to concentrate urine in the patients treated with lithium salt is probably due to the inhibition of the antidiuretic effect of catecholamine as well as that of vasopressin; and the inhibitory mechanism of lithium on the catecholamine-induced antidiuresis is possibly through the inhibition of the catecholamine-dependent cycle AMP system in renal medulla.
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PMID:Effect of lithium on catecholamine-induced antidiuresis and cyclic AMP in dog kidneys. 16 36

A vasopressin resistant urinary concentrating defect has been described in patients receiving lithium salt for affective disorders. For the pathogenic mechanism of the concentrating defect it has been postulated that lithium inhibits the vasopressin-dependent cyclic AMP system. However, the results of indirect studies on the lithium effect are equivocal. Therefore, the effect of lithium specifically on the vasopressin-dependent cyclic AMP system was investigated in rat renal medulla. The increase of cyclic AMP concentration by vasopressin was inhibited by lithium. But lithium had no effect on the PTH-dependent cyclic AMP concentration in renal cortical slices. Regardless of magnesium concentrations from 0-10 mM in the incubation media, 10 mM lithium had no moeasurable effect on the vasopressin-dependent adenylate cyclase of rat renal medulla. However, 10 mM lithium augmented the cyclic AMP-phosphodiesterase activity in renal medulla in the high Km system. These results suggest that lithium inhibits the vasopressin-dependent cyclic AMP concentration in renal medulla via the augmentation of its catabolism, rather than via the inhibition of cyclic AMP generation.
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PMID:Effects of lithium on vasopressin-dependent cyclic AMP in rat renal medulla. 16 28

Hyponatremia with simultaneous renal sodium loss was associated with the inappropriate secretion of antidiuretic hormone in a dog with heartworm disease. Antidiuresis caused expansion of extracellular fluid volume, which induced renal salt wasting and a negative sodium balance. The combination of water retention, salt wasting, and inactivation of intracellular solute contributes to the decrease in serum sodium concentration. Water intoxication due to hypotonicity of body gluids induced anorexia, depression, weakness, and incoordination.
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PMID:Inappropriate secretion of antidiuretic hormone in a dog. 50 Apr 39

The kidney has a high capacity to produce a spectrum of different acting prostaglandins (PG). In vivo and in vitro studies have shown that renal formation of PG's, possibly in the vasculature of the cortex represents an essential step in the mechanisms regulating the secretion of renin. PG's formed in the cortex seem to participate also in the control of renal vascular resistance and glomerular filtration rate. PGE2 formed in the medulla modulates the hydroosmotic action of antidiuretic hormone and influences the kidney's capacity for urine concentration. Renal PG formation is reduced by high NaCl intake and enhanced by low NaCl intake and in hypokalemic states. These findings make renal PG's good candidates for participation in the regulation of salt and water balance and in the control of blood pressure. Due to the close connection with the renin angiotensin system, alterations in renal PG formation might be involved in the etiology of high and low renin states. Thus, an impairment in the renal cortical production of vasodilating and renin-stimulating PG's could constitute the common denominator for both the reduced renin secretion and the increased vascular resistance which have been reported to be associated in essential hypertension.
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PMID:Formation and action of prostaglandins in the kidney. 53 77

Experiments were performed to determine the role of vasopressin in deoxycorticosterone (DOC)-salt hypertension. In order to determine if vasopressin is necessary for the development of DOC-salt hypertension, rats with hereditary diabetes insipidus (DI) and normal Long-Evans rats (LE) were unilaterally nephrectomized, treated with DOC Pivalate (30 mg/kg . week) and given saline to drink for 8 weeks. A second group of DI rats were unilaterally nephrectomized, but received no treatment. Systolic blood pressure (SBP) increased 40 mm Hg in the LE group (p less than 0.01) but failed to increase significantly in either DI group. Urinary excretion of vasopressin (UADHV) and SBP were measured in unilaterally nephrectomized LE rats treated with DOC and salt (DOC-LE), salt alone (NaCl-LE) and untreated rats (H2O-LE). The UADHV was elevated in DOC-LE (p less than 0.01) and NaCl-LE (p less than 0.05), but only the DOC-LE rats became hypertensive. Finally, the I.V. injection of analogs of vasopressin, which block its pressor but not antidiuretic activity, lowered mean arterial blood pressure 27 +/- 5 mm Hg in 11 conscious DOC-salt hypertensive rats. It is concluded that vasopressin plays a major role as a pressor agent in both the onset and maintenance of DOC-salt hypertension.
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PMID:The importance of vasopressin in the development and maintenance of DOC-salt hypertension in the rat. 54 12

Young pigs of about 25-30 kg liveweight were given intravenous infusions of a hypertonic sodium chloride solution (4-6 mol.1(-1)) at rates varying from 2-6 mmol.min-1. Such infusions resulted in a marked increase in the urine flow and in urinary sodium excretion, the size of these increases being proportional to infusion rate. Circulating vasopressin levels were also markedly increased, the size of these increases being the same as those seen in other pigs given exogenous vasopressin in amounts which were shown to increase urinary sodium excretion. This suggests that vasopressin was probably contributing to the increase in renal sodium excretion seen in those pigs given the intravenous salt loads.
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PMID:The effects of vasopressin on renal sodium excretion in pigs given intravascular hypertonic salt loads. 58 91

Fluid retention and ascites are rarely seen in patients with primary biliary cirrhosis (PBC). This contrasts with the conspicuous tendency of patients with Laennec's cirrhosis to retain salt and water. In an attempt to clarify this clinical observation, renal handling of sodium was studied during extracellular volume expansion (ECVE) and maximal suppression of antidiuretic hormone in five patients with PBC. These PBC patients were compared with two control populations: five edema-free patients with Laennec's cirrhosis and nine healthy volunteers. The natriuretic and diuretic response to ECVE was significantly greater in the patients with PBC as compared with the two control groups. CH2O for given rates of urine flow were similar in PBC patients as compared with normal subjects. The data suggest that a supranormal rejection of sodium at the proximal tubule in response to ECVE underlies the exaggerated natriuresis of PBC. The augmented elimination of salt during ECVE in patients with PBC may explain the rarity of ascites and edema in this variety of cirrhosis.
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PMID:Exaggerated natriuretic response to volume expansion in patients with primary biliary cirrhosis. 60 57


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