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)

The role of antidiuretic hormone (ADH) in the renal concentration defect and hemodynamic changes in protein malnutrition was evaluated in rats with diabetes insipidus (DI) after 2 weeks of low protein feeding. Free water reabsorptive capacity (TcH2O), glomerular filtration rate (GFR), and renal plasma flow (RPF) were measured in the protein deprived rats and in DI rats fed a normal protein diet. The effect of urea supplementation of the low protein diet on renal concentrating capacity was also evaluated. In addition, the renal hemodynamic response to acute administration of ADH was measured and correlated with changes in plasma renin concentration and renal renin content (RRC). Protein deprivation in DI rats resulted in reduced urine osmolality and urea excretion, differences which were reversed by urea supplementation. Protein deprivation did not affect free water reabsorptive capacity but did reduce GFR and RPF. Acute ADH administration significantly increased GFR and RPF in protein-deprived rats; these changes were associated with a reduction in RRC and release. These results suggest that dietary protein restriction does not directly affect the tubular capacity to generate and reabsorb free water. The hemodynamic changes seen in protein deprivation are not mediated by ADH and may be secondary to increased intrarenal angiotensin II.
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PMID:Renal hemodynamics and urinary concentrating capacity in protein deprivation: role of antidiuretic hormone. 158 Mar 17

Urea transport across the terminal inner medullary collecting duct (IMCD) is mediated by a urea transporter that is stimulated by vasopressin (AVP) or hyperosmolarity. To determine whether hyperosmolarity stimulates urea transport by an adenylyl cyclase-dependent or -independent mechanism, terminal IMCDs were perfused with 10 microM forskolin followed by an increase in osmolality or with increasing osmolality followed by 10 nM AVP. In both protocols, stimulating adenylyl cyclase caused an additive increase in urea permeability (Purea) to that stimulated by hyperosmolarity. Next, we investigated whether hyperosmolarity stimulates the same urea transporter as AVP by studying the inhibitor profile and IMCD subsegment response of hyperosmolarity-stimulated urea transport and comparing it to properties already demonstrated for AVP-stimulated urea transport. In terminal IMCDs, luminal phloretin (250 microM) reversibly inhibited Purea by 63%. Thiourea (100 mM) inhibited Purea by 73% at two different levels of osmolality, 690 and 290 mosmol/kgH2O. The half-maximal inhibitory concentration (K1/2) for thiourea at 690 mosmol/kgH2O was not significantly different from the K1/2 value at 290 mosmol/kgH2O, suggesting that stimulation by hyperosmolarity is related to an increase in the Vmax for the urea transporter. Finally, we found that hyperosmolarity did not stimulate Purea in the initial IMCD. In summary, the data suggests that hyperosmolarity stimulates urea transport by an adenylyl cyclase-independent mechanism. However, the inhibitor profile and the IMCD subsegment response for hyperosmolarity-stimulated and AVP-stimulated Purea are similar, suggesting that both hyperosmolarity and AVP stimulate the same urea transporter.
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PMID:Characteristics of osmolarity-stimulated urea transport in rat IMCD. 162 10

The influence of combined replenishment of L-3,5,3'-triiodothyronine (T3) and vasopressin (antidiuretic hormone [ADH]) on both hepatic metabolism and systemic hemodynamics was assessed in brain-dead dogs. Arterial ketone body ratio (AKBR) was measured as a parameter of hepatic metabolism, which reflects the redox state (free nicotinamide adenine dinucleotide/reduced nicotinamide adenine dinucleotide) of liver mitochondria. Mean arterial blood pressure (MAP) was significantly decreased from 110.4 +/- 3.8 to 44.4 +/- 1.7 mmHg, at 1 hr after completion of brain death (P less than 0.01). In the control group AKBR was maintained thereafter at near control value of 1.0 with a significant decrease in serum lactate concentration in spite of marked hypotension. T3 infusion at a rate of 1 microgram/kg/hr elevated the AKBR but did not elevate MAP. Vasopressin infusion at a rate of 0.1 U/kg/hr sustained AKBR and elevated MAP significantly at 1 hr after administration but tended to decrease thereafter. Combined administration of T3 and ADH elevated the AKBR to about 2.0, and MAP was restored to near-normal level. Other parameters such as glutamic oxaloacetic transaminase, glutamic pyruvic transaminase, and lactic dehydrogenase, reflecting liver cell injury and serum creatinine, and blood urea nitrogen as renal function, were maintained within normal range. These results indicate that combined T3 and vasopressin administration has a beneficial synergistic effect on both hepatic energy metabolism and systemic hemodynamics without any detrimental influence to other conventional parameters. Therefore, it is suggested that this combined administration may contribute to the management of potential multiorgan donors.
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PMID:Beneficial effect of combined 3,5,3'-triiodothyronine and vasopressin administration of hepatic energy status and systemic hemodynamics after brain death. 163 43

Clearance experiments were performed in anesthetized male Wistar rats to reevaluate the renal effects of glucagon (Gluc) on glomerular filtration rate (GFR) and solute and water excretion. After an 80-min control period, these effects were evaluated in the last 80 min of a 2-h intravenous Gluc infusion. Gluc induced significant increases in GFR (+20%), urine flow rate (+150%), free water reabsorption (+50%), urea synthesis and urea excretion (+66%), and nonurea solute excretion (+67%). In addition, fractional urea excretion (FEurea) increased by 43% (P less than 0.01). Additional experiments showed that increases in either urea excretion or urine flow rate (induced by appropriate infusion of urea or half-dilute saline), similar to those seen after Gluc, could not account for the increased FEurea. All significant effects of Gluc were also observed during infusion of antidiuretic hormone or during water diuresis. The tubular effects of Gluc could be explained by a reduction in proximal reabsorption. The dose of Gluc required to induce all the effects described above was 12 ng.min-1.100 g body wt-1, a dose producing an approximately 10-fold supraphysiological peripheral plasma concentration but a "physiological" level for the liver. Infusion of 1.2 ng induced almost no change in renal function, and infusion of 120 ng induced no greater effects than 12 ng. These results suggest 1) that Gluc, a hormone liberated after protein ingestion, exerts coordinated effects on liver and kidney to increase simultaneously urea synthesis and excretion and to promote water conservation and 2) that these effects could, at least in part, be indirect and depend on the Gluc-induced stimulation of hepatocyte metabolism.
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PMID:Effects of glucagon on glomerular filtration rate and urea and water excretion. 163 42

We have used the isolated perfused tubule technique, measurements of adenosine 3',5'-cyclic monophosphate (cAMP) content in single tubules, and freeze-fracture electron microscopy to study the basis of high vasopressin-independent (basal) osmotic water permeability (Pf) in the terminal inner medullary collecting duct (IMCD) of the rat. The results confirmed the observation that the basal Pf of the terminal IMCD is considerably higher than that of the initial IMCD. They also showed that the basal Pf of the terminal IMCD is regulated by in vivo factors related to water intake, such that a very high vasopressin-independent Pf can be induced in isolated tubules by prior in vivo thirsting. Tubules from thirsted rats did not display elevated urea permeabilities, nor did they exhibit measurable cAMP levels in the absence of exogenous vasopressin, indicating that the high basal Pf was not due to residual binding of vasopressin to its receptors. Freeze-fracture studies in thirsted rats demonstrated the presence of intramembrane particle (IMP) clusters in both initial and terminal IMCD, with more in the latter. Water loading of the rats suppressed the incidence of clusters almost entirely but did not fully suppress the basal Pf in the terminal IMCD, raising the possibility that a component of transepithelial water transport may occur independently of the vasopressin-regulated IMP clusters. On the basis of these results, we conclude that the vasopressin-independent Pf in the terminal IMCD can be stably elevated to very high levels in response to in vivo thirsting. This elevation appears to be due to a chronic conditioning effect mediated by unknown in vivo factors and is not due to the short-term cAMP-mediated regulatory effect of vasopressin.
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PMID:Regulation of collecting duct water permeability independent of cAMP-mediated AVP response. 165 34

The effect of hormones on cell volume was studied in isolated perfused rat liver by assessing the intracellular water space as the difference between a [3H]inulin- and a [14C]urea-accessible space. The intracellular water space (control value 559 +/- 7 microliters/g of liver; n = 88) increased on addition of insulin (35 nM) or phenylephrine (5 microM) by 12 or 8% respectively, whereas it decreased with cyclic AMP (cAMP; 50 microM), glucagon (100 nM) or adenosine (50 microM) by 9, 13 or 6% respectively. Both insulin and glucagon exerted half-maximal effects on cell volume and cellular K+ balance at hormone concentrations found physiologically in the portal vein. Adenosine-induced cell shrinkage was explained by a net K+ release from the liver. Phenylephrine (5 microM) led to cell swelling by about 8%, which was additive to insulin-induced swelling. Extracellular ATP (20 microM) induced cell shrinkage by about 6%; this was additive to adenosine-induced shrinkage. Vasopressin (15 nM) did not appreciably change cell volume, but induced marked cell shrinkage when glucagon or cAMP was present. Insulin- and phenylephrine-induced cell swelling was counteracted by cAMP. Hormone-induced changes of intracellular water space could sufficiently explain accompanying liver mass changes induced by glucagon, cAMP, adenosine or vasopressin, but not those by phenylephrine and extracellular ATP. The data show that liver cell volume is subject to hormonal regulation, in part owing to modification of cellular K+ balance. Glucagon- and insulin-induced cell volume changes occur already in the presence of physiological hormone concentrations. The effects of Ca2(+)-mobilizing hormones on cell volume are not uniform. In view of the recently established role of cell volume changes in modulating liver cell function, the present findings open a new perspective on the mechanisms of hormone action in liver, underlining our previous hypothesis that cell volume changes may represent a 'second messenger' of hormone action.
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PMID:Regulation of cell volume in the perfused rat liver by hormones. 166 Feb 61

Prominent degrees of hyponatremia are detected in the severe forms of Mediterranean spotted fever and the intensity of this abnormality parallels the severity of the infectious process. In order to determine the incidence, degree and evolution of hyponatremia in 110 patients with Mediterranean spotted fever and to explore the feasible renal mechanism that could lead to this phenomenon, serum and urinary osmolality and levels of urea, creatinine and electrolytes were measured in samples obtained at selected points (up to the fifth week) in the course of the disease, and parameters of renal function were calculated. Mean serum sodium levels of 135.6 +/- 5.5 mEq/l were detected during the acute phase of the infection. At this point, 42 patients (38.2%) had sodium concentrations less than or equal to 135 mEq/l. After recovery, mean serum sodium values were 142.5 +/- 2.5. The analysis of the parameters of renal function indirectly rules out an inappropriate antidiuretic hormone secretion or renal failure as the cause of hyponatremia. As tubular incompetence to reabsorb sodium is also rejected in these patients, a shifting of sodium to the interstitial or intracellular space may account for the phenomenon.
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PMID:Mechanism of low serum sodium levels in Mediterranean spotted fever. 168 72

In amphibian urinary bladder epithelium, vasopressin increases passive urea permeability, concomitant with the appearance of a facilitated urea transport. Amphibian oocytes from Xenopus laevis and Rana esculenta were microinjected with total or fractionated poly(A+) RNA isolated from frog urinary bladder epithelial cells. After several (3-5) days at 18 degrees C, the urea flux was assayed by measuring the uptake and efflux of [14C]urea in water-injected and mRNA-injected oocytes. A 2 to 3-fold increase of urea transport was detected in oocytes injected either with total mRNA or with a 6-10 kilobase mRNA fraction, when compared with water-injected oocytes. This expression of urea channels was inhibited by 0.1 mM phloretin (50% inhibition) and 0.1 mM nitrophenylthiourea (up to 70% inhibition). On the contrary, no expression was detected in brain mRNA-injected oocytes. These results show the specific functional expression of the phloretin- and NPTU-sensitive urea channel (or carrier) from frog urinary bladder epithelial cells, providing an approach for the expression cloning of these urea channels.
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PMID:Functional expression of urea channels in amphibian oocytes injected with frog urinary bladder mRNA. 171 56

We examined the responses of vasopressin-neurons (VP-neurons) and oxytocin-neurons (OT-neurons) to acute salt-loading in a group of conscious rats (CON, n = 8) and rats under sodium pentobarbital (NEM, 50 mg/kg, i.p., n = 8) or urethane (URE, 1.6 g/kg, i.p. n = 8) anesthesia. Fifteen minutes following the induction of anesthesia, sodium pentobarbital produced an increase in basal plasma osmolality (Posm, 290 +/- 2 to 296 +/- 3 mosm/kg H2O, p less than 0.007) while urethane did not change basal Posm (287 +/- 2 to 289 +/- 2 mosm/kg H2O). Neither anesthetic agent resulted in any significant changes in basal plasma levels of vasopressin-associated neurophysin (VP-RNP) and oxytocin-associated neurophysin (OT-RNP). In response to intravenous infusion of 18% saline, all three groups of rats had similar rises in Posm. The slopes of the relationship between the rise in plasma VP-RNP and the rise in Posm were markedly reduced in both groups of anesthetized animals compared to that observed for conscious animals (CON = 2.54 +/- 0.5; NEM = 1.22 +/- 0.18; URE = 1.17 +/- 0.24 fmol.ml-1.mosm-1.kg H2O-1 p less than 0.0126). The slopes of the relationship between the rise in plasma OT-RNP and the rise in Posm were not significantly (p less than 0.4478) different between the CON group and the NEM group, while the slope for the URE group was significantly (p less than 0.05) smaller than that for the CON group (CON = 10.9 +/- 1.5; NEM = 9.3 +/- 1.5; URE = 6.3 +/- 0.7 fmol.ml-1.mosm-1.kg H2O-1).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Influence of pentobarbital and urethane on release from magnocellular neurons. 174 63

To clarify a possible mechanism whereby the perception of thirst may be associated with diabetes mellitus, we measured plasma levels of vasopressin (AVP), angiotensin II (ANG II), atrial natriuretic peptide (ANP) and plasma renin activity (PRA) in non-insulin-dependent (NIDDM) diabetic patients with or without thirst. Thirteen male NIDDM patients complaining of thirst had a significantly high blood hematocrit, plasma urea nitrogen and creatinine concentrations and plasma osmolality, indicating a reduction in plasma volume. In addition, the patients had a significantly high mean plasma concentrations of AVP (3.20 +/- 1.27 pmol/l) ANG II (33.8 +/- 31.4 pmol/l) and PRA, but a low mean plasma ANP concentration (8.9 +/- 4.5 pmol/l). After treatment with diet and/or sulfonylurea, plasma levels of AVP, ANG II and PRA decreased with a concomitant increase in plasma volume and disappearance of thirst. In contrast, 13 NIDDM patients (9 females and 4 males) without thirst had normal plasma urea nitrogen and creatinine concentrations, and the hematocrit did not change significantly after treatment. Plasma AVP (0.95 +/- 0.34 pmol/l), ANG II (14.7 +/- 8.8 pmol/l) and ANP (10.7 +/- 4.9 pmol/l) concentrations, and PRA were normal in this group of patients. There was no significant difference between the two groups of patients, however, in fasting glucose concentration and HbA1c. We conclude from these results that a reduction in plasma volume may be the major factor responsible for the induction of thirst sensation and for increased AVP secretion in NIDDM patients. The mechanism underlying a reduction in plasma volume remains unclear.
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PMID:Thirst and plasma levels of vasopressin, angiotensin II and atrial natriuretic peptide in patients with non-insulin-dependent diabetes mellitus. 182 24

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