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 vasopressin-dependent urea permeability of the rat terminal inner medullary collecting duct (IMCD) is much greater than can be explained by lipid-phase permeation or paracellular diffusion, suggesting the presence of vasopressin-stimulated facilitated transport pathway. We used the isolated perfused tubule technique to test whether the urea transport pathway exhibits saturation characteristics consistent with a facilitated pathway. When the luminal urea concentration was varied between 0 and 800 mM (no urea in peritubular bath), the relationship between the urea flux and the luminal concentration was linear with a y-axis intercept that was not significantly different from zero, indicating an absence of saturation in this concentration range. Higher concentrations of urea could not be tested due to technical limitations. However, when thiourea (a urea analogue that shares the urea transport pathway with urea) was substituted for urea in similar experiments, the apparent thiourea permeability fell with increasing thiourea concentration in the range 10-200 mM, indicative of saturation of the urea-thiourea transporter. When the urea concentration was varied in both bath and lumen, the lumen-to-bath urea flux approached a limiting value at 400-500 mM urea, consistent with saturation of the transporter. However, nonspecific inhibition of urea transport by bath urea could not be ruled out in those experiments. We conclude that the urea and thiourea transport pathway in the terminal IMCD exhibits saturation characteristics. However, the urea concentration required to saturate the pathway is apparently high, at least 400-500 mM in one set of experiments and probably greater than 800 mM in another.
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PMID:Concentration dependence of urea and thiourea transport in rat inner medullary collecting duct. 210 58

About 30% of hemodialyzed patients are suffering from chronic fluid overload despite advice to restrict the oral fluid intake. To investigate the cause of the abnormal drinking behaviour a clinical study was performed in 51 non-diabetic patients with endstage renal disease exhibiting lower interdialysis weight gain (less than 3 kg, n = 17) and increased interdialysis weight gain (greater than 3 kg, n = 34). Blood pressure, body weight self-estimated thirst intensity before and after hemodialysis were analyzed. Biochemical and behavioral variables were measured including hormonal factors of water and sodium metabolism. Significant differences of dry weight, creatinine, urea nitrogen and thirst intensity were found between the two groups. Catecholamines, renin, angiotensin II, aldosterone, vasopressin and atrial natriuretic peptide exhibited a similar pattern in both groups. Atrial natriuretic peptide decreased during hemodialysis in both groups, angiotensin II, however, and norepinephrine showed an exaggerated response to ultrafiltration rate in polydipsic patients. These results suggest that changes in serum osmolality during hemodialysis did not contribute to thirst and drinking behaviour. It seems that postdialytic hypovolaemia together with higher plasma-angiotensin II-levels is responsible for increased oral intake of fluid and excessive weight gain.
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PMID:[Regulation of thirst in end-stage kidney insufficiency]. 214 56

To assess the effects of increased tonicity on water reabsorption (Jv) in inner medullary collecting ducts (IMCD), antidiuretic hormone (ADH)-stimulated Jv and water permeability (PF) were determined in microperfused IMCD dissected from the inner medulla of rat kidney. In IMCD exposed to a 150-mosmol/kgH2O gradient in isotonic bath, ADH-stimulated PF averaged 719 +/- 93 microns/s. Symmetric addition of 75 mM NaCl to perfusate and bath resulted in a significant augmentation of ADH-stimulated PF (56%) that was reversible when initial solutions were restored. Despite the increase in PF, JV did not change but would have decreased by 16% (P less than 0.01) had PF not increased, because of the greater absolute axial increase in luminal tonicity that occurs with more hypertonic luminal solutions. When 150 mM mannitol was used to increase tonicity, similar effects were observed. However, 150 mM urea had no effect on ADH-stimulated PF. In IMCD exposed to 8-para-(chlorophenylthio)-adenosine 3',5'-cyclic monophosphate, addition of 75 mM NaCl to both and perfusate also resulted in a 76% increase in PF. These results are the first to demonstrate directly that increased effective tonicity augments ADH-stimulated PF in rat IMCD at a site distal to adenosine 3',5'-cyclic monophosphate generation. This effect may contribute to maintenance of medullary interstitial tonicity during antidiuresis by ensuring that most water reabsorption occurs more proximally within the IMCD.
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PMID:Effects of hypertonicity on ADH-stimulated water permeability in rat inner medullary collecting duct. 215 35

1. Our purpose was to determine why hypouricaemia is more frequently observed than hypouraemia in the syndrome of inappropriate secretion of antidiuretic hormone. We have retrospectively analysed the scores of 35 patients with a chronic form of hyponatraemia related to the syndrome of inappropriate secretion of antidiuretic hormone and studied prospectively six patients. 2. The patients with high fractional excretion of filtered urea (greater than 55%) presented lower blood urea and lower salt excretion than the patients with normal fractional excretion of filtered urea, despite similar levels of hyponatraemia and of osmotic and uric acid clearances. In six hyponatraemic patients, an increase in salt intake was accompanied by a decrease in fractional excretion of filtered urea. In the syndrome of inappropriate secretion of antidiuretic hormone, the fractional excretion of filtered urea was inversely correlated to the fractional excretion of filtered sodium (r = -0.66; P less than 0.001), whereas the fractional excretion of filtered uric acid was not dependent on sodium excretion. 3. Hypouraemia with high fractional excretion of filtered urea in patients with the syndrome of inappropriate secretion of antidiuretic hormone is related to low urinary sodium excretion and thus reflects low sodium intake.
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PMID:Dissociation between uric acid and urea clearances in the syndrome of inappropriate secretion of antidiuretic hormone related to salt excretion. 216 69

Regulation of urea transport by vasopressin in inner medullary collecting duct (IMCD) cells is thought to be important for the urinary concentrating mechanism. Isolated tubule perfusion studies suggest the existence of a saturable urea carrier. We have measured 14C-urea efflux in IMCD cells which were freshly isolated and grown in primary culture. Cells were isolated from rat papilla by collagenase digestion and hypotonic shock. In suspended cells, 14C-urea efflux (Jurea) from loaded cells was exponential with time constant 59 +/- 3 sec (SEM, n = 6, 23 degrees C). Jurea had an activation energy of 4.1 kcal/mole and was inhibited 42 +/- 7% by 0.25 mM phloretin and 30-40% by the high affinity urea analogues dimethylurea and phenylurea. Jurea was increased 40-60% by addition of vasopressin (10(-8) M) or 8-bromo-cAMP (1 mM); stimulated Jurea was inhibited 55 +/- 8% by the kinase A inhibitor H-8. Phorbol esters and epidermal growth factor did not alter Jurea. IMCD cells grown in primary culture were homogeneous in appearance with greater than fivefold stimulation of cAMP by vasopressin. The exponential time constant for urea efflux was 610 +/- 20 sec (n = 3). Jurea was not altered by vasopressin, cAMP or phloretin. Another function of in vivo IMCD cells, vasopressin-dependent formation of endosomes containing water channels, was absent in the cultured cells. These results demonstrate presence of a urea transporter on suspended IMCD cells which is activated by cAMP and inhibited by phloretin and urea analogues. The urea transporter and its regulation by cAMP, and cAMP-dependent apical membrane endocytosis, are lost after growth in primary culture.
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PMID:Urea transport in freshly isolated and cultured cells from rat inner medullary collecting duct. 217 46

The terminal part of the inner medullary collecting duct (terminal IMCD) is unique among collecting duct segments in part because its permeability to urea is regulated by vasopressin. The urea permeability can rise to extremely high levels (greater than 100 x 10(-5) cm/s) in response to vasopressin. Recent studies in isolated perfused IMCD segments have established that the rapid movement of urea across the tubule epithelium occurs via a specialized urea transporter, presumably an intrinsic membrane protein, present in both the apical and basolateral membranes. This urea transporter has properties similar to those of the urea transporters in mammalian erythrocytes and in toad urinary bladder, namely, inhibition by phloretin, inhibition by urea analogues, saturation kinetics in equilibrium-exchange experiments, and regulation by vasopressin. The urea transport pathway is distinct from and independent of the vasopressin-regulated water channel. The increase in transepithelial urea transport in response to vasopressin is mediated by adenosine 3',5'-cyclic monophosphate and is associated with an increase in the urea permeability of the apical membrane. However, little is known about the physical events associated with the activation or insertion of urea transporters in the apical membrane. Because of the importance of this transporter to the urinary concentrating mechanism, efforts toward understanding its molecular structure and the molecular basis of its regulation appear to be justified.
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PMID:The vasopressin-regulated urea transporter in renal inner medullary collecting duct. 220 74

The distal inner medullary collecting duct (IMCD) is critical in the urinary concentrating process, in part because it is the site of vasopressin (AVP)-regulated permeability to urea. The purpose of these experiments was to develop a cell culture model of the IMCD on permeable structure and to characterize the responsiveness to AVP. Rat IMCD cells were grown to confluence on collagen-coated Millipore filters glued onto plastic rings. To assess the time required to achieve confluence, the transepithelial resistance was measured periodically and was found to be stable after 2 weeks, at a maximal value of 595 +/- 22 omega cm2. In separate monolayers the effect of AVP on inulin and urea permeability was determined. While inulin permeability was unchanged after AVP, urea permeability increased from 6.0 +/- 0.4 to peak values of 16.0 +/- 3.8 (10 nM), 23.1 +/- 3.9 (1 microM) and 28.1 +/- 4.9 (10 microM) x 10(-6) cm s-1 (n = 24). In 10 other monolayers, after the addition of 1 mM 8-Br-cAMP, urea permeability increased from 5.1 +/- 0.3 to 8.1 +/- 1.6 x 10(-6) cm s-1 and, after 8-Br-cAMP + 3-isobutyl-1-methylxanthine, to 12.2 +/- 0.7 x 10(-6) cm s-1. We conclude that rat IMCD cells grown in culture exhibit the characteristics of a 'tight' epithelium. Inulin and urea permeability are not different in the absence of AVP, consistent with high resistance junctional complexes. Furthermore, IMCD cells retain the capacity for AVP-regulated urea permeability, a characteristic feature of this nephron segment in vivo.
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PMID:Vasopressin-enhanced urea transport by rat inner medullary collecting duct cells in culture. 224 45

A sensitive radioimmunoassay was developed to measure circulating levels of the neurohypophysial peptide lysine vasopressin (LVP) in the marsupial quokka (Setonix brachyurus), which is abundant on Rottnest Island off the coast of Western Australia. Animals from locations on the island where free water is completely absent were compared in midsummer with animals from sites where brackish water is available and utilized by the quokkas. In the animals from West End, where free water is absent, circulating levels of LVP averaged 89.2 +/- 19.6 pg/ml, which was significantly higher than the mean level of 35.6 +/- 15.8 pg/ml measured in individuals collected from the Lakes site with access to brackish drinking water. Rates of water and sodium turnover, measured with isotopes, were significantly greater in Lakes than West End animals, as were renal clearances of sodium, chloride, urea, and total osmolytes. Despite an obvious osmotic diuresis resulting from the ingestion of salty water, the Lakes animals were in better physical condition at the end of summer than the West End animals which lack free water, and these latter individuals showed signs of slight dehydration with elevated plasma and urinary electrolyte concentrations and osmolalities.
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PMID:Effect of available surface water on levels of antidiuretic hormone (lysine vasopressin) and water and electrolyte metabolism of the Rottnest Island quokka (Setonix brachyurus). 229 26

It has been proposed that inner medullary collecting ducts (IMCDs) can absorb fluid in the absence of a transepithelial osmolality gradient if a perfusate-to-bath urea gradient is present. Such a process has been suggested to be caused by a nonunity reflection coefficient for urea (sigma urea less than 1). However, our recent measurements of sigma urea yielded values not significantly different from 1.0. The present study was done to readdress the possibility of direct coupling of water and urea transport in the rat IMCD. Isolated rat terminal IMCD segments were studied in the presence of 10(-10) M vasopressin with the osmolality of the perfusate equal to that of the peritubular bath but with a perfusate-to-bath urea gradient (bath osmolality balanced with NaCl). We measured both fluid absorption rate and urea concentration in collected fluid and calculated the osmolality of the collected fluid. We observed rapid fluid absorption associated with substantial urea absorption. The urea absorption caused a large fall in the osmolality of the collected fluid with respect to the bath. Simulations with a mathematical model of an isolated perfused tubule revealed that the transepithelial osmolality gradient generated along the length of tubule (caused by urea absorption) was large enough to account for the fluid absorption. Measurement of sigma urea with the "zero-flux" (or null point) method revealed a value of 1.00 +/- 0.02. Thus we conclude that the observed fluid absorption is the result of a transepithelial osmolality gradient generated by rapid urea absorption and does not require sigma urea less than one.
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PMID:Urea gradient-associated fluid absorption with sigma urea = 1 in rat terminal collecting duct. 233 49

The present in vitro microperfusion study examined whether furosemide has an effect on hydraulic conductivity (Lp X 10(-6) cm/sec.atm) and 14C-urea permeability (Pu X 10(-5) cm/sec) in inner medullary collecting ducts (IMCD) and cortical collecting tubules (CCT) isolated from rat and rabbit kidneys. Furosemide added to the bath fluid decreased arginine-vasopressin (AVP)-stimulated Lp of rat IMCD in a dose-dependent manner, with the threshold effect at 10(-6) M. Furosemide (10(-4) M) reduced Lp from 20.5 +/- 2.3 to 12.1 +/- 1.2 (P less than 0.01) reversibility, but had no effect when added to the perfusate. In addition, furosemide reduced dibutyryl cyclic AMP-stimulated Lp from 20.3 +/- 1.1 to 11.2 +/- 1.6 (P less than 0.01). This effect of furosemide was also observed with indomethacin, a PGE2 synthesis inhibitor. The addition of indomethacin (10(-4) M) to AVP (50 microU/ml) increased Lp from 24.7 +/- 2.3 to 29.7 +/- 2.8 (P less than 0.001), which was reduced to 20.3 +/- 2.6 (P less than 0.001) when furosemide was added to indomethacin in the bath. The inhibitory effect of furosemide on AVP-stimulated Lp was also observed in rabbit IMCD (Lp decreased from 12.8 +/- 0.8 to 5.15 +/- 1.46, P less than 0.02), but it was not observed in the CCT isolated from rabbit kidneys (7.96 +/- 1.87 with AVP vs. 7.94 +/- 1.41 with AVP + furosemide). Furthermore, in rat IMCD the stimulatory effect of AVP on Pu from 7.7 +/- 0.4 to 26.8 +/- 1.3 was reduced by furosemide to 19.7 +/- 1.2 (P less than 0.01).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of furosemide on water and urea transport in cortical and inner medullary collecting duct. 234 23

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