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)

Rats were given a lithium-containing diet (40 mmol/kg) to study the effect of lithium on the structure of collecting ducts from the inner stripe of the outer medulla. The results show that there is a significant increase in the volume density of collecting ducts already after one week on this diet. The volume density of both intercalated and principal cells increases, whereas the volume density of mitochondria in the cytoplasm increases in the intercalated cells only. The increased volume of both principal and intercalated cells seems to be part of a general hyperplasia and hyperactivity of the collecting duct, which may in some way be related to the effects of lithium on vasopressin-mediated mediated water transport. The specific changes in the intercalated cells may be a consequence of the effects of lithium on distal nephron potassium and hydrogen ion transport in the distal nephron.
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PMID:A morphometric and ultrastructural study of lithium-induced changes in the medullary collecting ducts of the rat kidney. 304 Feb 54

The physical properties and chemical composition of urine are highly variable and are determined in large measure by the quantity and the type of food consumed. The specific gravity is the ratio of the density to that of water, and it is dependent on the number and weight of solute particles and on the temperature of the sample. The weight of solute particles is constituted mainly of urea (73%), chloride (5.4%), sodium (5.1%), potassium (2.4%), phosphate (2.0%), uric acid (1.7%), and sulfate (1.3%). Nevertheless, urine osmolality depends only on the number of solute particles. The renal production of maximally concentrated urine and formation of dilute urine may be reduced to two basic elements: (1) generation and maintenance of a renal medullary solute concentration hypertonic to plasma and (2) a mechanism for osmotic equilibration between the inner medulla and the collecting duct fluid. The interaction of the renal medullary countercurrent system, circulating levels of antidiuretic hormone, and thirst regulates water metabolism. Renin, aldosterone, prostaglandins, and kinins also play a role. Clinical estimation of the concentrating and diluting capacity can be performed by relatively simple provocative tests. However, urinary specific gravity after taking no fluids for 12 h overnight should be 1.025 or more, so that the second urine in the morning is a useful sample for screening purposes. Many preservation procedures affect specific gravity measurements. The concentration of solids (or water) in urine can be measured by weighing, hydrometer, refractometry, surface tension, osmolality, a reagent strip, or oscillations of a capillary tube. These measurements are interrelated, not identical. Urinary density measurement is useful to assess the disorders of water balance and to discriminate between prerenal azotemia and acute tubular necrosis. The water balance regulates the serum sodium concentration, therefore disorders are revealed by hypo- and hypernatremia. The disturbances are due to renal and nonrenal diseases, mainly liver, cardiovascular, intestinal, endocrine, and iatrogenic. Fluid management is an important topic of intensive care medicine. Moreover, the usefulness of specific gravity measurement of urine lies in interpreting other findings of urinalysis, both chemical and microscopical.
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PMID:Relative density of urine: methods and clinical significance. 307 30

Our previous studies in cortical collecting ducts isolated from rat kidneys have shown that vasopressin increases both sodium absorption and potassium secretion, while bradykinin inhibits sodium absorption without affecting potassium transport. To determine which anions are affected by these agents, we perfused cortical collecting ducts from rats treated with deoxycorticosterone and measured net chloride flux, net bicarbonate flux (measured as total CO2), transepithelial voltage, and the rate of fluid absorption. Arginine vasopressin (10(-10) M in the peritubular bath) caused a sustained sixfold increase in net chloride absorption and a two- to threefold increase in the magnitude of the lumen negative transepithelial voltage. Before addition of vasopressin, the tubules secreted bicarbonate. Vasopressin abolished the bicarbonate secretion, resulting in net bicarbonate absorption (presumably due to proton secretion) in many tubules. Bradykinin (10(-9) M added to the peritubular bath) caused a reversible 40% inhibition of net chloride absorption, but did not affect the transepithelial voltage or the bicarbonate flux. We concluded: (a) that arginine vasopressin stimulates absorption of chloride and inhibits bicarbonate secretion (or stimulates proton secretion) in the rat cortical collecting duct; and (b) that bradykinin inhibits net chloride absorption in the rat cortical collecting duct without affecting transepithelial voltage or bicarbonate flux. Combining these results with the previous observations on cation fluxes described above, we conclude that bradykinin inhibits electroneutral NaCl absorption (or stimulates electroneutral NaCl secretion) in the rat cortical collecting duct.
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PMID:Effects of vasopressin and bradykinin on anion transport by the rat cortical collecting duct. Evidence for an electroneutral sodium chloride transport pathway. 308 Apr 71

Carbamazepine (CBZ)-induced water intoxication occasionally limits its usefulness in refractory seizures and trigeminal neuralgia. Fluid restriction, CBZ dose reduction, or concomitant phenytoin therapy may be impractical or ineffective. Demeclocycline (7-chloro-6 demethyl tetracycline) (DMC) corrected the CBZ-induced water intoxication in a 51-year-old man with refractory complex partial seizures and a normal antidiuretic hormone (ADH) level. DMC inhibits ADH-sensitive adenylate cyclase activity in the renal collecting duct and may be useful in correcting the ADH-like or renal antidiuretic effect of CBZ.
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PMID:Perspective on carbamazepine-induced water intoxication: reversal by demeclocycline. 309 19

Using the in vitro microperfusion technique on isolated rat papillary collecting duct (PCD), we examined whether the glutaraldehyde-fixation method can be also applied to the mammalian collecting duct for preservation of the vasopressin-stimulated water and urea transport. Arginine vasopressin (AVP) at 10(-9) mol/l increased diffusional water permeability (Pdw) from 101.9 +/- 10.76 to 283.3 +/- 16.67 X 10(-7) cm2 s-1 (n = 8, P less than 0.01) and urea permeability (Purea) from 30.3 +/- 2.24 to 83.5 +/- 7.80 X 10(-7) cm2 s-1 (n = 8, P less than 0.01). Both parameters remained elevated after fixation with 0.1 mol/l glutaraldehyde even in the absence of AVP, with the values being 265.0 +/- 14.47 and 74.5 +/- 7.15 X 10(-7) cm2 s-1, respectively. Glutaraldehyde fixation did not affect the basal levels of Pdw or Purea. Phloretin at 2.5 X 10(-4) mol/l decreased glutaraldehyde-fixed AVP-stimulated Purea from 79.0 +/- 7.96 to 29.7 +/- 3.66 X 10(-7) cm2 s-1 (n = 4, P less than 0.01) and from 73.2 +/- 7.05 to 38.7 +/- 3.53 X 10(-7) cm2 s-1 (n = 4, P less than 0.01) when the drug was added to the lumen or to the bath, respectively. Phloretin also decreased glutaraldehyde-fixed non-stimulated Purea by 25-40%. However, this drug did not affect glutaraldehyde-fixed Pdw. These findings indicate that the glutaraldehyde fixation method can be applied to mammalian collecting tubules for studying vasopressin stimulated Pdw and Purea. Purea fixed by glutaraldehyde is functionally flexible and may be distinct from the water pathway.
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PMID:Effects of glutaraldehyde fixation on renal tubular function. I. Preservation of vasopressin-stimulated water and urea pathways in rat papillary collecting duct. 311 Jul 36

We examined the electrophysiological and Na+ transport characteristics of rat papillary collecting duct (PCD) cells grown in primary cultures. Grown as monolayers on polycarbonate filters, the cells displayed similar morphological characteristics to native epithelia. They also bound Dolichus biflorus lectin, a property shared by native cells. Monolayers developed a peak electrical resistance of 100-200 omega.cm2 and a transmonolayer voltage of less than 2 mV. Similar values were measured in the perfused, native PCD of the same species as well as PCD cells cultured from rabbit and bovine kidneys. Hamster cells did not readily develop confluent monolayers under the same conditions. Exposure of the cultured cells to 10% fetal calf serum for 24 h caused the Na+ uptake across the apical membrane to double, an effect not reproduced by indomethacin, insulin, vasopressin, aldosterone, dexamethasone, or hexamethylene bisacetamide (an inducer of differentiation). Amiloride (1 mM) inhibited Na+ uptake by 50-80%. The measured short-circuit current did not correlate with Na+ uptake and was clearly dissociated by exposure to serum. The results suggest that there is more than one mechanism of ion transport by the rat PCD.
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PMID:Characteristics of papillary collecting duct cells in primary culture. 314 84

In target epithelia, a vasopressin-induced water permeability increase is accompanied by the appearance of intramembranous particle (IMP) clusters, probably representing water-permeable patches, in the apical plasma membrane of responding cells. In the collecting duct principal cell, we have previously shown that these clusters are located in clathrin-coated pits. To determine whether vasopressin induces the endocytic uptake of these membrane domains in principal cells, we have examined the uptake of horseradish peroxidase (HRP) by principal cells of normal rats, vasopressin-deficient Brattleboro rats, and vasopressin-treated Brattleboro rats, following intravenous injection of HRP. By quantitative electron microscopy, principal cells of Brattleboro homozygous rats were found to take up much less HRP into cytoplasmic vesicles than normal rats, and HRP uptake was increased to normal levels in vasopressin-treated Brattleboro rats. Many invaginating coated pits at the cell surface were loaded with HRP reaction product, indicating their participation in the observed endocytosis of HRP. We conclude that vasopressin stimulates endocytosis in collecting duct principal cells. Since we have already shown that IMP clusters are found in coated pits at the cell surface, the endocytic removal of these putative water-permeable patches from the apical membrane seems to occur via a clathrin-mediated mechanism in this tissue.
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PMID:Vasopressin stimulates endocytosis in kidney collecting duct principal cells. 316 37

To demonstrate that osmotic work can be accomplished across the inner medullary collecting duct (IMCD) by the difference in reflection coefficients for urea and NaCl, phenomenological coefficients for urea and NaCl transport were determined in isolated segments of the hamster IMCD perfused in vitro. Arginine vasopressin at 100 microU/ml increased urea permeability from 11.5 +/- 2.9 to 31.7 +/- 4.2 x 10(-7) cm2 s-1 in the middle IMCD but not in the upper IMCD. Urea transport in the middle IMCD consisted of two components, transport with saturable kinetics and simple passive diffusion. Permeability to Na+ was very low (2 x 10(-7) cm2 s-1). Reflection coefficients as measured by the equiosmolality method, with raffinose being a reference solute, were 0.87 +/- 0.05 and 0.71 +/- 0.04 for urea and 1.03 +/- 0.07 and 0.91 +/- 0.04 for NaCl in the upper and the middle IMCD, respectively. Reflection coefficient for urea in the middle IMCD was 0.68 when determined by the zero volume flux method. When the middle IMCD was perfused with bicarbonate Krebs-Ringer (BKR) solution containing 200 mmol/l urea, the replacement of urea in the bathing fluid with equisomolal NaCl caused large volume flux (3.81 +/- 0.45 nl mm-1 min-1) associated with dilatation of intercellular space. The existence of vasopressin in the bath was essential for this phenomenon. This effect was inhibited by 5 x 10(-4) M phloretin in the bath, suggesting that the vasoressin-stimulated urea transport is responsible for this phenomenon. From these observations, we conclude that transport parameters of the middle IMCD are appropriate for accomplishment of osmotic work across this segment in the absence of physicochemical osmotic gradients.
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PMID:Osmotic work across inner medullary collecting duct accomplished by difference in reflection coefficients for urea and NaCl. 321 9

The ultrastructure of collecting duct epithelia was studied with the osmium impregnation technique in renal cortical explants grown in culture in the form of globular bodies. When this technique was applied to 7-day-old globular bodies, the endoplasmic reticulum (ER) of the superficial layer cells was faintly impregnated in the presence or absence of arginine-vasopressin (AVP) in the incubation medium; the ER of the cells located in the core of the globular bodies was densely impregnated with osmium. When these globular bodies were sectioned in 2 fragments and one was incubated in AVP for 30 min while the other was used as a control, a marked increase in osmium impregnation occurred: osmium black deposits were then noted in the lumen of the endoplasmic reticulum of two-thirds of the cells in the superficial layer. Various patterns of impregnation were observed. Cryptlike formations gave rise to mature epithelial cells showing the same pattern of osmium impregnation. When cyclic adenosine monophosphate (cAMP) was substituted for AVP in the incubation medium, the treated globular bodies revealed the same ultrastructural characteristics. Our data suggest that this primary culture of collecting duct epithelia is made up of heterogeneous cells with characteristics of principal and intercalated cells and that the AVP has a stimulatory effect on ER maturation, which is mediated by the adenylate cyclase system.
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PMID:Vasopressin modifies osmium impregnation of the endoplasmic reticulum in cultured kidney collecting duct cells. 322 13

1. The effects of basolateral and luminal pH on diffusional water permeability of microperfused collecting ducts of isolated rat papillae were examined in the presence and absence of vasopressin at two concentrations. 2. In the absence of vasopressin, collecting duct diffusional water permeabilities did not differ when the pH of the luminal fluid was varied. Similarly, in the absence of vasopressin, collecting duct diffusional water permeabilities did not differ when the bath pH was varied. 3. In the presence of 50 microU/ml vasopressin, increases in diffusional water permeability of collecting ducts perfused with solutions at pH 5.0, 7.4 or 9.0 did not differ significantly. Similarly, increases in diffusional water permeability induced by 200 microU/ml vasopressin were not different when collecting ducts were perfused with solutions at pH 5.0, 7.4 or 9.0. 4. The presence of vasopressin (50 microU/ml) in the bathing medium at pH 6.4, 7.4 and 8.4 induced increments in diffusional water permeability of 0.40 +/- 0.21 (n = 14, P greater than 0.05), 1.56 +/- 0.27 (n = 27, P less than 0.001) and 1.67 +/- 0.24 (n = 12, P less than 0.001) microns/s, respectively. The increment in water permeability at pH 6.4 was significantly less than that at pH 7.4 (P less than 0.001). 5. The presence of vasopressin (200 microU/ml) in the bathing medium at pH 6.4, 7.4 and 8.4 induced increments in diffusional water permeability of 2.16 +/- 0.54 (n = 9, P less than 0.01), 2.55 +/- 0.51 (n = 17, P less than 0.001) and 0.98 +/- 0.34 (n = 11, P less than 0.05) microns/s respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of pH on vasopressin-induced water permeability in collecting ducts of isolated rat papillae. 322 9

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