UNIPROT:P41181 - FACTA Search

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Query: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Antidiuretic hormone (ADH) stimulation of toad bladder granular cells rapidly increases the osmotic water permeability (Pf) of their apical membranes by insertion of highly selective water channels. Before ADH stimulation, these water channels are stored in large cytoplasmic vesicles called aggrephores. ADH causes aggrephores to fuse with the apical membrane. Termination of ADH stimulation results in prompt endocytosis of water channel-containing membranes via retrieval of these specialized regions of apical membrane. Protein components of the ADH water channel contained within these retrieved vesicles would be expected to be integral membrane protein(s) that span the vesicle's lipid bilayer to create narrow aqueous channels. Our previous work has identified proteins of 55 (actually a 55/53-kDa doublet), 17, 15, and 7 kDa as candidate ADH water channel components. We now have investigated these candidate ADH water channel proteins in purified retrieved vesicles. These vesicles do not contain a functional proton pump as assayed by Western blots of purified vesicle protein probed with anti-H(+)-ATPase antisera. Approximately 60% of vesicle protein is accounted for by three protein bands of 55, 53, and 46 kDa. Smaller contributions to vesicle protein are made by the 17- and 15-kDa proteins. Triton X-114-partitioning analysis shows that the 55, 53, 46, and 17 kDa are integral membrane proteins. Vectorial labeling analysis with two membrane-impermeant reagents shows that the 55-, 53-, and 46-kDa protein species span the lipid bilayer of these vesicles. Thus the 55-, 53-, and 46-kDa proteins possess characteristics expected for ADH water channel components. These data show that the 55- and 53- and perhaps the 46-, 17-, and 15-kDa proteins are likely components of aqueous transmembrane pores that constitute ADH water channels contained within these vesicles.
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PMID:Quantitation and topography of membrane proteins in highly water-permeable vesicles from ADH-stimulated toad bladder. 183 Apr 55

Endothelin has been shown to affect a broad range of renal functions, including rat inner medullary collecting duct Na/K ATPase activity, renin release, renal blood flow, and glomerular filtration rate. The source of endothelin in the kidney has been assumed to be endothelial cells. However, the inner medulla contains the highest concentration of immunoreactive endothelin in the kidney. Additionally, MDCK cells, a distal tubule-like cell line, synthesize endothelin. In order to determine if primary renal tubule cells release endothelin, supernatants collected from rat inner medullary collecting duct cells in culture were tested for endothelin-1 detected by specific radioimmunoassay. Inner medullary collecting duct cells produced endothelin-1 in a time-dependent manner, releasing 1,016.7 +/- 60.1 pg of endothelin-1 per mg/cell protein/24 h. Inner medullary collecting duct cells expressed a 2.2-kilobase mRNA on blot hybridization with rat prepro endothelin-1 cDNA. Vasopressin, thrombin, bradykinin, and epinephrine did not affect endothelin-1 release. These data demonstrate endothelin-1 production by inner medullary collecting duct cells and suggest a possible autocrine role for the peptide.
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PMID:Endothelin synthesis by rat inner medullary collecting duct cells. 195 27

Vasopressin regulates transepithelial osmotic water permeability in the kidney collecting duct and in target cells in other tissues. In the presence of hormone, water channels are inserted into an otherwise impermeable apical plasma membrane and the apical surface of these cells is dramatically remodelled. Because cytochalasin B and D greatly reduce the response of these cells to vasopressin, actin filaments are believed to participate in the events leading to an increase in transepithelial water permeability. Modulation of the actin filamentous network requires the concerted action of specific actin regulatory proteins, and in the present study we used protein A-gold immunocytochemistry to localize two important molecules, gelsolin and actin binding protein (ABP), in epithelial cells of the kidney inner medulla. Gelsolin and, to a lesser extent, ABP were concentrated in clusters in the apical cell web of principal cells of the collecting duct. Aggregates of gold particles were often associated with the cytoplasmic side of plasma membrane regions forming surface extensions or microvilli. The basolateral plasma membrane was labeled to a much lesser extent than the apical plasma membrane. In the thin limbs of Henle, ABP was localized over the apical plasma membrane in ascending limbs, but gelsolin labeling was weak in these cells. In thin descending limbs, the pattern of labeling was completely reversed, with abundant apical gelsolin labeling but only weak ABP immunolabeling. Although the significance of the distribution of actin regulatory proteins in thin limbs is unknown, the abundance and the predominantly apical polarization of both ABP and gelsolin in principal cells of the collecting duct is consistent with a role of the actin cytoskeleton in the mechanism of vasopressin actin.
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PMID:Polarization of gelsolin and actin binding protein in kidney epithelial cells. 216 58

Vasopressin (V) causes a sustained increase in Na reabsorption and K secretion in isolated cortical collecting ducts (CCD) from rats. Because increased Na reabsorption may be associated with increased Na+-K+-ATPase activity, we investigated effects of V, given either in vivo or in vitro, on Na+-K+-ATPase activity in isolated nephron segments of rats. Na+-K+-ATPase activities were measured by coupling the hydrolysis of ATP to the production of a fluorescent nucleotide. In addition to CCD, other microdissected structures were medullary thick ascending limbs of Henle's loop, cortical thick ascending limbs of Henle's loop, and outer medullary collecting duct. To determine the time course of the response, Na+-K+-ATPase activities were measured in CCD 1 h, 3 h, 1 day, 3 days, and 7 days after intramuscular administrations of V. There was a significant increase in Na+-K+-ATPase activity in CCD after in vivo V administration for 7 days but not in any other segment. The activities increased after 3 days of administration of V. For in vitro experiments, CCD were incubated with 10(-6) M V for 1-3 h. Na+-K+-ATPase activities did not change after 1- or 3-h exposure of V in CCD in vitro. We conclude that prolonged V administration in vivo increases Na+-K+-ATPase activity in CCD. Because, in vitro exposure to V does not increase Na+-K+-ATPase activity, we conclude that rapid V-dependent increases in Na and K transport previously demonstrated in isolated perfused tubules are not dependent on a change in maximal Na+-K+-ATPase activity.
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PMID:Effect of vasopressin on Na+-K+-ATPase activity in rat cortical collecting duct. 282 37

Antidiuretic hormone increases the water permeability of the cortical collecting tubule and causes the appearance of intramembrane particle aggregates in the apical plasma membrane of principal cells. Particle aggregates are located in apical membrane coated pits during stimulation of collecting ducts with ADH in situ. Removal of ADH causes a rapid decline in water permeability. We evaluated apical membrane retrieval associated with removal of ADH by studying the endocytosis of horseradish peroxidase (HRP) from an isotonic solution in the lumen. HRP uptake was quantified enzymatically and its intracellular distribution examined by electron microscopy. When tubules were perfused with HRP for 20 min in the absence of ADH, HRP uptake was 0.5 +/- 0.3 pg/min/micron tubule length (n = 6). The uptake of HRP in tubules exposed continuously to ADH during the 20-min HRP perfusion period was 1.3 +/- 0.8 pg/min/micron (n = 8). HRP uptake increased markedly to 3.2 +/- 1.1 pg/min/micron (n = 14), when the 20-min period of perfusion with HRP began immediately after removal of ADH from the peritubular bath. Endocytosis of HRP occurred in both principal and intercalated cells via apical membrane coated pits. We suggest that the rapid decline in cortical collecting duct water permeability which occurs following removal of ADH is mediated by retrieval of water permeable membrane via coated pits.
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PMID:Apical membrane endocytosis via coated pits is stimulated by removal of antidiuretic hormone from isolated, perfused rabbit cortical collecting tubule. 290 50

It has been proposed that regulation of NaCl excretion occurs in part by hormonal effects on NaCl permeability in the inner medullary collecting duct (IMCD). We carried out experiments in isolated perfused terminal IMCDs to determine whether atrial natriuretic factor (ANF), vasopressin, or deoxycorticosterone (DOC) affects NaCl permeability. Apparent Cl- or Na+ permeabilities (PCl and PNa) were determined by measuring ion fluxes resulting from imposed electrochemical gradients. Transepithelial resistance (RT) was calculated from voltage deflections at the perfusion and collection ends of the tubule, which resulted from perfusion end current injection (cable analysis). ANF [rat ANF-(1-28), 100 nM in the peritubular bath] significantly decreased PCl from 2.20 to 1.84 x 10(-5) cm/s and did not alter PNa (1.11 to 1.18 x 10(-5) cm/s). ANF also decreased PCl in IMCDs from DOC-treated rats (1.14 to 0.98 x 10(-5) cm/s). Vasopressin (10 nM in the peritubular bath) did not affect PCl. RT averaged 39.3 omega.cm2 in IMCDs from control rats and was significantly increased to 62.3 omega.cm2 in tubules from DOC-treated rats. Neither ANF nor vasopressin significantly affected RT in either group. We conclude the following: 1) the results do not support the hypothesis that ANF causes natriuresis by increasing the NaCl permeability of the terminal IMCD. Instead, ANF significantly decreases the chloride permeability. 2) Vasopressin does not affect NaCl permeability. 3) Mineralocorticoid-induced antinatriuresis may be due in part to reduced NaCl permeability in the terminal IMCD.
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PMID:Hormone effects on NaCl permeability of rat inner medullary collecting duct. 297 Jul 97

The present study was undertaken to investigate the cAMP system in isolated vasopressin (AVP)-sensitive segments of the hypercalcemic rat. Hypercalcemia was produced by supplementation of diet with dihydrotachysterol, achieving a mean serum calcium of 12.6 mg%. Maximal urinary concentration was only 1982 +/- 119 mOsm/kg H2O in pair, watered hypercalcemic rats when compared to 2478 +/- 93 mOsm/kg H2O in controls (N = 7) (P less than 0.01). Vasopressin stimulated adenylate cyclase activity at concentrations of vasopressin between 10(-9) and 10(-7) M was indistinguishable in the outer medullary collecting duct (OMCD) and inner medullary collecting duct (IMCD) of tubules dissected from hypercalcemic rats or normocalcemic rats. Likewise, in situ cAMP accumulation in response to 10(-7) M AVP was not significantly different in either OMCD or IMCD of hypercalcemic or normocalcemic rats at either isotonic or hypertonic media conditions. In contrast, while 10(-7) M AVP significantly (P less than 0.05) increased cAMP accumulation in the medullary ascending limb (MAL) of normocalcemic rats it failed to do so in the MAL of hypercalcemic rats. This failure to accumulate cAMP appears to be due to impairment in AVP-stimulated adenylate cyclase rather than to enhanced phosphodiesterase activity. A similar decrement in glucagon stimulated adenylate cyclase occurred with 10(-6) M glucagon. The results demonstrate that in chronic hypercalcemia the cAMP system in the OMCT and IMCD of the rat is intact, but the MAL demonstrates abnormal AVP responsiveness due to impaired adenylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The cAMP system in vasopressin-sensitive nephron segments of the vitamin D-treated rat. 303 55

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

Clearance experiments were performed to characterize the sensitivity to vasopressin of the thick ascending limbs and collecting duct system of the rat kidney. The response of the thick ascending limbs was evaluated by measuring the Mg2+ excretion rate in the urine, since the [arginine-8] vasopressin-mediated effects on Mg2+ excretion are the direct result of a stimulation of Mg2+ reabsorption in this nephron segment, and the response of the collecting ducts was evaluated by changes in urine flow. To avoid the effects of parathyroid hormone, glucagon, and calcitonin, which stimulate Mg2+ reabsorption in the thick ascending limb and distal tubule, and of calcitonin, which increases the permeability of the cortical collecting ducts to water, experiments were performed on Brattleboro D. I. rats (with hereditary diabetes insipidus, due to a lack of [Arg8]vasopressin) acutely deprived of endogenous parathyroid hormone, calcitonin, and glucagon. Vasopressin infused at rates up to 5 pg/min did not reduce the Mg2+ fractional excretion rate, whereas at 5 pg/min water excretion was decreased by 50%. The half-maximal reduction of Mg2+ excretion occurred at vasopressin infusion rates 4-6 times higher than those necessary to diminish the water excretion rate to the same extent. We conclude that in vivo, two segments involved in the production of concentrated urine have different sensitivities to vasopressin and that this difference in sensitivity is very similar for the biological response in vivo and the adenylate cyclase activation in vitro. We suggest that both the magnitude and the nature of the effects of [Arg8]vasopressin on the kidney may vary according to the required antidiuretic response.
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PMID:Sensitivities of rat kidney thick ascending limbs and collecting ducts to vasopressin in vivo. 345 86

Antidiuretic hormone (ADH) causes the appearance of water-conducting particle aggregates in the luminal membrane of receptor cells in amphibian bladder and skin, and in the mammalian collecting duct. The aggregates originate from cytoplasmic tubules that fuse with the luminal membrane during ADH stimulation. We have studied the process of fusion and the structure of the particle aggregates by a rapid-freeze technique that renders chemical fixation and glycerol protection unnecessary. Our findings differ in some important respects from previously published work. Aggregate particles, in our study, partition equally between the external (EF) and protoplasmic (PF) membrane leaflets, rather than remaining in the protoplasmic leaflet exclusively. By including the entire population of fusion images in our survey, we have found that aggregate delivery in ADH-treated cells proceeds preferentially from small fusion images whose diameter is significantly less than the 0.12 micron characteristic of the carrier tubules themselves. We have also found that, even in unstimulated preparations, fusion images are numerous, being mostly of small diameter. ADH stimulation produces a moderate increase in the number of fusion images and a significant increase in fusion-image diameter. These findings indicate that the individual particles are mobile within the membrane, lacking interparticle linkage. In addition, contact of cytoplasmic tubules with the luminal membrane may take place even in the absence of ADH, producing small fusion images which are not associated with aggregate delivery to the luminal membrane.
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PMID:Fusion images and intramembrane particle aggregates during the action of antidiuretic hormone. A rapid-freeze study. 392 22

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