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)

Whole cell patch-clamp techniques were used to characterize the electrophysiological properties of cells from the inner stripe portion of the rabbit outer medullary collecting duct (OMCDi) grown in primary culture. With pipette and bathing solutions mimicking intracellular and extracellular fluid, the resting membrane voltage was -30 to -40 mV. The whole cell conductance exhibited slight outward rectification, and at the resting membrane voltage the cell conductance averaged 2.58 +/- 0.49 nS (n = 17). The major conductive ion species was Cl-. The Cl- conductance was also found to have a significant permeability to HCO3- and was inhibited by the Cl(-)-channel blockers diphenylamine carboxylic acid and 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid. A small K+ conductance was also present, but no Na+ conductance was detected. Current generated by the H(+)-adenosinetriphosphatase (H(+)-ATPase) was quantitated. This current was dependent on the presence of ATP in the pipette. Dicyclohexylcarbodiimide, N-ethylmaleimide, and bafilomycin A1, inhibitors of the vacuolar H(+)-ATPase, also reduced this outward current in an ATP-dependent manner. The inhibitor-sensitive component of the outward current, a measure of the current generated by the H(+)-ATPase, was in the range of 35-100 pA/cell.
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PMID:Electrophysiological properties of cultured outer medullary collecting duct cells. 133 7

Cells from the inner stripe of the rabbit outer medullary collecting duct (OMCDi) were grown in primary culture, and their acid-base transport properties were characterized using intracellular pH (pHi) measurements with the fluorescent probe 2',7'-bis(carboxyethyl)-5(6)-carboxyfluorescein (BCECF). Basal pHi in HCO(3-)-buffered solutions was 7.28 +/- 0.04 (n = 20). The presence of a Cl-/HCO(3-)-antiporter was demonstrated by reversible alkalinization on bath Cl- removal. The mean alkalinization seen on Cl- removal was 0.16 +/- 0.02 pH units (n = 20) and was inhibited 92% by 10(-4) M 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid. Studies were also performed to determine the presence of an Na+/H+ antiporter and an H(+)-adenosinetriphosphatase (H(+)-ATPase). After an NH4Cl acid load the cells exhibited both Na(+)-dependent and Na(+)-independent pHi recovery mechanisms. The Na(+)-dependent mechanism was inhibited by amiloride. The Na(+)-independent mechanism was completely inhibited by 10(-3) M N-ethylmaleimide or 2.5 x 10(-9) M bafilomycin A1, but was not significantly altered by removal of bathing solution K+. Thus, the Na(+)-dependent recovery mechanism exhibited characteristics of an Na+/H+ antiporter, whereas the Na(+)-independent recovery mechanism was consistent with the presence of an H(+)-ATPase.
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PMID:Characterization of acid-base transporters in cultured outer medullary collecting duct cells. 133 12

We have reported that dopamine (DA) inhibits Na-K-ATPase activity in the cortical collecting duct (CCD) by stimulating the DA1 receptor, and the present study was designed to evaluate the mechanism of this effect. Short-term exposure (15-30 min) of microdissected rat CCD to DA, a DA1 agonist (fenoldopam), vasopressin (AVP), forskolin, or dibutyryl cAMP (dBcAMP), which increase cAMP content by different mechanisms, strongly (approximately 60%) inhibited Na-K-ATPase activity. 2',5'-dideoxyadenosine, an inhibitor of adenylate cyclase, completely blocked Na-K-ATPase inhibition by DA or fenoldopam, and IP20, an inhibitor peptide of cAMP-dependent protein kinase A (PKA), abolished the Na:K pump effect of all the cAMP agonists listed above. To verify whether the mechanism of pump inhibition by agents that increase cell cAMP involves phospholipase A2 (PLA2), we used mepacrine, a PLA2 inhibitor, which also abolished Na-K-ATPase inhibition by DA or fenoldopam, as well as by AVP, forskolin, or dBcAMP. Arachidonic acid (10(-7) - 10(-4) M) inhibited Na-K-ATPase activity in dose-dependent fashion. Corticosterone, which induces lipomodulin, a PLA2 inhibitor protein inactivated by PKA, equally abolished the pump effects of DA, fenoldopam, forskolin, and dBcAMP, suggesting that lipomodulin might act between PKA and PLA2 in cAMP-dependent pump regulation. We conclude that dopamine inhibits Na-K-ATPase activity in the CCD through a DA1 receptor-mediated cAMP-PKA pathway that involves the stimulation of PLA2 and arachidonic acid release, possibly mediated by inactivation of lipomodulin. This pathway is shared by other agonists that increase cell cAMP and thus stimulate PKA activity.
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PMID:Intracellular signaling in the regulation of renal Na-K-ATPase. I. Role of cyclic AMP and phospholipase A2. 134 27

Dopamine decreases tubular sodium reabsorption, attributed in part to Na/K-ATPase inhibition in the proximal convoluted tubule (PCT). Because the final regulation of sodium excretion occurs in the collecting duct, where we have demonstrated specific dopamine DA1 binding sites, we examined the effects of dopamine, and of DA1 and DA2 receptor agonists on the Na/K pump in the microdissected rat cortical collecting duct (CCD) and in Madin-Darby canine kidney (MDCK) cells, a line derived from the dog distal nephron. Dopamine inhibited pump activity in CCD by approximately 40%-50%, an effect proportionally larger than in the PCT. Unlike in the latter, the effect of dopamine was reproduced by the DA1 agonist fenoldopam, which inhibited the CCD pump in dose-dependent manner (maximum, 10 microM). The DA2 agonist quinpirole was without effect, either alone or in combination with fenoldopam. These actions on Na/K-ATPase paralleled in reciprocal fashion effects on adenylate cyclase: dopamine or fenoldopam, but not quinpirole, produced a significant increase in cAMP content, and the stimulation by dopamine was blocked by SCH 23390. Inhibitors of cAMP phosphodiesterase (3-isobutyl-1-methyl-xanthine and theophylline), as well as forskolin and dibutyryl-cAMP, mimicked the effect of dopamine on the pump, underscoring the role of increased cAMP in this phenomenon. Both dopamine and fenoldopam inhibited Na/K-ATPase activity in MDCK cells. The results indicate that besides the PCT dopamine inhibits Na/K-ATPase activity in cells of the distal nephron, where its effect on the pump appears to be more pronounced and is mediated by activation of the DA1 receptor. The natriuretic effect of dopamine is probably exerted at both proximal and distal nephron sites.
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PMID:Dopamine inhibits Na/K-ATPase in single tubules and cultured cells from distal nephron. 135 25

The intercalated cells of the kidney collecting duct are specialized for physiologically regulated proton transport. In these cells, a vacuolar H(+)-ATPase is expressed at enormous levels in a polarized distribution on the plasma membrane, enabling it to serve in transepithelial H+ transport. In contrast, in most eukaryotic cells, vacuolar H(+)-ATPases reside principally in intracellular compartments to effect vacuolar acidification. To investigate the basis for the selective amplification of the proton pump in intercalated cells, we isolated and sequenced cDNA clones for two isoforms of the approximately 56-kDa subunit of the H(+)-ATPase and examined their expression in various tissues. The predicted amino acid sequence of the isoforms was highly conserved in the internal region but diverged in the amino and carboxyl termini. mRNA hybridization to a cDNA probe for one isoform (the "kidney" isoform) was detected only in kidney cortex and medulla, whereas mRNA hybridization to the other isoform of the approximately 56-kDa subunit and to the H(+)-ATPase 31-kDa subunit was found in the kidney and other tissues. Immunocytochemistry of rat kidney with an antibody specific to the kidney isoform revealed intense staining only in the intercalated cells. Staining was absent from proximal tubule and thick ascending limb, where H(+)-ATPase was detected with a monoclonal antibody to the 31-kDa subunit of the H(+)-ATPase. This example of specific amplification of an isoform of one subunit of the vacuolar H(+)-ATPase being limited to a specific cell type suggests that the selective expression of the kidney isoform of the approximately 56-kDa subunit may confer the capacity for amplification and other specialized functions of the vacuolar H(+)-ATPase in the renal intercalated cell.
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PMID:Selectively amplified expression of an isoform of the vacuolar H(+)-ATPase 56-kilodalton subunit in renal intercalated cells. 137 1

Endocytic vesicles that are involved in the vasopressin-stimulated recycling of water channels to and from the apical membrane of kidney collecting duct principal cells were isolated from rat renal papilla by differential and Percoll density gradient centrifugation. Fluorescence quenching measurements showed that the isolated vesicles maintained a high, HgCl2-sensitive water permeability, consistent with the presence of vasopressin-sensitive water channels. They did not, however, exhibit ATP-dependent luminal acidification, nor any N-ethylmaleimide-sensitive ATPase activity, properties that are characteristic of most acidic endosomal compartments. Western blotting with specific antibodies showed that the 31- and 70-kD cytoplasmically oriented subunits of the vacuolar proton pump were not detectable in these apical endosomes from the papilla, whereas they were present in endosomes prepared in parallel from the cortex. In contrast, the 56-kD subunit of the proton pump was abundant in papillary endosomes, and was localized at the apical pole of principal cells by immunocytochemistry. Finally, an antibody that recognizes the 16-kD transmembrane subunit of oat tonoplast ATPase cross-reacted with a distinct 16-kD band in cortical endosomes, but no 16-kD band was detectable in endosomes from the papilla. This antibody also recognized a 16-kD band in affinity-purified H+ ATPase preparations from bovine kidney medulla. Therefore, early endosomes derived from the apical plasma membrane of collecting duct principal cells fail to acidify because they lack functionally important subunits of a vacuolar-type proton pumping ATPase, including the 16-kD transmembrane domain that serves as the proton-conducting channel, and the 70-kD cytoplasmic subunit that contains the ATPase catalytic site. This specialized, non-acidic early endosomal compartment appears to be involved primarily in the hormonally induced recycling of water channels to and from the apical plasma membrane of vasopressin-sensitive cells in the kidney collecting duct.
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PMID:Apical endosomes isolated from kidney collecting duct principal cells lack subunits of the proton pumping ATPase. 138 76

Distal urinary acidification abnormalities may arise from transepithelial voltage defects, permeability defects, or proton-secretory defects, but tests to determine the cellular mechanisms underlying secretory abnormalities have not previously been reported. A patient with Sjogren's syndrome and distal renal tubular acidosis due to a secretory defect is described, whose kidney biopsy was examined by fluorescent immunocytochemistry with an antibody to the M(r) 31,000 subunit of the mammalian kidney vacuolar H(+)-ATPase and was compared with normal human kidney. Staining with the anti-H(+)-ATPase antibody in normal human kidney was detected in the brush border microvilli and subvillar invaginations of the proximal tubule and in intercalated cells in the collecting duct. A biopsy sample from the patient was devoid of any anti-H+-ATPase staining in the intercalated cells. Staining was also absent from the proximal tubule brush border microvilli but was present in the subvillar invaginations. Although autoantibodies to normal human kidney membrane proteins were detected in the serum by immunoblot analysis, no immunocytochemical evidence for anti-intercalated cell autoantibodies was observed in the patient's serum. This report demonstrates that the basis for the proton secretory defect in some patients with distal renal tubular acidosis is likely the absence of H(+)-ATPase in the intercalated cells. It also illustrates the potential diagnostic utility of anti-H(+)-ATPase antibodies in the classification of distal renal tubular acidoses.
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PMID:Absence of H(+)-ATPase in cortical collecting tubules of a patient with Sjogren's syndrome and distal renal tubular acidosis. 139 25

Endothelin-1 (ET-1) may be an important factor in the regulation of inner medullary collecting duct (IMCD) physiology. This segment of the nephron synthesizes ET-1, expresses endothelin receptors, and responds to exogenous ET-1 by reducing Na(+)-K(+)-ATPase activity and water transport. Taken together, these findings suggest an autocrine role for ET-1 in the regulation of IMCD function; however, because of the polarized nature of the IMCD, it is not known if ET-1 secretion, receptors, and receptor activation occur on the same side of the cell. To examine this question, rat IMCD cells were grown to confluence on semipermeable membranes. These cells exhibited polar morphology with high transepithelial electrical resistances. Immunoreactive ET-1 was secreted primarily into the basolateral side. Furthermore, 125I-ET-1 bound predominantly to the basolateral surface. Finally, ET-1 (10(-8) M) stimulated prostaglandin E2 production only when added to the basolateral side. These data indicate, therefore, that ET-1 is capable of autocrine regulation of IMCD cells and that this effect occurs predominantly on the basolateral side.
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PMID:Endothelin-1 is an autocrine factor in rat inner medullary collecting ducts. 141 33

Electron microprobe analysis on freeze-dried cryosections was used to determine the effect of the loop diuretics torasemide and furosemide on intracellular electrolyte concentrations in individual cells of the outer and inner stripe of the outer medulla and on cell rubidium uptake, the latter a measure of basolateral Na-K-ATPase activity. In addition, the organic osmolytes glycerophosphorylcholine (GPC), betaine, inositol and sorbitol in cortex, outer medulla and inner medulla were measured using HPLC. Both loop diuretics significantly reduced sodium and chloride concentrations and rubidium uptake in thick ascending limb cells, but did not affect sodium concentration or rubidium uptake in the proximal straight tubule (PST) cells or in the light or dark cells of the outer medullary collecting duct (OMCD). Chloride concentrations in these cells (that is, PST cells, OMCD light and dark cells) were lowered by loop diuretics, albeit less than in thick ascending limb cells. Administration of both loop diuretics for only 20 minutes was sufficient to significantly depress tissue concentrations of GPC, betaine, and myo-inositol in the outer medulla and of GPC, betaine and sorbitol at the papillary tip. These results indicate that loop diuretics, presumably by blocking apical sodium entry, decrease thick ascending limb cellular sodium concentration and, as a consequence, reduce Na-K-ATPase activity as assessed by cell rubidium uptake. Although this has been shown previously in in vitro preparations, the present study confirms this for the first time in vivo.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of loop diuretics on organic osmolytes and cell electrolytes in the renal outer medulla. 145 80

We examined the effect of Cl- depletion metabolic alkalosis (CDA) on H(+)-ATPase and band 3 protein localization in intercalated cells (IC) of the rat cortical collecting duct (CCD) and the outer medullary collecting duct (OMCD). After 30 min of peritoneal dialysis against 0.15 M NaHCO3 to produce CDA, or Ringer bicarbonate to serve as controls (CON), both groups were infused intravenously with an 80 mM Cl- solution for 90 min. For CDA vs. CON, physiological parameters were as follows: plasma total CO2, 38.0 +/- 1.1 vs. 27.8 +/- 0.6 meq/l (P less than 0.001); urinary total CO2 excretion, 141 +/- 89 vs. 20 +/- 3 neq.min-1.100 g body wt-1; and urinary Cl- excretion, 20 +/- 10 vs. 486 +/- 144 neq.min-1.100 g body wt-1 (P less than 0.001). H(+)-ATPase was localized in thin sections using a rabbit polyclonal antibody against the 70-kDa subunit of bovine brain H(+)-ATPase. Band 3 protein was localized using a polyclonal antibody against the 43-kDa subunit of the cytoplasmic domain of human erythrocyte band 3 protein. In CON rats, H(+)-ATPase localized along the apical plasma membrane and over the apical cytoplasmic vesicles of type A ICs in the CCD and ICs of the OMCD. H(+)-ATPase was observed along the basolateral plasma membrane and over cytoplasmic vesicles throughout type B ICs. In CDA rats, H(+)-ATPase was only observed over apical cytoplasmic vesicles in type A ICs and in the majority of OMCD ICs. In type B ICs, H(+)-ATPase staining was intensified along the basal plasma membrane in CDA. Band 3 protein was consistently localized in the basolateral plasma membrane of all type A cells in the CCD and ICs of the OMCD in both CON and CDA. In summary, stimulation of HCO3- secretion in rats caused withdrawal of H(+)-ATPase from the apical plasma membrane and storage in apical cytoplasmic vesicles of ICs of the OMCD and type A ICs of the CCD. H(+)-ATPase appeared to be inserted into the basal plasma membrane of type B ICs. These findings suggest that, during correction of CDA, proton secretion by type A and OMCD ICs is suppressed and proton transport across the basolateral plasma membrane of type B ICs is stimulated.
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PMID:Response of intercalated cells to chloride depletion metabolic alkalosis. 153 35

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