Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P41181 (collecting duct)
5,183 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have suggested the presence of an H(+)-K(+)-ATPase in rat cortical and medullary intercalated cells with similar properties to the gastric proton pump. The purpose of this study was to determine the functional contribution of an H(+)-K(+)-adenosinetriphosphatase(ATPase) to total CO2 (tCO2) transport along the rat collecting duct. After baseline determination of tCO2 transport in isolated perfused collecting duct segments, Sch 28080 (10 microM) was added to either the perfusate or bath. When Sch 28080 was added to the perfusate, there was no effect in the cortical collecting duct (CCD, 20.8 +/- 6.7 vs. 25.3 + 3.0 pmol.mm-1.min-1), but a marked decrease in tCO2 absorption was effected in both the outer medullary (OMCD, 37.6 + 6.2 vs. 10.7 +/- 4.1 pmol.mm-1.min-1) and initial inner medullary collecting duct (IMCD1, 34.4 +/- 8.1 vs. 16.2 +/- 5.6 pmol.mm-1.min-1). In the CCD from rats with acute alkalosis in vivo, Sch 28080 added to the bath inhibited tCO2 secretion in the CCD (-17.1 +/- 4.4 vs 3.5 + 3.3 pmol.mm-1.min-1). These findings suggest that 1) H(+)-K(+)-ATPase is important in tCO2 absorption in the OMCD and IMCD1 and in tCO2 secretion in the CCD, 2) HCO3(-)-absorbing intercalated cells differ functionally in the cortex and medulla, 3) HCO3- secretion is not the reverse process of HCO3- absorption in the CCD, and 4) H(+)-K(+)-ATPase is important in distal acidification under normal and altered acid-base conditions.
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PMID:H(+)-K(+)-ATPase activity in rat collecting duct segments. 131 8

Multiple lines of evidence support the hypothesis that the outer medullary collecting duct from the inner stripe (OMCDi) possesses a functional proton-potassium-activated adenosinetriphosphatase (H-K-ATPase). To examine the effect of inhibition of H-K-ATPase on Rb efflux, we measured the Rb tracer rate efflux coefficient (KRb) across the OMCDi of animals adapted to a K-restricted diet using the selective K-competitive H-K-ATPase inhibitor, Sch 28080. Sch 28080 (10 microM) did not significantly alter transepithelial voltage (VT) but significantly decreased KRb by 41%. We further examined the effect of 10% peritubular CO2 on KRb and the subsequent effect of Sch 28080 (10 microM) on KRb. After exposure to 10% CO2 for 120 min, vehicle-treated tubules exhibited a small but significant increase in KRb without a significant change in VT. In contrast, 10 microM Sch 28080 significantly decreased KRb by 44% without affecting VT. The lack of an effect of H-K-ATPase inhibition on VT in the presence of either 5% or 10% CO2 was in marked contrast to the effect of carbonic anhydrase inhibition (CAI). CAI consistently and significantly decreased VT either in the presence of 5% or 10% CO2. To address whether H-K-ATPase also participates in proton secretion we examined the effect of Sch 28080 (10 microM) on net bicarbonate absorption by the OMCDi of rabbits fed a normal rabbit ration and rabbits adapted to a K-restricted diet.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Rubidium absorption and proton secretion by rabbit outer medullary collecting duct via H-K-ATPase. 133 4

The role of anion exchange in the regulation of intracellular pH (pHi) under base load and steady-state conditions was investigated in confluent monolayers of rat inner medullary collecting duct (IMCD) cells in primary culture using the pH-sensitive fluoroprobe 2,7-bis(carboxyethyl)-5(6')-carboxyfluorescein (BCECF). Recovery of pHi after imposition of a base load induced either by replacement of HCO3-/CO2 by N-2-hydroxyethylpiperazine-N'-2-ethanesulfonic acid (HEPES) at the same extracellular pH (pHo) or deletion of Cl- from a HCO3-/CO2-buffered solution had an absolute requirement for Cl-, was Na+ independent, and was inhibited approximately 90% by 50 microM 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS). When pHo was decreased by lowering HCO3- concentration in the constant presence of 5% CO2, the rate of decrement in pHi was significantly blunted in the absence of Cl-. Imposition of a positive or negative diffusion potential of equal but opposite magnitude did not modify the anion exchange rate, confirming the electroneutrality of the process. Under steady-state conditions, pHi of cells bathed in a HCO3-/CO2-buffered solution was 7.33 +/- 0.06, significantly lower than that of cells bathed in a nominally HCO3-/CO2-free buffer (7.50 +/- 0.04), indicating that under physiological conditions the pathway functions as a base extruder. In studies performed on cells grown on permeable supports, the anion exchange pathway was found to be confined exclusively to the basolateral-equivalent cell surface. In summary, confluent monolayers of rat IMCD cells in primary culture possess a Na(+)-independent, DIDS-inhibitable electroneutral Cl(-)-HCO3- exchange pathway that is confined to the basolateral cell surface. The transporter is an important determinant of steady-state pHi and is the predominant mechanism whereby the cell recovers from imposed elevations in pHi.
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PMID:Basolateral Na(+)-independent Cl(-)-HCO3- exchange in primary cultures of rat IMCD cells. 141 68

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

Previous in vitro studies have demonstrated spontaneous bicarbonate absorption in the outer stripe portion of the rat outer medullary collecting duct (OMCD) and inner medullary collecting duct, but net acid transport has not been studied in the inner stripe of the rat OMCD (OMCDIS). When we perfused isolated OMCDIS segments with identical bath and perfusate solutions containing HCO-3 and NH4Cl, HCO-3 was spontaneously absorbed, and total ammonia was spontaneously secreted at rapid rates in tubules from both deoxycorticosterone (DOC)-treated and untreated rats. We next measured the NH3 flux due to imposed NH3 concentration gradients. Carbonic anhydrase (CA), when added to the lumen, enhanced the NH3 flux, implying an absence of endogenous CA. The NH3 permeability was 0.0042 +/- 0.0007 cm/s. By measuring the luminal pH in perfused OMCDIS segments with an imposed lumen-to-bath NH3 gradient, we determined the pH at the end of the lumen to be 0.23 units below the equilibrium pH calculated from the simultaneously measured total CO2 concentration in collected fluid, confirming the lack of luminal CA. These results are consistent with the view that ammonium secretion in the OMCDIS occurs predominantly by H+ secretion and parallel NH3 diffusion. A luminal disequilibrium pH due to H+ secretion in the absence of endogenous luminal CA enhances the NH3 entry rate. Spontaneous net acid secretion appears to occur more rapidly in the OMCD than in other parts of the rat collecting duct system.
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PMID:Ammonium and bicarbonate transport in rat outer medullary collecting ducts. 173 85

Primary cultures of rat renal inner medullary collecting duct cells were grown to confluence on glass coverslips and treated permeant supports, and the pH-sensitive fluorescent probe 2,7-biscarboxyethyl-5,6-carboxyfluorescein was employed to delineate the nature of the transport pathways that allowed for recovery from an imposed acid load in a HCO3-/CO2-buffered solution. The H+ efflux rate of acid-loaded cells was 13.44 +/- 0.94 mM/min. Addition of amiloride, 10(-4) M, to the recovery solution reduced the H+ efflux rate to 4.06 +/- 0.63 mM/min. The amiloride-resistant pHi recovery mechanism displayed an absolute requirement for Na+ but was Cl(-)-independent. Studies performed on permeable supports demonstrated that the latter pathway was located primarily on the basolateral-equivalent (BE) cell surface and was inhibited by 50 microM 4,4'-diisothiocyanostilbene-2,2'-disulfonic acid (DIDS). In a Na(+)-replete solution containing DIDS (50 microM) and amiloride (10(-4) M), acid-loaded cells failed to return to basal pHi. To delineate further the amiloride-inhibitable component of pHi recovery, monolayers were studied in the nominal absence of HCO3-/CO2. In 70% of monolayers studied, Na(+)-dependent, amiloride-inhibitable H+ efflux was the sole mechanism whereby acid-loaded cells returned to basal pHi. A Na(+)-independent pathway was observed in 30% of monolayers examined and represented only a minor component of the pHi recovery process. In studies performed on permeable supports, the Na(+)-dependent amiloride-inhibitable pathway was found to be confined exclusively to the BE cell surface. In summary, confluent monolayers of rat renal inner medullary collecting duct cells in primary culture possess two major mechanisms that contribute toward recovery from an imposed acid load, namely, Na+/H+ antiport and Na+/HCO3- cotransport. Na(+)-independent pHi recovery mechanisms represent a minor component of the pHi recovery process in the cultured cell. Both the Na+/H+ antiporter and Na+/HCO3- cotransporter are located primarily on the BE cell surface.
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PMID:Polarized distribution of Na+/H+ antiport and Na+/HCO3- cotransport in primary cultures of renal inner medullary collecting duct cells. 184 27

The isolated perfused tubule technique was utilized to determine whether endogenous luminal carbonic anhydrase is present in the initial or terminal parts of the inner medullary collecting duct (IMCD) of the rat. This was accomplished by measuring the luminal disequilibrium pH in the presence of a large luminal proton source created by perfusing the lumen with a solution containing 10 mM NH4Cl. (NH3 efflux causes H+ to be released from NH+4 in the lumen). The disequilibrium pH was calculated by subtracting the equilibrium pH from the measured pH at the end of the tubule lumen. The end-luminal equilibrium pH was calculated from the total CO2 concentration in the collected fluid, as measured by microcalorimetry. The end-luminal pH was determined by measuring the fluorescent signal from the the pH-sensitive dye 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF), which was added to the luminal perfusate in its nonesterified form. In the initial IMCD, there was no measurable disequilibrium pH. With the addition of the carbonic anhydrase inhibitor acetazolamide to the luminal fluid, a significant acidic pH disequilibrium was elicited. In the terminal IMCD under control conditions a statistically significant acidic disequilibrium pH was measured. The disequilibrium was obliterated when exogenous carbonic anhydrase was added to the luminal perfusate. These findings were verified by measuring total ammonia flux by ultramicrofluorometry. The results demonstrate endogenous luminal carbonic anhydrase activity in the initial IMCD but a lack of enzyme activity in the terminal IMCD.
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PMID:Distribution of luminal carbonic anhydrase activity along rat inner medullary collecting duct. 190

We have measured NH3 and NH4+ permeability coefficients in collecting ducts from the cortex, outer medulla, and inner medulla of the rat kidney. Isolated collecting duct segments of the rat were perfused with bicarbonate-buffered solutions containing carbonic anhydrase to eliminate any pH disequilibrium in the tubule lumen. NH3 or NH4+ concentration gradients were set up between the bath and the lumen. By measuring the total CO2 and total ammonia concentrations in the bath, the perfusate, and collected fluid, the NH3 and NH4+ concentrations were determined. Then, using the flow rate in the tubule and the tubule dimensions, we calculated the apparent permeability in each collecting duct segment for NH3 and NH4+. The NH3 permeabilities were as follows: 0.002 cm/s in the inner medullary collecting duct, 0.012 cm/s in the outer medullary collecting duct, and 0.024 cm/s in the cortical collecting duct. The NH4+ permeabilities for all segments were on the order of 10(-5) cm/s or less. The relative permeability values for the two ammonium species are consistent with the view that the secretion observed in vivo in collecting ducts is due to passive diffusion of NH3 from the interstitium to the lumen of the duct, parallel with H+ secretion.
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PMID:Permeabilities of rat collecting duct segments to NH3 and NH4+. 199 77

Previous studies in chloride-depletion metabolic alkalosis (CDA) generated by intraperitoneal dialysis have suggested major alterations in chloride and bicarbonate transport beyond the distal convoluted tubule. To investigate the possible role of the cortical collecting duct (CCD) in the pathophysiology of CDA, isolated CCD segments were perfused in vitro from either control (CON) rats dialyzed against Ringer-bicarbonate or those made alkalotic by peritoneal dialysis with 0.15 M NaHCO3. Tubules from CDA animals secreted CO2 for greater than or equal to 3 h after dissection (-22.4 +/- 7.2 pmol.mm-1.min-1) compared with CON tubules that absorbed CO2 (18.3 +/- 4.2 pmol.mm-1.min-1). Replacement of luminal chloride with gluconate in the perfusate abolished net total CO2 (tCO2) secretion in tubules from CDA animals (from -21.5 +/- 4.5 to -2.7 +/- 2.3 pmol.mm-1.min-1) but did not alter net tCO2 absorption in tubules from CON animals. In contrast, removal of bath chloride increased net tCO2 secretion (-12.1 +/- 2.9 to -26.1 +/- 3.6 pmol.mm-1.min-1) in CDA tubules, whereas net tCO2 flux was altered from absorption to secretion in CON tubules (15.5 +/- 4.0 to -13.6 +/- 9.2 pmol.mm-1.min-1). These results demonstrate that 1) CDA generated in vivo within 45 min results in stable net tCO2 secretion in vitro up to 240 min in the CCD; 2) luminal chloride is necessary for tCO2 secretion; 3) the shift of net tCO2 flux from absorption to secretion in CON tubules in vitro was not sustained in contrast to CDA tubules.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Total CO2 transport in rat cortical collecting duct in chloride-depletion alkalosis. 210 36

Changes in systemic acid-base balance are known to influence acidification in the collecting duct. The H+ secretion in the collecting duct has been shown to be an electrogenic process and it has been suggested that an H-ATPase sensitive to inhibition by N-ethylmaleimide (NEM) is responsible for H+ secretion. This study was designed to determine the effect of metabolic alkalosis on NEM-sensitive ATPase activity in the microdissected segments of the distal nephron. Metabolic alkalosis was produced by giving NaHCO3 to normal rats for 7 days. The plasma total CO2 concentration in the experimental group was 31.5 +/- 1.8 mM compared with 23.4 +/- 1.0 mM in the control group. NEM-sensitive ATPase activity was significantly lower in the cortical collecting duct and in the outer and inner medullary collecting ducts of alkali-loaded rats than those of control rats. There was no significant difference in the enzyme activity between the two groups of animals in the other nephron segments examined. Our results suggest that NEM-sensitive H-APTase activity in all three segments of the collecting duct is modulated by the acid-base status of the animal.
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PMID:Decrease in N-ethylmaleimide-sensitive ATPase activity in collecting duct by metabolic alkalosis. 214 64


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