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)

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

There is convincing evidence to suggest that there are direct effects of adrenergic agents on renal tubules. During the last several years, considerable progress has been made in determining the type of adrenoceptors present in renal tubular cells through the use of radioligand binding and signal transduction methods. The receptor data are summarized in table 6. Almost all major nephron segments seem to have alpha 1- and alpha 2-adrenoceptors. However, there are few data describing the subtypes of alpha 1- or alpha 2-adrenoceptors in these segments. beta-Adrenoceptors are present in the CNT and collecting ducts of almost all species and in the thick ascending limbs of rats and mice. Adrenergic mediated signal transduction has been examined in some nephron segments, but virtually nothing is known about the relationship between the generation of adrenoceptor-mediated second messengers and changes in phosphorylation/activity of transport proteins (ion channels, ion pumps) in different types of renal tubular cells. There is general agreement that gluconeogenesis in the PCT is mediated by alpha 1-adrenoceptors through the PI and Ca2+ messenger system. Evidence also indicates that the increase in Na+ transport associated with renal nerve stimulation or adrenergic agonists in the PCT or the loop of Henle is mediated by alpha 1-adrenoceptors. Adrenergic agents modulate the effect of other hormones, such as PTH and vasopressin, on renal tubule transport by a decrease in cAMP, and this effect is mediated by alpha 2-adrenoceptors. There may be some interaction between the two alpha subtype-mediated effects in some nephron segments. beta-Adrenergic agonists stimulate cAMP formation in the PST, thick ascending limb (rat and mouse), CNT, and collecting duct segments. The physiological role of the beta-adrenoceptors in the PST is not known. beta-Adrenergic agonists stimulate sodium reabsorption by activation of the basolateral Cl- channel in the thick ascending limbs of rat and mice. The activation of beta-adrenoceptors in the CNT and CCD increases Cl- reabsorption and HCO3- secretion by stimulation of Cl/HCO3 exchange in the apical membrane of type B intercalated cell. The antikaliuretic effect of beta-adrenergic agonists is probably due to the stimulation of K+ reabsorption in type A intercalated cells in the CCD and OMCD. In the case of cholinergic drugs, the data in the literature are consistent with a model in which cholinergic agents increase papillary blood flow, resulting in the washout of the hypertonic medullary interstitium. This leads to a decrease in water abstraction out of the descending limb of Henle's loop.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Actions of adrenergic and cholinergic drugs on renal tubular cells. 155 26

ANP stimulates a profound natriuresis and diuresis by a series of concerted actions along the nephron, including stimulation of glomerular filtration and inhibition of net salt and water reabsorption in the cortical and inner medullary collecting ducts. Several actions of ANP contribute to its natriuretic and diuretic effects in the collecting duct. These include reductions in aldosterone secretion, increases in hydrostatic pressures opposing Na+ reabsorption, possible stimulation of medullary washout, and direct inhibition of salt and water transport. In both CCD and IMCD, ANP antagonizes the hydroosmotic actions of vasopressin, which leads to diuresis. The mechanisms by which ANP inhibits response to vasopressin remain unclear, although in IMCD, cGMP can duplicate the response to ANP. In CCD, ANP can inhibit Na+ reabsorption via cGMP; the transport pathway regulated by ANP is unknown. In IMCD, ANP acting via cGMP inhibits a conductive Na+ or cation channel, which appears to be on the luminal membrane.
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PMID:Renal actions of atrial natriuretic peptide: regulation of collecting duct sodium and water transport. 213 59

Recently, we demonstrated that an ATPase stimulated by K (and not inhibited by ouabain, Na-K-ATPase inhibitor) is present in the connecting tubule (CNT) and collecting duct segments of the rabbit. In this study, we determined the effects of high- and low-K diet on K-ATPase activity in the CNT and collecting duct segments of rabbit. One group of animals was given a low-K diet (34 mEq/kg diet) and the other group was given a high-K diet (700 mEq/kg diet) for 1 week. K-ATPase activity was measured by a microfluorometric assay in which ATP hydrolysis is coupled to oxidation of NADH. Low-K animals had plasma K = 3.1 +/- 0.2 as compared with 5.5 +/- 0.5 mEq/l in high-K animals. Low-K animals had significant K-ATPase activity in CNT, CCD (cortical collecting duct) and MCD (medullary collecting duct). On the other hand, K-ATPase activity in all 3 segments from high-K animals was not significantly different from zero. These results support a hypothesis that chronic K loading suppresses the ouabain-insensitive K-ATPase in the distal nephron.
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PMID:Suppression of ouabain-insensitive K-ATPase activity in rabbit nephron segments during chronic hyperkalemia. 253 99

Aldosterone (aldo) treatment of animals stimulates the rate of H+ secretion in the collecting duct, a process which may involve an H+-ATPase sensitive to inhibition by NEM (N-ethylmaleimide). Therefore, we determined NEM-sensitive ATPase activity in distal nephron segments from three groups of adrenalectomized (adx) rabbits maintained on different doses of aldo (in an osmotic minipump) for seven days. Group 1 was given 1.5 micrograms aldo/100 g body wt/day, whereas groups 2 and 3 were maintained on 5 micrograms and 50 micrograms of aldo/100 g body wt/day, respectively. Aldo concentrations in the plasma of groups 1, 2 and 3 were 10.4 +/- 0.8, 70 +/- 7 and 408 +/- 133 ng/dl, respectively. There was a significant increase in NEM-sensitive ATPase activity in connecting tubule (CNT) and cortical, outer and inner medullary duct segments (CCD, OMCD and IMCD) but not in cortical thick ascending limb (CTAL) and distal convoluted tubule (DCT) in group 2 as compared to group 1. A further increase in plasma concentration of aldo (group 3) did not produce any more increase in NEM-sensitive ATPase activity in the CNT, CCD, OMCD and IMCD, but did increase the enzyme activity in the DCT. These results are consistent with the hypothesis that aldo increases H+ secretion in the connecting tubule and collecting duct segments by increasing the activity of NEM-sensitive H+-ATPase activity in these segments.
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PMID:Effects of aldosterone on NEM-sensitive ATPase in rabbit nephron segments. 290 42

An electrogenic H-ATpase sensitive to inhibition by N-ethyl-maleimide has been reported to be present in renal distal tubules. In contrast to another H-ATPase (gastric H-K-ATPase), the renal enzyme is not stimulated by K+ and is not inhibited by vanadate. However, our preliminary observations indicated that a K-stimulated ATPase (K-ATPase) sensitive to inhibition by vanadate is present in renal medullary collecting duct (MCD). To localize and further characterize this renal tubular K-ATPase, we measured K-ATPase activity in eight specific segments of the rabbit nephron. K-ATPase activity was the difference in ATPase activity in the presence and absence of KCl but in the presence of ouabain (to inhibit Na-K-ATPase). ATPase activity was determined by a fluorometric microassay in which ATP hydrolysis is coupled to the oxidation of NADH. There was a significant K-ATPase activity (expressed as pmol.min-1.mm-1) in the connecting tubule (CNT, 17.0 +/- 3.3), cortical collecting duct (CCD, 6.6 +/- 0.7), and MCD (8.8 +/- 1.7), but not in the proximal segments and the thick ascending limbs. The renal tubular K-ATPase was not only inhibited by vanadate but also by omeprazole and SCH 28080 (relatively specific inhibitors of gastric H-K-ATPase). It is concluded that K-ATPase present in the CNT, CCD, and MCD has some properties in common with gastric H-K-ATPase. However, the physiological role of K-ATPase in the distal nephron segments remains to be elucidated.
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PMID:Ouabain-insensitive K-adenosine triphosphatase in distal nephron segments of the rabbit. 296 63

Band 3 protein is the major anion transport protein of the erythrocyte cell membrane where it catalyzes the exchange of HCO3- for Cl-. There is evidence that band 3 protein is present in the collecting duct of both the rat and rabbit kidney. We used colloidal-gold immunocytochemistry to determine the ultrastructural location of band 3 protein in the rat cortical (CCD) and outer medullary collecting ducts (OMCD). Kidneys of normal Sprague-Dawley rats were fixed by intravascular perfusion with 1% glutaraldehyde and embedded in Lowicryl K4M. Two polyclonal antibodies raised in rabbits were used as the primary antibody in separate experiments, one against the 43-kDa fragment of the cytoplasmic domain of human erythrocyte band 3 protein and the other against rat erythrocyte band 3 protein. This was followed by exposure to gold-conjugated goat anti-rabbit immunoglobulin G. Transmission electron microscopy revealed gold particles along the basal and lateral plasma membranes of all intercalated cells of the OMCD. In the CCD, the basal and lateral plasma membranes of the type A intercalated cells only were labeled with gold particles. The type B intercalated cells and principal cells were devoid of gold particles, as were all cells of the proximal tubule, the distal convoluted tubule, and the thick ascending limb of the loop of Henle. We conclude that a Cl(-)-HCO3- transporter is present in the basal and lateral plasma membranes of the intercalated cells in the OMCD and the type A intercalated cells in the CCD. These findings provide further evidence that these intercalated cells are involved in H+ secretion in the OMCD and CCD of the rat. We have no evidence for the presence of band 3 protein in the type B intercalated cells of the CCD, which supports the hypothesis that type B cells are functionally and structurally distinct from type A cells.
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PMID:Immunocytochemical localization of band 3 protein in the rat collecting duct. 339 6

The distal tubule, which includes the thick ascending limb (TAL), the macula densa, and the distal convoluted tubule (DCT), and the collecting duct are structurally heterogeneous, thus reflecting the functional heterogeneity that is also present. As the TAL ascends from medulla to cortex, the surface area of the apical plasma membrane increases while that of the basolateral membrane decreases. The structure of the DCT resembles that of the medullary TAL. An excellent correlation exists between structure, Na-K-ATPase activity, and NaCl reabsorptive capacity in the distal tubule. The collecting duct is subdivided into the initial collecting tubule (ICT), and cortical (CCD), outer medullary (OMCD), and inner medullary (IMCD) collecting ducts. Between the distal tubule and the collecting duct is a transition region termed the connecting segment or connecting tubule (CNT). Considerable structural heterogeneity exists along the collecting duct within the two major cell populations, the intercalated cells and the principal cells. In the CNT, the ICT, and the CCD, potassium loading and mineralocorticoids stimulate Na-K-ATPase activity and cause proliferation of the basolateral membrane of CNT cells and principal cells, thus identifying the cells responsible for mineralocorticoid-stimulated potassium secretion in these regions. Finally, at least two morphologically distinct populations of intercalated cells exist, types A and B. In the rat, type A predominates in the CNT and the OMCD and is believed to be responsible for H+ secretion, at least in the OMCD. Type B predominates in the CCD, where it may be involved in bicarbonate secretion.
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PMID:Structural-functional relationships along the distal nephron. 351 May 62

The distal tubule, which includes the thick ascending limb (TAL), the macula densa, and the distal convoluted tubule (DCT), and the collecting duct are structurally heterogeneous, thus reflecting the functional heterogeneity that is also present. As the TAL ascends from medulla to cortex, the surface area of the apical plasma membrane increases while that of the basolateral membrane decreases. The structure of the DCT resembles that of the medullary TAL. An excellent correlation exists between structure, Na-K-ATPase activity, and NaCl reabsorptive capacity in the distal tubule. The collecting duct is subdivided into the initial collecting tubule (IC), and cortical (CCD), outer medullary (OMCD), and inner medullary (IMCD) collecting ducts. Between the distal tubule and the collecting duct is a transition region termed the connecting segment or connecting tubule (CNT). Considerable structural heterogeneity exists along the collecting duct within the two major cell populations, the intercalated cells and the principal cells. In the CNT, the ICT, and the CCD, potassium loading and mineralocorticoids stimulate Na-K-ATPase activity and cause proliferation of the basolateral membrane of CNT cells and principal cells, thus identifying the cells responsible for mineralocorticoid-stimulated potassium secretion in these regions. Finally, at least two morphologically distinct populations of intercalated cells exist, types A and B. In the rat, type A predominates in the CNT and the OMCD and is believed to be responsible for H+ secretion, at least in the OMCD. Type B predominates in the CCD, where it may be involved in bicarbonate secretion.
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PMID:Structural-functional relationship along the distal nephron. 352 38

The distribution of transcripts encoding the gastric H(+)-K(+)-adenosinetriphosphatase (ATPase) alpha-subunit in the normal rat kidney was studied by reverse transcription-polymerase chain reaction (RT-PCR), combined with DNA sequence analysis and renal microdissection, and by nonradioactive in situ hybridization of fixed kidney sections using highly specific molecular probes. RT-PCR products corresponding to the gastric H(+)-K(+)-ATPase alpha-subunit were detected in the cortex, outer and inner medulla, and in isolated cortical (CCD) and inner medullary collecting ducts (IMCD). With digoxigenin-labeled cRNAs derived from the 5' and 3' ends of the gastric H(+)-K(+)-ATPase alpha-subunit cDNA, specific hybridization signal was detected prominently in all the cells of the connecting segment and CCD, the intercalated cells of the outer medullary collecting duct, the IMCD, and the renal pelvic epithelium lining the secondary pouches. Weak labeling was noted in the S3 segment of the proximal tubule, the distal convoluted tubule, and the cortical thick ascending limb of Henle. Hybridization with the sense probes produced no cellular labeling. These data provide the first direct demonstration for the expression and cellular distribution of mRNA encoding the gastric H(+)-K(+)-ATPase alpha-subunit in the normal, potassium-replete kidney, and they provide essential tools for the molecular analysis of renal acid base and potassium transport under physiological and pathophysiological conditions.
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PMID:Expression and cellular localization of mRNA encoding the "gastric" isoform of H(+)-K(+)-ATPase alpha-subunit in rat kidney. 784 Feb 53

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