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)

The immature kidney is characterized by resistance to arginine vasopressin (AVP). In the immature cortical collecting duct (iCCD), AVP-stimulated adenosine 3',5'-cyclic monophosphate (cAMP) generation is decreased, but the mechanisms involved are not known. We examined cAMP production in isolated CCD from immature and mature rabbits. Cellular cAMP levels were measured by radioimmunoassay under basal conditions and after stimulation with hormone. Basal cAMP production in the iCCD was not different from that in the mature CCD (mCCD). In contrast, AVP- and forskolin-stimulated cAMP generation were severely decreased in the iCCD. Inhibition of endogenous prostaglandin production by indomethacin increased AVP-stimulated cAMP generation in the iCCD to levels that were not different from the mCCD. Inhibition of protein kinase C (PKC) by staurosporine and inhibition of Gi by pertussis toxin elicited a mature cAMP response in the iCCD. These data suggest that the defect in AVP-stimulated cAMP production in the iCCD is mediated by prostaglandins via 1) activation of Gi and 2) direct inhibition of the adenylyl cyclase catalytic subunit. In addition, PKC appears to play a significant role.
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PMID:Prostaglandins mediate the defect in AVP-stimulated cAMP generation in immature collecting duct. 804 63

In the cortical collecting duct of the rat two Ca(2+)-dependent K+ channels have been described so far. In the luminal membrane a maxi K+ channel with a single channel conductance of 139 +/- 3 pS in excised membrane patches (n = 91) at 0 mV clamp voltage and asymmetrical KCl-concentrations in pipette and bath was found, while in the basolateral membrane an intermediate conductance K+ channel (85 +/- 1 pS, n = 53) and a small K+ channel (28 +/- 2 pS, n = 15) was described. All these K+ channels had similar pharmacological properties since all could be blocked by the K+ channel inhibitors Ba2+, TEA+, and charybdotoxin. Verapamil, known as a L-type Ca2+ channel blocker, was also capable of inhibiting these K+ channels. While the maxi K+ channel from the luminal membrane was upregulated by intracellular Ca2+ (EC50: 5 microM), the small and the intermediate K+ channel from the basolateral membrane were downregulated (IC50: 10 microM). When the cytosolic Ca(2+)-activity was in the physiological range below 1 microM the activity of the maxi K+ channel was low and regulated via intracellular pH and ATP. Furthermore, when CCD cells were strongly depolarized and under hypoosmotic stress, Ca2+ rose and activated this K+ channel, indicating that this channel is involved in volume regulation. Like the maxi K+ channel the intermediate conductance K+ channel from the basolateral membrane was also sensitive to intracellular changes of pH where acidic pH inhibited while alkaline pH activated this channel. But unlike the K+ channels from the luminal membrane the K+ channel from the basolateral membrane is not regulated by ATP up to 5 mM. The activity of the K+ channels from the basolateral membrane decreased steadily after excision of the membrane. This decrease could be prevented by applying cGMP and MgATP to the bath and thus, activating a membrane-bound cGMP-dependent protein kinase (PKG). The activation of the PKG could be reversed by its specific inhibitor KT5823 (1 microM). Due to the opposite regulation via intracellular Ca2+ and the involvement of different protein kinases a specific and independent regulation of K+ secretion and Na+ reabsorption is possible in the CCD of the rat.
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PMID:Ca(2+)-dependent K+ channels in the cortical collecting duct of rat. 926 90

In a logical, stepwise approach to patients presenting with hypokalaemia or hyperkalaemia the clinician must first recognise circumstances in which the dyskalaemia represents a clinical emergency because therapy then takes precedence over diagnosis. If a dyskalaemia has been present for a long time, there is an abnormal renal handling of K+. The next step to analyse is the rate of excretion of K+ and, if necessary, its two components (urine flow rate and K+ concentration in the cortical collecting duct [CCD]) analysed independently. If the K+ concentration in the CCD is not in the expected range, its basis should be defined at the ion-channel level in the CCD from clinical information that can be used to deduce the relative rates of reabsorption of Na+ and Cl- in the CCD. This analysis provides the basis for diagnosis and may indicate where non-emergency therapy should then be directed.
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PMID:Potassium. 967 94

The compensatory hypertrophy in different renal cortical structures was studied in rats 10 and 21 days after unilateral nephrectomy (UNX). Quantitative morphological/stereological analysis revealed significant increases in total renal cortical volume--33% on day 10 and 48% on day 21--after UNX. These changes were paralleled by significant increments in the volumes of proximal convoluted tubule (PCT, 55%), distal convoluted tubule (DCT, 114%), and cortical collecting duct (CCD, 106%) segments on day 10. The corresponding changes on day 21 were 76, 122, and 212%, respectively. These alterations were accompanied by increases in segment length; 3% PCT, 23% DCT, and 50% CCD on day 10 and 9% PCT, 30% DCT, and 142% CCD on day 21 after UNX. The total luminal and basolateral cell membrane surface areas also exhibited a time-dependent increase after UNX. The increments in both luminal and basolateral membrane domains in PCT and DCT after 10 days were not significant, but reached significance after 21 days (PCT: luminal membrane 21%, basolateral membrane 63%; DCT: luminal membrane 98%, basolateral membrane 63%). In contrast, CCD membrane areas had increased substantially already 10 days after UNX (luminal membrane 92%, basolateral membrane 71%). It declined subsequently by day 21 (luminal membrane 57%, basolateral membrane 32%). The cell rubidium concentration after a 30-second rubidium infusion, an index of Na-K-ATPase activity, as well as sodium concentrations were unaltered in cells of all nephron segments investigated. Altogether the stereological analysis shows that the compensatory increase in organ volume can be attributed primarily to an increase in nephron epithelial volume. The PCT responds with 'radial' hypertrophy (thickening of the tubular epithelial wall), while the DCT undergoes 'length' hypertrophy (increase of tubular length without thickening of the tubular wall and without an increase in number of cells). This type of hypertrophy is especially prominent on day 21 after UNX for the CCD which doubles in length. Only on day 10 does the CCD seem to respond with hyperplasia. Adaptive changes in response to UNX develop gradually. Only a few of the morphological parameters studied had completed their change by 10 days, the majority required longer.
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PMID:Quantitative morphology of renal cortical structures during compensatory hypertrophy. 969 94

The NaCl-reabsorbing collecting duct epithelium develops by budding and branching of the embryonic ureter. The expression of Na+ channels during this branching morphogenesis was studied in the outermost branches of rat ureteric buds (UB; embryonic day E15 to postnatal day P6) and in cortical collecting ducts (CCD; days P7-P28) in primary monolayer culture. Expression of both Na+ channel mRNA and of Na+-selective membrane conductance were estimated by quantitative reverse-transcriptase polymerase chain reaction (RT-PCR) and by patch-clamp recording, respectively. UB and CCD uniformly represented a principal-like cell type in culture. Messenger RNA encoding the alpha-ENaC subunit was detected in oligo-dT primed cDNA (5 ng) of embryonic UB cells (E15-17) after 30 PCR cycles. The abundance of alpha-ENaC mRNA, when normalized by reference to beta-actin, was higher by a factor of 2 in postnatal (P1-6) UB and by a factor of 5 in CCD cells (P7-14) compared with the embryonic stage. Highly Na+-selective, low-conductance channels were identified in apical patches from both UB and CCD monolayers, but only CCD cells exhibited macroscopic, amiloride-sensitive Na+ currents in whole-cell patch-clamp recordings. We conclude that alpha-ENaC mRNA and functional Na+ channel protein are expressed already before morphogenesis of the CCD is completed and prior to the onset of epithelial NaCl reabsorption.
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PMID:Expression of the epithelial sodium channel (ENaC) during ontogenic differentiation of the renal cortical collecting duct epithelium. 991 8

The epithelial Na+ channel (ENaC) functions as the rate-limiting factor in aldosterone-regulated transcellular Na+ transport. In the study described here, the effect of aldosterone on ENaC mRNA levels, protein synthesis and benzamil-sensitive Na+ transport was investigated using primary cultures of immunodissected rabbit kidney connecting tubule and cortical collecting duct cells (CNT and CCD, respectively). After a lag time of 3 h, aldosterone caused transepithelial Na+ transport to increase, reaching maximal level of 260+/-44% after 16 h of incubation. The alpha, beta and gamma rabbit ENaC (rbENaC) mRNA levels, measured by semi-quantitative reverse transcriptase-polymerase chain reaction, were not changed by aldosterone during the first 3 h, but a twofold increase was apparent after 6 h; levels remained elevated for up to 16 h of incubation. Immunoprecipitation of [35S]methionine-labeled rbENaC revealed a rise in protein levels of the alpha and beta subunits, but the protein level of the gamma subunit remained constant. In conclusion, our data suggest that in rabbit CNT and CCD the early increase in Na+ transport caused by aldosterone is due to the activation or insertion of existing Na+ channels into the apical membrane, and that the late response is mediated by increased synthesis of the alpha and beta rbENaC subunits.
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PMID:Time-dependent regulation by aldosterone of the amiloride-sensitive Na+ channel in rabbit kidney. 1039 66

The kidney of the Gpc3-/ mouse, a novel model of human renal dysplasia, is characterized by selective degeneration of medullary collecting ducts preceded by enhanced cell proliferation and overgrowth during branching morphogenesis. Here, we identify cellular and molecular mechanisms underlying this renal dysplasia. Glypican-3 (GPC3) deficiency was associated with abnormal and contrasting rates of proliferation and apoptosis in cortical (CCD) and medullary collecting duct (MCD) cells. In CCD, cell proliferation was increased threefold. In MCD, apoptosis was increased 16-fold. Expression of Gpc3 mRNA in ureteric bud and collecting duct cells suggested that GPC3 can exert direct effects in these cells. Indeed, GPC3 deficiency abrogated the inhibitory activity of BMP2 on branch formation in embryonic kidney explants, converted BMP7-dependent inhibition to stimulation, and enhanced the stimulatory effects of KGF. Similar comparative differences were found in collecting duct cell lines derived from GPC3-deficient and wild type mice and induced to form tubular progenitors in vitro, suggesting that GPC3 directly controls collecting duct cell responses. We propose that GPC3 modulates the actions of stimulatory and inhibitory growth factors during branching morphogenesis.
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PMID:Glypican-3 modulates BMP- and FGF-mediated effects during renal branching morphogenesis. 1118 Sep 50

We sought to assess whether the distal convoluted tubule (DCT) segment of the rabbit nephron expresses a functional epithelial sodium channel. First, the transepithelial voltage (V(te), lumen vs. bath) was measured in isolated perfused DCT segments (assessed separately in the upstream half and the downstream half of the DCT). V(te) was zero and not affected by amiloride or barium in the upstream DCT. V(te) was sometimes negative in the downstream DCT and depolarized by amiloride and hyperpolarized by barium, suggesting inclusion of connecting tubule (CNT) cells. To determine expression of epithelial sodium channel (ENaC) mRNA subunits by the upstream DCT, rabbit alpha-, beta-, and gamma-ENaC cDNA fragments were cloned and primers were selected for single-nephron RT-PCR analysis. Although alpha-ENaC was expressed by the DCT, beta- and gamma-ENaC were not detected in the DCT. In contrast, the CNT, CCD, and outer medullary collecting duct (OMCD) expressed all three subunits. Nedd4 was also not detected in the DCT but was expressed by the CNT, CCD, and OMCD. When upstream DCT fragments were grown to confluent monolayers in primary culture, the epithelia exhibited negative voltages and high transepithelial resistances and expressed mRNA for all three ENaC subunits as well as for Nedd4. The absence of a negative voltage and failure to detect transcript for beta- and gamma-ENaC and Nedd4 in the native rabbit DCT suggest that the sodium channel is not a significant pathway for sodium absorption by this segment. The phenotype conversion observed when DCT cells are grown in culture does not rule out the possibility that there may be conditions in which the DCT in the intact kidney expresses sodium channel activity. The results are consistent with the notion that DCT sodium transport is predominantly, if not exclusively, electroneutral.
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PMID:The distal convoluted tubule of rabbit kidney does not express a functional sodium channel. 1118 16

Despite chronic acidosis, collecting ducts in adult carbonic anhydrase II-deficient (CAD mice) are depleted of intercalated cells, including those of type A, which are acid-secreting cells. We hypothesized that this depletion could occur during postnatal development. Principal cells were identified by immunofluorescence using an antibody to rat aquaporin-2 (AQP-2), and type A intercalated cells using an antibody specific for anion exchanger (AE1). In CAD mice the proportion of AQP2-positive cells, normal at 11 days, increased progressively in the cortical (CCD) and outer medullary collecting duct (OMCD), to reach almost 100% in the OMCD in adults. The percentage of AE1-positive cells in the OMCD of CAD mice decreased by half by 6 weeks of age and further by adulthood. In controls, however, the proportion of AQP2-positive cells and that of AE1-positive cells in the OMCD remained stable after 10 days of age. AE1-positive cells accounted for the majority of intercalated cells in the OMCD. The mechanisms leading to selective postnatal cell depletion in the collecting duct in CAD mice remain to be determined.
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PMID:Postnatal disappearance of type A intercalated cells in carbonic anhydrase II-deficient mice. 1142 Sep 10

We established six renal tubular cell lines from definite tubular areas of the kidney of transgenic mice harboring tsSV40 large T-antigen gene. Three are proximal tubular cell lines prepared from the S(1), S(2) and S(3) segments of the proximal tubule and the others are collecting duct cell lines obtained from cortical, outer medullary and inner medullary collecting ducts (CCD, OMCD and IMCD, respectively). To verify the growth properties of these cell lines under different temperature conditions (33 and 39 degrees C), two representative cells were chosen from the proximal tubule (S(1) cells) and from the collecting duct (IMCD cells). From these cells, a daily change in cell number was evaluated as a parameter of cell growth. As might be expected, cell numbers of these cells increased only at 33 degrees C. Similar patterns were also observed with the other cell lines. To observe the different sensitivity to nephrotoxic agents in proximal tubular cell lines, the cells were exposed to nephrotoxic agent, gentamicin, ochratoxin A or cisplatin. Gentamicin (1 mg/ml) dose-dependently decreased cellular ATP levels of the S(1) cells only. In contrast, the effect of ochratoxin A (10(-6) M) was most pronounced in the S(2) cells, and that of cisplatin (10 microg/ml) in the S(3) cells. To characterize collecting duct cell lines, a hyperosmotic challenge of 700 or 1100 mOsm/l was applied to the cells. At an isoosmotic condition of 300 mOsm/l, the number of cells from the collecting ducts, regardless of their origin, increased continuously during the culture period of 4 days. At an osmotic concentration of 700 mOsm/l, the number of CCD cells decreased, while OMCD cells showed a gradual but a significant increase in cell numbers throughout the culture period. IMCD cells, however, proliferated even at a concentration as high as 1100 mOsm/l, although an initial decrease in cell number was noted on the first day of culture. For confirmation of intracellular free calcium ([Ca(2+)](i)) mobilization, cells were treated with ATP and bradykinin. The [Ca(2+)](i) was increased significantly and immediately by ATP (10(-4) M) in S(1) cells and bradykinin (10(-7) M) in IMCD cells. From the results obtained, it is indicated that renal tubular cell lines from transgenic mice have different sensitivities to nephrotoxic or osmotic stress showing the conservation of the functional characters of the definite part it originated from.
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PMID:Different sensitivity to nephrotoxic agents and osmotic stress in proximal tubular and collecting duct cell lines derived from transgenic mice. 1181 40

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