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)

A bovine homologue of the rat and human epithelial Na+ channel subunits, alpha-rENaC and alpha-hENaC, was cloned. The cDNA clone, termed alpha-bENaC, was isolated from a bovine renal papillary collecting duct cDNA expression library. The bovine cDNA is 3,584 base pairs (bp) long, has an open reading frame of 2,094 bp encoding a 697-amino acid protein, and is 75-85% homologous to its rat and human counterparts. In vitro translation of the transcribed cRNA yields an 80-kDa polypeptide and one at 92 kDa in the presence of pancreatic microsomes. The clone exhibits consensus sequences for N-linked glycosylation and for phosphorylation by protein kinase C, but not for protein kinase A. After expression in Xenopus laevis oocytes, a small amiloride-sensitive Na+ conductance that exhibited inward rectification and a reversal potential greater than +30 mV, consistent with the predicted equilibrium potential for Na+, was identified. The expressed alpha-bENaC-associated Na+ current was not responsive to elevations in adenosine 3',5'-cyclic monophosphate but could be stimulated by phorbol 12-myristate 13-acetate, an activator of protein kinase C. alpha-bENaC also formed amiloride-sensitive chimeric channels when coexpressed with the rat beta- and gamma-ENaC subunits in Xenopus oocytes. alpha-bENaC therefore represents a novel isoform of a growing family of epithelial Na+ channels.
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PMID:Cloning of a bovine renal epithelial Na+ channel subunit. 757 94

The transport of Na+ through amiloride-sensitive sodium channels (ENaC) plays a major role in the absorption of fluid across the pulmonary epithelium. The proteins forming the ENaC channel are encoded by three genes in the rat (alpha-, beta-, and gamma-rENaC). According to Northern blot, all three subunit mRNAs were expressed in adult rat lung. Each subunit was expressed as a single transcript of approximately 3.7, 2.2, and 3.2 kb for alpha-, beta-, and gamma-rENaC, respectively. To localize the alpha-, beta-, and gamma-rENaC subunit mRNAs, we used in situ hybridization. Frozen and paraffin-embedded tissues were hybridized with sense and antisense 35S-labeled riboprobes. The alpha-rENaC mRNA was most abundant and was expressed diffusely in epithelia of the trachea, bronchi, bronchioles, and alveoli. At the alveolar level, alpha-rENaC was expressed in type II cells. The beta- and gamma-rENaC mRNAs were most abundant in the bronchial and bronchiolar epithelia. All three subunits were expressed in the renal cortical collecting duct in a pattern similar to that previously reported by other investigators. Thus the rENaC subunit mRNAs are expressed in regions of the lung where functional Na+ absorption is found. These results are consistent with an important role for ENaC in the absorption of Na+ and fluid across the pulmonary epithelium in all regions of the lung.
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PMID:Localization of epithelial sodium channel subunit mRNAs in adult rat lung by in situ hybridization. 877 73

Amiloride-sensitive, electrogenic Na+ absorption across the distal nephron plays a vital role in regulating extracellular fluid volume and blood pressure. Recently, two amiloride-sensitive, Na(+)-conducting ion channel cDNAs were cloned. One, an epithelial Na(+)-selective channel (ENaC), is responsible for Na+ absorption throughout the distal nephron. The second, a guanosine 3',5'-cyclic monophosphate (cGMP)-inhibitable cation channel, is conductive to Na+ and Ca2+ and contributes to Na+ absorption across the inner medullary collecting duct (IMCD). As a first step toward understanding the segment-specific contributions(s) of cGMP-gated cation channels and ENaC to Na+ and Ca2+ uptake along the nephron, we used in situ reverse transcription-polymerase chain reaction (RT-PCR) hybridization, solution-phase RT-PCR, and Western blot analysis to examine the nephron and cell-specific expression of these channels in mouse kidney cell lines and/or dissected nephron segments. cGMP-gated cation channel mRNA was detected in proximal tubule, medullary thick ascending limb (mTAL), distal convoluted tubule (DCT), cortical collecting duct (CCD), outer medullary collecting duct (OMCD), and IMCD. cGMP-gated cation channel protein was detected in DCT, CCD, and IMCD cell lines. These observations suggest that hormones that modulate intracellular cGMP levels may regulate Na+, and perhaps Ca2+, uptake throughout the nephron. mRNA for alpha-mENaC, a subunit of the mouse ENaC, was detected in mTAL, DCT, CCD, OMCD, and IMCD. Coexpression of alpha-mENaC and cGMP-gated cation channel mRNAs in mTAL, DCT, CCD, OMCD, and IMCD suggests that both channels may contribute to Na+ absorption in these nephron segments.
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PMID:Cell-specific expression of amiloride-sensitive, Na(+)-conducting ion channels in the kidney. 889 38

Aldosterone controls the activity of the amiloride-sensitive epithelial Na+ channel located in the apical membrane of epithelial cells from the distal colon and kidney collecting duct. This channel is a key element in the antinatriuretic response to aldosterone. It consists of three homologous subunits, alpha-ENaC, beta-ENaC, and gamma-ENaC (for epithelial Na+ channel), which share significant identity with degenerins, a family of proteins found in the nematode Caenorhabditis elegans, and with ligand-gated cation channels, such as FaNaC [Phe-Met-Arg-Phe-NH2 (i.e., FMRF-amide) Na+ channel] or ASIC (acid-sensing ion channel), two neuronal ionotropic receptors for Phe-Met-Arg-Phe-NH2 and H+, respectively. All of these proteins contain a large extracellular loop located between two large hydrophobic domains. The NH2- and COOH-terminal domains are cytoplasmic and contain potential regulatory motifs. Gain-of-function mutations affecting beta-ENaC and gamma-ENaC genes can cause Liddle syndrome, a rare from of genetic hypertension. Loss-of-function mutations affecting alpha-ENaC or beta-ENaC genes can cause pseudohypoaldosteronism type 1. Steroids strongly increase beta-ENaC and gamma-ENaC transcription in rat distal colon. A different situation is observed in rat kidney, in which the large stimulation of ENaC activity is mainly via posttranslational mechanisms. In both tissues, aldosterone increases cell surface expression of the ENaC subunits.
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PMID:Molecular biology of Na+ absorption. 931 61

To assess the role of distal nephron apical Na channel (ENaC) gene expression in Na wasting by the immature kidney, ENaC alpha-, beta-, and gamma-subunit mRNA levels were examined in the rat by RT-PCR. In microdissected nephron segments, all three ENaC subunit mRNAs were detected in the distal convoluted tubule, connecting tubule, cortical collecting duct, and outer medullary collecting duct. The inner medullary collecting duct and all other nephron segments were consistently negative. The mRNA levels were quantified in kidneys at different developmental stages by multiplex RT-PCR with "primer dropping," with endoplasmic reticulum-specific cyclophilin mRNA as an internal standard. All three ENaC mRNA levels were low or undetectable on gestational day 16 and only slightly higher 3 days before birth. A sharp rise was observed between 3 days before and 1-3 days after birth; the levels at postnatal days 1-3 were already similar to those of adult kidneys. The results suggest that ENaC subunit gene expression is not a limiting factor in the full-term newborn rat kidney, but low levels of expression may limit distal Na absorption in more immature kidneys, such as those of very premature human infants.
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PMID:Developmental regulation of ENaC subunit mRNA levels in rat kidney. 961 Nov 32

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

Protons regulate electrogenic sodium absorption in a variety of epithelia, including the cortical collecting duct, frog skin, and urinary bladder. Recently, three subunits (alpha, beta, gamma) coding for the epithelial sodium channel (ENaC) were cloned. However, it is not known whether pH regulates Na+ channels directly by interacting with one of the three ENaC subunits or indirectly by interacting with a regulatory protein. As a first step to identifying the molecular mechanisms of proton-mediated regulation of apical membrane Na+ permeability in epithelia, we examined the effect of pH on the biophysical properties of ENaC. To this end, we expressed various combinations of alpha-, beta-, and gamma-subunits of ENaC in Xenopus oocytes and studied ENaC currents by the two-electrode voltage-clamp and patch-clamp techniques. In addition, the effect of pH on the alpha-ENaC subunit was examined in planar lipid bilayers. We report that alpha,beta,gamma-ENaC currents were regulated by changes in intracellular pH (pHi) but not by changes in extracellular pH (pHo). Acidification reduced and alkalization increased channel activity by a voltage-independent mechanism. Moreover, a reduction of pHi reduced single-channel open probability, reduced single-channel open time, and increased single-channel closed time without altering single-channel conductance. Acidification of the cytoplasmic solution also inhibited alpha, beta-ENaC, alpha,gamma-ENaC, and alpha-ENaC currents. We conclude that pHi but not pHo regulates ENaC and that the alpha-ENaC subunit is regulated directly by pHi.
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PMID:Intracellular H+ regulates the alpha-subunit of ENaC, the epithelial Na+ channel. 995 Jul 76

This article summarizes briefly some factors responsible for edema in chronic congestive heart failure. It is now generally thought that so-called 'backward failure' is a manifestation of diastolic dysfunction, while systolic 'pump failure' is a disease that depends on two key factors: an inadequate cardiac output, and renal salt and water retention. The key elements involved in what might be termed the 'integrated volume response' are hemodynamic and renal factors. The hemodynamic factors include vasoconstriction, tachycardia and a reduced venous capacitance. These responses occur within minutes, while salt and water retention occurs over days to weeks. The key renal elements modulating sodium retention in congestive heart failure include, at a minimum, four variables. First, there is a reduction in renal blood flow produced by the almost simultaneous operation of alpha- and beta-catecholamines, antidiuretic hormone, the endothelins, and angiotensin II. Second, activation of the tubuloglomerular feedback system enhances intrarenal angiotensin II release, which augments proximal sodium absorption. In addition, beta-catechols also enhance proximal sodium absorption. A third key element involved in renal sodium retention is activation of apical sodium channels, ENaC, of principal cells in the cortical collecting tubule by aldosterone and by vasopressin. Finally, the inner medullary collecting duct becomes resistant to the action of atrial natriuretic peptide, thus adding a final dimension to the syndrome of sodium retention in underfilling.
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PMID:Pathogenesis of renal sodium retention in congestive heart failure. 1020 52

The final control of sodium balance takes place in the cortical collecting duct (CCD) of the nephron, where corticosteroid hormones regulate sodium reabsorption by acting through mineralocorticoid (MR) and/or glucocorticoid (GR) receptors. A clone of principal CCD cells (mpkCCDc14) has been established that is derived from a transgenic mouse (SV40 large T antigen under the control of the SV40 enhancer/L-type pyruvate kinase promoter). Cells grown on filters form polarized monolayers with high electrical transepithelial resistance (R(T) approximately 4700 ohm x cm2) and potential difference (P(D) approximately -50 mV) and have an amiloride-sensitive electrogenic sodium transport, as assessed by the short-circuit current method (Isc approximately 11 microA/cm2). Reverse transcription-PCR experiments using rat MR primers, [3H]aldosterone, and [3H]dexamethasone binding and competition studies indicated that the mpkCCDc14 cells exhibit specific MR and GR. Aldosterone increased Isc in a dose- (10(-10) to 10(-6) M) and time-dependent (2 to 72 h) manner, whereas corticosterone only transiently increased Isc (2 to 6 h). Consistent with the expression of 11beta-hydroxysteroid dehydrogenase type 2, which metabolizes glucocorticoids to inactive 11-dehydroderivates, carbenoxolone potentiated the corticosterone-stimulated Isc. Aldosterone (5x10(-7) M)-induced Isc (fourfold) was associated with a three- to fivefold increase in alpha-ENaC mRNA (but not in those for beta- or gamma-ENaC) and three- to 10-fold increases in alpha-ENaC protein synthesis. In conclusion, this new immortalized mammalian CCD clonal cell line has retained a high level of epithelial differentiation and sodium transport stimulated by aldosterone and therefore represents a useful mammalian cell system for identifying the genes controlled by aldosterone.
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PMID:Corticosteroid-dependent sodium transport in a novel immortalized mouse collecting duct principal cell line. 1023 77

The epithelial sodium channel (ENaC) plays a major role in the transepithelial reabsorption of sodium in the renal cortical collecting duct, distal colon, and lung. ENaCs are formed by three structurally related subunits, termed alpha-, beta-, and gammaENaC. We previously isolated and sequenced cDNAs encoding a portion of mouse alpha-, beta-, and gammaENaC (alpha-, beta-, and gammamENaC). These cDNAs were used to screen an oligo-dT-primed mouse kidney cDNA library. Full-length betamENaC and partial-length alpha- and gammamENaC clones were isolated. Full-length alpha- and gammamENaC cDNAs were subsequently obtained by 5'-rapid amplification of cDNA ends (5'-RACE) PCR. Injection of mouse alpha-, beta-, and gammaENaC cRNAs into Xenopus oocytes led to expression of amiloride-sensitive (K(i) = 103 nM), Na(+)-selective currents with a single-channel conductance of 4.7 pS. Northern blots revealed that alpha-, beta-, and gammamENaC were expressed in lung and kidney. Interestingly, alphamENaC was detected in liver, although transcript sizes of 9.8 kb and 3.1 kb differed in size from the 3.2-kb message observed in other tissues. A partial cDNA clone was isolated from mouse liver by 5'-RACE PCR. Its sequence was found to be nearly identical to alphamENaC. To begin to identify regions within alphamENaC that might be important in assembly of the native heteroligomeric channel, a series of functional experiments were performed using a construct of alphamENaC encoding the predicted cytoplasmic NH(2) terminus. Coinjection of wild-type alpha-, beta-, and gammamENaC with the intracellular NH(2) terminus of alphamENaC abolished amiloride-sensitive currents in Xenopus oocytes, suggesting that the NH(2) terminus of alphamENaC is involved in subunit assembly, and when present in a 10-fold excess, plays a dominant negative role in functional ENaC expression.
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PMID:Cloning and functional expression of the mouse epithelial sodium channel. 1040 5

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