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Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The apical secretory K+ (SK) channel in the principal cell represents the rate-limiting step for K+ secretion across the cortical
collecting duct
(
CCD
). Patch clamp analysis of maturing rabbit principal cells identifies an increase in number of conducting SK channels after the 2nd week of life [L. M. Satlin and L. G. Palmer. Am. J. Physiol. 272 (Renal Physiol. 41): F397-F404, 1997], approximately 1 wk after an increase in activity of the amiloride-sensitive epithelial Na+ channel (ENaC) is detected. To correlate the postnatal increase in channel activity with developmental expression of
ROMK
, the molecular correlate of the SK channel, we used gene-specific probes to show a developmental increase in abundance of renal
ROMK
mRNA and a
ROMK
-specific antibody to examine the nephron distribution, localization, and abundance of this protein in developing rat kidney. Using antibodies directed against aquaporin-3 (AQP-3) and Tamm-Horsfall protein (THP), we confirmed that
ROMK
was expressed along the apical membranes of principal cells and thick ascending limbs of Henle (TALH) in adult kidney. Within the midcortex of the neonatal kidney,
ROMK
-positive segments revealed weak coincident staining with the TALH-specific antibody but did not colabel with an antibody directed against distal and connecting tubule (CNT)-specific kallikrein or the lectin Dolichos biflorus agglutinin (DBA), which labels proximal tubules and collecting ducts. In inner cortex and outer medulla of kidneys from 1-wk-old animals,
ROMK
protein was identified in medullary TALH (MTALH) and DBA-positive collecting ducts. By 3 wk of age, coincident
ROMK
and DBA expression was detected in midcortical and outer cortical CNTs and CCDs. Immunoblot analysis of plasma membrane-enriched fractions of maturing rat kidney revealed a developmental increase in a approximately 40-kDa band, the expected size for
ROMK
. Immunolocalization of alpha-ENaC showed apical staining of a majority of cells in distal nephron segments after the 1st week of postnatal life. The beta- and gamma-ENaC subunit expression was routinely detected in a mostly cytoplasmic distribution immediately after birth, albeit in low abundance; gamma-ENaC showed some apical polarization. These results suggest that the postnatal increases in a principal cell apical SK and Na+ channel activity are mediated, at least in part, by increases in abundance of
ROMK
message and protein and ENaC subunit proteins.
...
PMID:Developmental expression of ROMK in rat kidney. 1036 71
The
ROMK
channel plays an important role in K recycling in the thick ascending limb (TAL) and K secretion in the cortical
collecting duct
(
CCD
). A large body of evidence indicates that the
ROMK
channel is a key component of the native K secretory channel identified in the apical membrane of the TAL and the
CCD
. Although the
ROMK
channel shares several key regulatory mechanisms with the native K secretory channel in a variety of respects, differences in the channel modulatory mechanism are clearly present between the
ROMK
channel and the native K secretory channel. Therefore, it is possible that additional associate proteins are required to interact with the
ROMK
channel to assemble the native K secretory channel. This notion is supported by recent reports showing that cystic fibrosis transmembrane conductance regulator (CFTR) and A kinase anchoring proteins (AKAP) interact with the
ROMK
channels to restore the response to ATP sensitivity and protein kinase A stimulation. This review is an attempt to summarize the up-to-date progress regarding the interaction between the
ROMK
channel and the associate proteins in forming the native K secretory channel.
...
PMID:Regulation of the ROMK channel: interaction of the ROMK with associate proteins. 1060 Sep 28
Recent studies showed that coexpression of Kir6.1 or Kir6.2 with the sulfonylurea receptor (SUR1, SUR2A, or SUR2B) reconstituted an inwardly rectifying, ATP-sensitive K(+) channel that was inhibited by glibenclamide (2, 15-17). Here we report the isolation of a rat homolog of mouse SUR2B (denoted rSUR2B) from a rat kidney cDNA library. The rSUR2B sequence contains a 4,635-bp open reading frame that encodes a 1,545-amino acid polypeptide, showing 67% shared identity with SUR1 (a pancreatic beta-cell isoform) and 98% with both SUR2A (a brain isoform) and SUR2B (a vascular smooth muscle isoform). Consistent with the predicted structures of other members of the ATP-binding cassette (ABC) superfamily, the sequence of rSUR2B contains 17 putative membrane-spanning segments. Also, predicted Walker A and B consensus binding motifs, present in other ABC members, are conserved in the rSUR2B sequence. RT-PCR revealed that rSUR2B is widely expressed in various rat tissues including brain, colon, heart, kidney, liver, skeletal muscle, and spleen. The intrarenal distribution of the rSUR2B transcript was investigated using RT-PCR and Southern blot of microdissected tubules. The rSUR2B transcript was detected in proximal tubule, cortical thick ascending limb, distal collecting tubule, cortical
collecting duct
, and outer medullary
collecting duct
, but not medullary thick ascending limb. This distal distribution overlaps with that of
ROMK
. Coexpression of rSUR2B with ROMK2 cRNA (in 1:10 ratio) in Xenopus laevis oocytes resulted in whole cell Ba(2+)-sensitive K(+) currents that were inhibited by glibenclamide (50% inhibition with 0.2 mM glibenclamide). In contrast, rSUR2B did not confer significant glibenclamide sensitivity to oocytes coinjected with
ROMK1
or ROMK3. The interaction between ROMK2 and rSUR2B was further studied by coimmunoprecipitation of in vitro translated rSUR2B and ROMK2. In agreement with the functional data, the rSUR2B protein was coimmunoprecipitated with ROMK2 in the ROMK2-rSUR2B cotranslated samples. Our data demonstrate that ROMK2, but not
ROMK1
and ROMK3, can interact with rSUR2B to confer a sulfonylurea-sensitive K(+) channel, implicating SUR proteins in forming and regulating renal ATP-sensitive K(+) channels. The
ROMK
isoform specificity of glibenclamide effects suggests that the NH(2) terminus of the
ROMK
protein mediates rSUR2B-ROMK2 interactions.
...
PMID:Rat homolog of sulfonylurea receptor 2B determines glibenclamide sensitivity of ROMK2 in Xenopus laevis oocyte. 1075 Dec 28
1. The family of Kir1.1 (
ROMK
) channel proteins constitute a secretory pathway for potassium in principal cells of cortical
collecting duct
and thick ascending limb of Henle's loop. Mutations in Kir1.1 account for some types of Bartter's syndrome. 2. Here we report that stable transfection of Kir1.1b (ROMK2) in Madin-Darby canine kidney (MDCK) cell line results in expression of inwardly rectifying K+ currents and transmonolayer electrical and transport properties appropriate to Kir1.1 function. When grown on permeable supports, transfected monolayers secreted K+ into the apical solution. This secretion was inhibited by application of barium to the apical membrane, or by reduction in expression temperature from 37 to 26 C. However, whole-cell voltage clamp electrophysiology showed that K+ conductance was higher in cells expressing Kir1.1b at 26C. 3. To investigate this further, Kir1.1b was tagged with (EGFP), a modification that did not affect channel activity. Protein synthesis was inhibited with cycloheximide. Spectrofluorimetry was used to compare protein degradation at 37 and 26 C. The increased level of Kir1.1b at the plasma membrane at 26 C was due to an increase in protein stability. 4. Confocal microscopic investigation of EGFP-Kir1. 1b fluorescence in transfected cells showed that the channel protein was targeted to the apical domain of the cell. 5. These results demonstrate that Kir1.1b is capable of appropriate trafficking and function in MDCK cell lines at physiological temperatures. In addition, expression of Kir1.1b in MDCK cell lines provides a useful and convenient tool for the study of functional activity and targeting of secretory K+ channels.
...
PMID:Stable, polarised, functional expression of Kir1.1b channel protein in Madin-Darby canine kidney cell line. 1101 1
Close similarity between the rat native low-conductance K(+) channel in the apical membrane of renal cortical
collecting duct
principal cells and the cloned rat
ROMK
channel strongly suggest that the two are identical. Prominent features of
ROMK
regulation are a steep pH dependence and activation by protein kinase A (PKA)-dependent phosphorylation. In this study, we investigated the pH dependence of cloned renal K(+) channel (ROMK2), wild-type (R2-WT), and PKA site mutant channels (R2-S25A, R2-S200A, and R2-S294A). Ba(2+)-sensitive outward whole cell currents (holding voltage -50 mV) were measured in two-electrode voltage-clamp experiments in Xenopus laevis oocytes expressing either R2-WT or mutant channels. Intracellular pH (pH(i)) was measured with pH-sensitive microelectrodes in a different group of oocytes from the same batch on the same day. Resting pH(i) of R2-WT and PKA site mutants was the same: 7.32 +/- 0.02 (n = 22). The oocytes were acidified by adding 3 mM Na butyrate with external pH (pH(o)) adjusted to 7.4, 6.9, 6.4, or 5.4. At pH(o) 7.4, butyrate led to a rapid (tau: 163 +/- 14 s, where tau means time constant, n = 4) and stable acidification of the oocytes (DeltapH(i) 0.13 +/- 0. 02 pH units, where Delta means change, n = 12). Intracellular acidification reversibly inhibited ROMK2-dependent whole cell current. The effective acidic dissociation constant (pK(a)) value of R2-WT was 6.92 +/- 0.03 (n = 8). Similarly, the effective pK(a) value of the N-terminal PKA site mutant R2-S25A was 6.99 +/- 0.02 (n = 6). The effective pK(a) values of the two COOH-terminal PKA site mutant channels, however, were significantly shifted to alkaline values; i.e., 7.15 +/- 0.06 (n = 5) for R2-S200A and 7.16 +/- 0.03 (n = 8) for R2-S294A. The apparent DeltapH shift between the R2-WT and the R2-S294A mutant was 0.24 pH units. In excised inside-out patches, alkaline pH 8.5 activated R2-S294A channel current by 32 +/- 6.7%, whereas in R2-WT channel patches alkalinzation only marginally increased current by 6.5 +/- 1% (n = 5). These results suggest that channel phosphorylation may substantially influence the pH sensitivity of ROMK2 channel. Our data are consistent with the hypothesis that in the native channel PKA activation involves a shift of the pK(a) value of
ROMK
channels to more acidic values, thus relieving a H(+)-mediated inhibition of
ROMK
channels.
...
PMID:PKA site mutations of ROMK2 channels shift the pH dependence to more alkaline values. 1105 53
Na(+)/H(+) exchanger regulatory factor (NHERF) and NHERF2 are PDZ motif proteins that mediate the inhibitory effect of cAMP on Na(+)/H(+) exchanger 3 (NHE3) by facilitating the formation of a multiprotein signaling complex. With the use of antibodies specific for NHERF and NHERF2, immunocytochemical analysis of rat kidney was undertaken to determine the nephron distribution of both proteins and their colocalization with other transporters and with ezrin. NHERF was most abundant in apical membrane of proximal tubule cells, where it colocalized with ezrin and NHE3. NHERF2 was detected in the glomerulus and in other renal vascular structures. In addition, NHERF2 was strongly expressed in
collecting duct
principal cells, where it colocalized with
ROMK
. These results indicate a striking difference in the nephron distribution of NHERF and NHERF2 and suggests NHERF is most likely to be the relevant biological regulator of NHE3 in the proximal tubule, while NHERF2 may interact with
ROMK
or other targets in the
collecting duct
. The finding that NHERF isoforms occur in different cell types suggests that NHERF and NHERF2 may subserve different functions in the kidney.
...
PMID:Differential renal distribution of NHERF isoforms and their colocalization with NHE3, ezrin, and ROMK. 1112 91
K+ secretion by the cortical
collecting duct
(
CCD
) is stimulated at high flow rates. Patch-clamp analysis has identified a small-conductance secretory K+ (SK) and a high-conductance Ca(2+)-activated K+ (maxi-K) channel in the apical membrane of the
CCD
. The SK channel, encoded by
ROMK
, is believed to mediate baseline K+ secretion. The role of the stretch- and Ca2+-activated maxi-K channel is still uncertain. The purpose of this study was to identify the K+ channel mediating flow-dependent K+ secretion in the
CCD
. Segments isolated from New Zealand White rabbits were microperfused in the absence and presence of luminal tetraethylammonium (TEA) or charybdotoxin, both inhibitors of maxi-K but not SK channels, or apamin, an inhibitor of small-conductance maxi-K+ channels. Net K+ secretion and Na+ absorption were measured at varying flow rates. In the absence of TEA, net K+ secretion increased from 8.3 +/- 1.0 to 23.4 +/- 4.7 pmol. min(-1). mm(-1) (P < 0.03) as the tubular flow rate was increased from 0.5 to 6 nl. min(-1). mm(-1). Flow stimulation of net K+ secretion was blocked by luminal TEA (8.2 +/- 1.2 vs. 9.9 +/- 2.7 pmol. min(-1). mm(-1) at 0.6 and 6 nl. min(-1). mm(-1) flow rates, respectively) or charybdotoxin (6.8 +/- 1.6 vs. 8.3 +/- 1.6 pmol. min(-1). mm(-1) at 1 and 4 nl. min(-1). mm(-1) flow rates, respectively) but not by apamin. These results suggest that flow-dependent K+ secretion is mediated by a maxi-K channel, whereas baseline K+ secretion occurs through a TEA- and charybdotoxin-insensitive SK (
ROMK
) channel.
...
PMID:Flow-dependent K+ secretion in the cortical collecting duct is mediated by a maxi-K channel. 1129 20
We have used Western blot to examine the expression of cSrc protein tyrosine kinase (PTK) and protein tyrosine phosphatase (PTP)-1D in the renal cortex, and the patch-clamp technique to determine the role of PTK in mediating the effect of dietary K intake on the small-conductance K (SK) channel in the cortical
collecting duct
(
CCD
). When rats were on a K-deficient (KD) diet for 1, 3, 5, and 7 days, the expression of cSrc increased by 40, 90, 140, and 135%, respectively. In contrast, the expression of cSrc in the renal cortex from rats on a high-K (HK) diet for 1, 2, and 3 days decreased by 40, 60, and 75%, respectively. However, the protein level of PTP-1D was not significantly changed by dietary K intake. The addition of 1 microM herbimycin A increased NP(o), a product of channel number (N) and open probability (P(o)) in the
CCD
from rats on a normal diet or on a KD diet. The increase in NP(o) was 0.30 (normal), 0.45 (1-day KD), 0.65 (3-day KD), 1.55 (5-day KD), and 1.85 (7-day KD), respectively. Treatment of the
CCD
with herbimycin A from rats on a KD diet increased NP(o) per patch from the control value (0.7) to 1.4 (1-day KD), 1.6 (3-day KD), 2.6 (5-day KD), and 3.5 (7-day KD), respectively. In contrast, HK intake for as short as 1 day abolished the effect of herbimycin A. Furthermore, the expression of
ROMK
channels in the renal cortex was the same between rats on a KD diet or on a HK diet. Moreover, treatment with herbimycin A did not further increase NP(o) in the CCDs from rats on a HK diet. We conclude that dietary K intake plays a key role in regulating the activity of the SK channels and that PTK is involved in mediating the effect of the K intake on channel activity in the
CCD
.
...
PMID:Effect of dietary K intake on apical small-conductance K channel in CCD: role of protein tyrosine kinase. 1145 12
Biochemical and cellular experiments in fibroblasts have established the requirement for a member of the PDZ motif Na(+)/H(+) exchanger regulatory factor family of proteins (NHERF and NHERF2) in cAMP-mediated phosphorylation and inhibition of NHE3 activity. NHERF interacts with the actin cytoskeleton through the scaffolding protein ezrin to target a multiprotein signal complex to the plasma membrane. Recent experiments have focused on elements of this model. First, using specific antibodies, NHERF was identified in the renal proximal tubule, where it colocalized with ezrin and NHE3. NHERF2 was seen in glomeruli, the renal vasculature, and
collecting duct
cells, where it colocalized with
ROMK
. This distinct nephron localization suggests different physiologic roles for NHERF and NHERF2. Second, the signal-complex model of protein kinase A regulation of NHE3 developed in fibroblasts has been extended to epithelial cells by the development of a dominant-negative opossum kidney cell line expressing an ezrin binding domain-deficient truncation of NHERF. Preliminary studies indicate that these cells have normal basal Na+/H+ exchanger activity but a blunted inhibitory response to cAMP. Third, biochemical, biophysical, and cell experiments have indicated that NHERF binds to itself in a head-to-head configuration, raising the possibility that dimerization may alter the availability of active NHERF. The potential role of the NHERF proteins in the kidney has been expanded by recent studies indicating their involvement in the membrane targeting, trafficking, sorting, and regulation of a range of other transporters, receptors, and signaling proteins. NHERF and related PDZ-containing proteins may serve as adapters for regulation of renal transporters.
...
PMID:Acute regulation of NHE3 by protein kinase A requires a multiprotein signal complex. 1147 25
The epithelial sodium channel (ENaC) and the secretory potassium channel (Kir1.1/
ROMK
) are expressed in the apical membrane of renal
collecting duct
principal cells where they provide the rate-limiting steps for Na(+) absorption and K(+) secretion. The cystic fibrosis transmembrane conductance regulator (CFTR) is thought to regulate the function of both ENaC and Kir1.1. We hypothesized that CFTR may provide a regulatory link between ENaC and Kir1.1. In Xenopus laevis oocytes co-expressing both ENaC and CFTR, the CFTR currents were 3-fold larger than those in oocytes expressing CFTR alone due to an increased expression of CFTR in the plasma membrane. ENaC was also able to increase Kir1.1 currents through an increase in surface expression, but only in the presence of CFTR. In the absence of CFTR, co-expression of ENaC was without effect on Kir1.1. ENaC-mediated CFTR-dependent up-regulation of Kir1.1 was reduced with a Liddle's syndrome mutant of ENaC. Furthermore, ENaC co-expressed with CFTR was without effect on the closely related K(+) channel, Kir4.1. We conclude that ENaC up-regulates Kir1.1 in a CFTR-dependent manner. CFTR may therefore provide the mechanistic link that mediates the coordinated up-regulation of Kir1.1 during the stimulation of ENaC by hormones such as aldosterone or antidiuretic hormone.
...
PMID:Cystic fibrosis transmembrane conductance regulator-dependent up-regulation of Kir1.1 (ROMK) renal K+ channels by the epithelial sodium channel. 1199 90
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