Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UNIPROT:P41181 (
collecting duct
)
5,183
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chloride/base exchange activity has been detected in every mammalian nephron segment in which it has been sought. However, in contrast to the Cl-/HCO3- exchanger AE1 in type A intercalated cells, localization of
AE2
within the kidney has not been reported. We therefore studied
AE2
expression in rat kidney.
AE2
mRNA was present in cortex, outer medulla, and inner medulla. Semiquantitative polymerase chain reaction of cDNA from microdissected tubules revealed
AE2
cDNA levels as follows [copies of cDNA derived per mm tubule (+/- SE)]: proximal convoluted tubule, 688 +/- 161; proximal straight tubule, 652 +/- 189; medullary thick ascending limb, 1,378 +/- 226; cortical thick ascending limb, 741 +/- 24; cortical
collecting duct
, 909 +/- 71; and outer medullary
collecting duct
, 579 +/- 132.
AE2
cDNA was also amplified in thin limbs and in inner medullary
collecting duct
.
AE2
polypeptide was detected in all kidney regions.
AE2
mRNA and protein were also detected in several renal cell lines. The data are compatible with the postulated roles of
AE2
in maintenance of intracellular pH and chloride concentration and with its possible participation in transepithelial transport.
...
PMID:Regional and segmental localization of AE2 anion exchanger mRNA and protein in rat kidney. 748 30
The cellular and subcellular localizations of the AE2 anion exchanger in rat kidney have remained elusive despite detection of moderately abundant
AE2
mRNA and
AE2
polypeptide in all kidney regions. In this report a simple epitope unmasking technique has allowed the immunolocalization of
AE2
antigenic sites in basolateral membranes of several rat kidney tubular epithelial cells.
AE2
immunostaining was faint or absent in the glomerulus and proximal tubule, present in descending and ascending thin limbs, and stronger in the medullary thick ascending limb (MTAL). A lower staining intensity was found in cortical thick ascending limbs and even less in the distal convoluted tubule. In contrast, there was an enhanced staining in the macula densa. In principal cells (PC) of the connecting segment,
AE2
was undetectable but gradually increased in intensity along the
collecting duct
, with strongest staining in inner medullary
collecting duct
(IMCD) PC. A sodium dodecyl sulfate-sensitive
AE2
-related Golgi epitope was also detected in some interstitial and endothelial cells of the inner medulla and in epithelial cells of IMCD and MTAL. Colchicine treatment of the intact animal altered the distribution of this Golgi-associated epitope but left plasmalemmal
AE2
undisturbed. Reverse transcription-polymerase chain reaction detected AE2a, AE2b, and AE2c2 but not AE2cl transcripts in rat kidney mRNA. The results suggest a widespread occurrence of the
AE2
protein in several renal epithelial cell types.
...
PMID:Immunolocalization of AE2 anion exchanger in rat kidney. 936 38
AE2
mRNA and protein is expressed in several nephron segments, one of which is the cortical
collecting duct
(
CCD
). However, the distribution of
AE2
among the different cell types of the
CCD
and the function of
AE2
in the kidney are not known. The purpose of this study was to determine the distribution of
AE2
mRNA among the three
CCD
cell types and to examine the effects of changes in acid/base balance on its expression. Following NH4Cl (acid) or NaHCO3 (base) loading of rabbits for approximately 18 h,
CCD
cells were isolated by immunodissection.
AE2
mRNA levels were determined by RT-PCR and were normalized for beta-actin levels. We found that
CCD
cells express high levels of
AE2
mRNA (approximately 500 copies/cell).
AE2
mRNA levels were significantly higher in
CCD
cells originating from base-loaded than acid-loaded rabbits, with an average increase of 3.7 +/- 1.07-fold. The effect of pH on
AE2
mRNA levels was also tested directly using primary cultures of
CCD
cells.
CCD
cells incubated in acidic media expressed significantly lower levels of
AE2
mRNA than those in normal or alkaline media. Experiments with isolated principal cells, alpha-intercalated cells, and beta-intercalated cells (separated by fluorescence-activated cell sorting) demonstrated that
AE2
mRNA levels are comparable in the three
collecting duct
cell subtypes and are similarly regulated by changes in acid/base balance. Based on these results, we conclude that adaptation to changes in extracellular H+ concentration is accompanied by opposite changes in
AE2
mRNA expression. The observations that
AE2
mRNA is not expressed in a cell-type-specific manner and that changes in acid/base balance have similar effects on each
CCD
cell subtype suggest that
AE2
might serve a housekeeping function rather than being the apical anion exchanger of beta-intercalated cells.
...
PMID:Regulation of AE2 mRNA expression in the cortical collecting duct by acid/base balance. 953 Feb 77
Although the inner medullary
collecting duct
(IMCD) plays a major role in urinary acidification, the molecular identification of many of the specific components of the transport system in this nephron segment are lacking. A cultured line of rat IMCD cells was used to characterize the mediators of cellular HCO3 exit. This cell line functionally resembles alpha-intercalated cells. Physiologic experiments document that HCO3- transport is a reversible, electroneutral, Cl dependent, Na+-independent process. It can be driven by Cl-gradients and inhibited by stilbenes such as 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic acid. Immunohistochemical analysis, using a rabbit polyclonal antibody against the carboxy-terminal 12 amino acids of anion exchanger 1 (AE1), revealed a distribution of immunoreactive protein that is consistent with a basolateral localization of AE in cultured cells and in alpha-intercalated cells identified in sections of rat kidney cortex. Immunoblot revealed two immunoreactive bands (approximately 100 and 180 kD in size) in membranes from cultured IMCD cells, rat renal medulla, and freshly isolated IMCD cells. The mobility of the lower molecular weight band was similar to that of AE1 in red blood cell ghosts and kidney homogenate and therefore probably represents AE1. The mobility of the 180-kD band is similar to that for rat stomach and kidney
AE2
and therefore probably represents
AE2
. Selective biotinylation of the apical or basolateral membrane proteins in cultured IMCD cells revealed that both AE1 and
AE2
are polarized to the basolateral membrane. Northern blot analysis documented the expression of mRNA for AE1 and
AE2
but not AE3. Furthermore, the cDNA sequence of AE1 and
AE2
expressed by these cells was found to be virtually identical to that reported for kidney AE1 and rat stomach
AE2
. It is concluded that this cultured line of rat IMCD cells expresses two members of the anion exchanger gene family, AE1 and
AE2
, and both of these exchangers probably mediate the electroneutral Cl--dependent HCO3-transport observed in this cell line.
...
PMID:Characterization of anion exchangers in an inner medullary collecting duct cell line. 959 71
In this study, an epitope-unmasking technique was used to immunolocalize AE2 anion exchanger polypeptide to basolateral plasma membranes of tubular epithelial cells in mouse kidney. Kidney
AE2
immunostaining in mouse kidney was less prominent than in rat, consistent with the relative levels of
AE2
mRNA and polypeptide in these two species. Glomeruli showed faint but consistent
AE2
immunostaining, whereas proximal tubules were generally unstained. Macula densa epithelial cells displayed bright
AE2
immunostaining, and cortical thick limbs were stained at a lower intensity.
AE2
immunostaining was weak or absent in type B intercalated cells and principal cells of the cortical
collecting duct
, but increased in intensity in principal cells of the inner stripe of the outer medulla.
AE2
staining in medullary thick limbs was also of greater intensity than in cortical thick limbs.
AE2
staining was strong and uniform in the epithelial cells of the inner medullary
collecting duct
, and in epithelial cells of the papillary surface, the ureter, and the urinary bladder. Extratubular and epithelial cells of the inner medulla also showed punctate intracellular
AE2
staining in a Golgi-like distribution that, in contrast to cell surface staining, was sodium dodecyl sulfate-sensitive. Golgi localization of
AE2
epitope was confirmed by immunoperoxidase electron microscopy. Reverse transcription-PCR analysis of mouse kidney RNA detected AE2a, AE2b, and an AE2c2 transcript, but an AE2c1 transcript was absent. Unlike in rat, the mouse AE2c2 mRNA splice variant encoded a polypeptide with a novel predicted N-terminal amino acid sequence.
...
PMID:Immunolocalization and tissue-specific splicing of AE2 anion exchanger in mouse kidney. 962 Dec 77
The cortical
collecting duct
(
CCD
) B cell possesses an apical anion exchanger dissimilar to AE1,
AE2
, and AE3. The purpose of these studies was to characterize this transporter more fully by examining its regulation by CO2 and HCO3. We measured intracellular pH (pHi) in single intercalated cells of in vitro microperfused
CCD
using the fluorescent, pH-sensitive dye, 2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF). In the absence of extracellular CO2/HCO3, luminal Cl removal caused reversible intracellular alkalinization, identifying this transporter as a Cl/base exchanger able to transport bases other than HCO3. Adding extracellular CO2/HCO3 decreased B cell pHi while simultaneously increasing Cl/base exchange activity. Since intracellular acidification inhibits AE1,
AE2
, and AE3, we examined mechanisms other than pHi by which the stimulation occurred. These studies showed that B cell apical anion exchange activity was CO2 stimulated and carbonic anhydrase dependent. Moreover, the stimulation was independent of luminal bicarbonate, luminal pH or pHi, and changes in buffer capacity. We conclude that the B cell possesses an apical Cl/base exchanger whose activity is regulated by CO2-stimulated, carbonic anhydrase-dependent cytoplasmic HCO3 formation.
...
PMID:Regulation of B-type intercalated cell apical anion exchange activity by CO2/HCO3-. 984
Regulation of cell pH and cell volume require homeostatic control of intracellular cations and anions. Bicarbonate transporters play an important role in these cellular functions. The SLC4 and SLC26 gene families both encode bicarbonate transporter polypeptides. The SLC4 gene family includes four Na+-independent chloride-bicarbonate exchanger genes and multiple Na+-bicarbonate cotransporter and Na+-dependent anion-exchanger genes. The acute regulatory properties of the recombinant polypeptides encoded by these genes remain little studied. The most extensively studied among them are the Na+-independent anion exchangers AE1,
AE2
, and AE3. The widely expressed AE2 anion exchanger participates in recovery from alkaline load and in regulatory cell volume increase following shrinkage.
AE2
can also be regulated by the ammonium ion. These properties are not shared by the closely related AE1 anion exchanger of the erythrocyte and the renal
collecting duct
Type A intercalated cell. Structure-function studies of recombinant proteins involving chimeras, deletions, and point mutations have delineated regions of
AE2
, which are important in the exhibition of the regulatory properties absent from AE1. These include regions of the transmembrane domain and the N-terminal cytoplasmic domain. Noncontiguous regions in the middle of the N-terminal cytoplasmic domain are of particular importance for acute regulation by several types of stimulus.
...
PMID:How pH regulates a pH regulator: a regulatory hot spot in the N-terminal cytoplasmic domain of the AE2 anion exchanger. 1213 98
Three splice variants of anion exchanger (AE)2 (AE2a, b, and c) have been described in the rat, but their relative distribution in rat kidney is not known. The purpose of this study was to describe the segmental and cellular distribution of the
AE2
isoforms in the rat kidney and to evaluate whether the expression levels of these
AE2
isoforms are regulated independently in response to chronic NH(4)Cl loading. Two polyclonal antibodies were generated, respectively, recognizing a NH(2)-terminal peptide unique to AE2a and an amino acid sequence common to AE2a and AE2b. Antibody specificities were tested using cells transfected separately with the AE2a, AE2b, and AE2c isoforms. Immunohistochemistry on sections of paraffin-embedded rat kidneys showed a distribution of AE2a/AE2b labeling in the kidney similar to the distribution of
AE2
in the rat kidney reported previously.
AE2
is highly expressed in the medullary thick ascending limb, cortical thick ascending limb (cTAL), and macula densa. The pattern of AE2a-specific labeling differed from the pattern of AE2a/AE2b labeling in that relatively more of the total immunolabel was observed in the terminal inner medullary
collecting duct
. NH(4)Cl loading (0.033 mmol NH(4)Cl/g body wt for 7 days) did not change the labeling of
AE2
isoforms in the medulla, whereas the labeling in the cortex was intensified and included more distal parts of the cTAL. Immunoblotting confirmed upregulation of AE2a/b expression in the cortex. These results indicate that AE2a and AE2b are differentially expressed and regulated in the rat kidney. The regulation following NH(4)Cl loading of AE2b in the cTAL suggests a role for
AE2
in transepithelial bicarbonate reabsorption in this segment.
...
PMID:AE2 isoforms in rat kidney: immunohistochemical localization and regulation in response to chronic NH4Cl loading. 1474 57
The Cl(-)/HCO3- exchanger (AE) is one of the mechanisms that cells have developed to adjust pH Despite its importance, the role of AE isoforms in controlling steady-state pH during alkalosis has not been widely investigated. In the present study, we have evaluated whether conditions simulating acute and chronic metabolic alkalosis affected the transport activity and protein levels of Cl-/HCO3- exchangers in a rat cortical
collecting duct
cell line (RCCD1). pH(i) was monitored using the fluorescent dye BCECF in monolayers grown on permeable supports. Anion exchanger function was assessed by the response of pH(i) to acute chloride removal. RT-PCR and immunoblot assays were also performed. Our results showed that RCCD1 cells express two members of the anion exchanger gene family:
AE2
and AE4. Functional studies demonstrated that while in acute alkalosis pH(i) became alkaline and was not regulated, after 48 h adaptation; steady-state pH(i) reached a value similar to the physiological one. Chronic treated cells also resulted in a 3-fold rise in Cl(-)/HCO3- exchange activity together with a 2.2-fold increase in
AE2
, but not AE4, protein abundance. We conclude that RCCD1 cells can adapt to chronic extracellular alkalosis reestablishing its steady-state pH(i) and that
AE2
would play a key role in cell homeostasis.
...
PMID:Functional and molecular adaptation of Cl/HCO3- exchanger to chronic alkaline media in renal cells. 1630 27
