EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Basolateral uptake of chloride by the HCl-secreting parietal cells of the gastric (oxyntic) glands is most likely mediated by a HCO3-/Cl- anion exchange mechanism. Circumstantial evidence indicates that in rodents the anion exchange proceeds through an anion exchanger 2(AE2)-like membrane protein. In the present study, we raised antibodies against a bacterial fusion protein expressing a approximately 26-kDa portion of the human AE2 sequence. These antibodies were used to identify and localize AE2 in the human stomach. Here we report that the mucosa of the human stomach expresses an approximately 160-kDa immunoreactive form of AE2 containing the AE2-specific exoplasmic domain (Z-loop) as identified by polymerase chain reaction. Immunostaining specific for AE2 was restricted to the basolateral membrane domain of parietal cells and was also detected in small epithelial cells localized in the glandular isthmus region. The latter cells most likely represent pre-parietal cells. Parietal cells were identified by simultaneous and sequential labelling with antibodies against the gastric H+,K(+)-ATPase and actin, respectively. Both actin and the H+,K(+)-ATPase were localized along the apical membrane of parietal cells and the membrane of their secretory intracellular canaliculi. In addition, actin was shown to be colocalized with AE2 along the basolateral cell surface. Discontinuous staining for AE2 coincided with infoldings of the basolateral plasma membrane labelled by the actin antibody. These observations indicate that AE2 might be placed at specialized (folded) microdomains of the basolateral cell surface by linkage to the actin-based cytoskeleton.
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PMID:Basolateral localization of anion exchanger 2 (AE2) and actin in acid-secreting (parietal) cells of the human stomach. 784 88

The gastric mucosa secretes both protons and bicarbonate. The molecular identity of the H(+)-K(+)-ATPase, which mediates acid secretion, has long been known, but the other components of the secretory machinery and their cellular disposition are less well characterized. This study identifies and localizes in rat and rabbit gastric mucosa a chloride-bicarbonate exchanger protein and a Na(+)-H+ exchanger protein. The previously described band 3-related protein of the parietal cell has been identified by isoform-specific antibodies as anion exchanger (AE) 2 and localized to the basolateral membranes of the parietal cells. The Na(+)-H+ exchanger protein NHE-1 was located in the basolateral membranes of the mucous neck cells, interdigitated between the parietal cells of the gastric glands and in the basolateral membranes of the surface mucous cells. Neither transporter protein was abundantly expressed deep in the gland, where most of the pepsinogen cells reside. Carbonic anhydrase II (CA II) was expressed at higher abundance in the surface mucous cells and mucous neck cells, which expressed NHE-1, than in the parietal cells, which expressed AE2. The morphological evidence identified AE2 as a major parietal cell anion exchanger, whereas NHE-1 and CA II colocalized in mucous neck, chief, and surface mucous cells. We propose that all three of these cell types contribute to gastric bicarbonate secretion.
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PMID:Immunolocalization of anion exchanger AE2 and cation exchanger NHE-1 in distinct adjacent cells of gastric mucosa. 814 Dec 71

A unique feature of the choroid plexus as a single-layer epithelium is its localization of Na+K(+)-ATPase at its apical (lumenal) surface. In contrast, a band 3 (AE1)-related anion exchanger protein has been localized to the basolateral surface of the choroid plexus. Both Na+K(+)-ATPase and AE1 in other tissues have been shown to bind via ankyrin to the spectrin-actin-based membrane cytoskeleton. Since linkage of integral membrane proteins to the membrane cytoskeleton is important for their restriction to specialized domains of the cell surface, we investigated the polarity of the choroid plexus membrane cytoskeleton. We developed isoform-specific antibodies to confirm the identity of choroid plexus band 3-related polypeptide as AE2. We demonstrated that ankyrin, fodrin/spectrin, actin, myosin, and alpha-actinin are predominantly apical in choroid plexus and preferentially colocalize with apical Na+K(+)-ATPase rather than with basolateral anion exchanger AE2. Colchicine administration did not alter the polarity of apical cytoskeletal and transport proteins or basolateral AE2 in choroid plexus, suggesting that biosynthetic targeting of these proteins is not microtubule dependent. In choroid plexus papilloma, Na+K(+)-ATPase and AE2 were decreased in amount and failed to preserve their polarized distributions.
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PMID:The fodrin-ankyrin cytoskeleton of choroid plexus preferentially colocalizes with apical Na+K(+)-ATPase rather than with basolateral anion exchanger AE2. 816 47

In simple epithelia, the distribution of ion transporting proteins between the apical or basal-lateral domains of the plasma membrane is important for determining directions of vectorial ion transport across the epithelium. In the choroid plexus, Na+,K(+)-ATPase is localized to the apical plasma membrane domain where it regulates sodium secretion and production of cerebrospinal fluid; in contrast, Na+,K(+)-ATPase is localized to the basal-lateral membrane of cells in the kidney nephron where it regulates ion and solute reabsorption. The mechanisms involved in restricting Na+,K(+)-ATPase distribution to different membrane domains in these simple epithelia are poorly understood. Previous studies have indicated a role for E-cadherin mediated cell-cell adhesion and membrane-cytoskeleton (ankyrin and fodrin) assembly in regulating Na+,K(+)-ATPase distribution in absorptive kidney epithelial cells. Confocal immunofluorescence microscopy reveals that in chicken and rat choroid plexus epithelium, fodrin, and ankyrin colocalize with Na+,K(+)-ATPase at the apical plasma membrane, but fodrin, ankyrin, and adducin also localize at the lateral plasma membrane where Na+,K(+)-ATPase is absent. Biochemical analysis shows that fodrin, ankyrin, and Na+,K(+)-ATPase are relatively resistant to extraction from cells in buffers containing Triton X-100. The fractions of Na+,K(+)-ATPase, fodrin, and ankyrin that are extracted from cells cosediment in sucrose gradients at approximately 10.5 S. Further separation of the 10.5 S peak of proteins by electrophoresis in nondenaturing polyacrylamide gels revealed that fodrin, ankyrin, and Na+,K(+)-ATPase comigrate, indicating that these proteins are in a high molecular weight complex similar to that found previously in kidney epithelial cells. In contrast, the anion exchanger (AE2), a marker protein of the basal-lateral plasma membrane in the choroid plexus, did not cosediment in sucrose gradients or comigrate in nondenaturing polyacrylamide gels with the complex of Na+,K(+)-ATPase, ankyrin, and fodrin. Ca(++)-dependent cell adhesion molecules (cadherins) were detected at lateral membranes of the choroid plexus epithelium and colocalized with a distinct fraction of ankyrin, fodrin, and adducin. Cadherins did not colocalize with Na+,K(+)-ATPase and were absent from the apical membrane. The fraction of cadherins that was extracted with buffers containing Triton X-100 cosedimented with ankyrin and fodrin in sucrose gradients and comigrated in nondenaturing gels with ankyrin and fodrin in a high molecular weight complex. Since a previous study showed that E-cadherin is an instructive inducer of Na+,K(+)-ATPase distribution, we examined protein distributions in fibroblasts transfected with B-cadherin, a prominent cadherin expressed in the choroid plexus epithelium.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Distinguishing roles of the membrane-cytoskeleton and cadherin mediated cell-cell adhesion in generating different Na+,K(+)-ATPase distributions in polarized epithelia. 840 94

Although the AE1 chloride/bicarbonate exchanger of the red blood cell is among the most thoroughly investigated of membrane transport proteins, less is known about the related AE2 polypeptide of parietal cells. We have studied enzymatic deglycosylation of native AE2 polypeptide in gastric mucosal membranes from pig and rabbit. Deglycosylation of AE2 was maximal at low ionic strength. Deglycosylation of AE2 in membranes was preferentially inhibited by bicarbonate compared with other anions. This inhibition was maximal at alkaline pH and was not evident after detergent solubilization of AE2. Deglycosylation of AE2 increased its susceptibility to proteolytic degradation, but the presence of bicarbonate protected against this degradation. Bicarbonate failed to inhibit deglycosylation of the membrane glycoproteins AE1 and gastric H(+)-K(+)-adenosinetriphosphatase beta-subunit or deglycosylation of the soluble glycoproteins fetuin and ribonuclease B. These data suggest that bicarbonate induces a conformational change in AE2 that can protect the polypeptide from deglycosylation and proteolysis. Pig AE2 was purified in sodium dodecyl sulfate, and its monosaccharide composition was determined after blotting onto polyvinylidene fluoride membrane. AE2 was found to be devoid of sialic acid, with a composition suggestive of the presence of lactosamine-type chains.
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PMID:HCO3(-)-dependent conformational change in gastric parietal cell AE2, a glycoprotein naturally lacking sialic acid. 877 47

The Cl-/HCO3- exchanger (AE2 isoform) and the Na+/K(+)-ATPase at the choroid plexus are both thought to be involved in CSF secretion. However, both transport mechanisms are also postulated to have a role in CSF ion homeostasis raising questions as to which parameters control the expression of these transporters? Northern blots have been used to assess AE2 mRNA levels in rats subjected to alterations in blood pH or blood osmolality (a factor affecting CSF secretion). Six hours of alkalosis induced a 40% increase in AE2 mRNA (p < 0.01), suggesting that alterations in the expression of this transporter play a role in CSF pH homeostasis. In contrast, changes in osmolality did not affect AE2 mRNA. Western blots of Na+/K(+)-ATPase subunits were also examined to determine whether hypo and hyperkalemia affect protein levels of this transporter. There was a positive correlation between the plasma K+ concentration and both alpha 1- and beta 1 subunit protein levels suggesting a role for this transporter in CSF K+ homeostasis. As changes in plasma K+ and pH affect choroid plexus ion transporters but do not appear to alter CSF production, these results suggest the presence of compensatory mechanisms. Understanding of such mechanisms may facilitate therapeutic control of CSF production.
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PMID:Choroid plexus ion transporter expression and cerebrospinal fluid secretion. 941 46

The H+ and HCO3- transporters present in the medullary thick ascending limb (MTAL) of the kidney are involved in several functions, such as transepithelial transport, defense of cell pH and cell volume. Apical H+ secretion occurs via the NHE-3 and NHE-2 isoforms of the Na+/H+ exchanger, and H(+)-ATPase. The apical Na+/H+ exchanger is responsible for most of the apical step of transepithelial HCO3- absorption and is unresponsive to cell acidification under isosmotic conditions. Basolateral HCO3- efflux mechanisms may occur via the Cl-/HCO3- exchanger and via the cotransporters K+/HCO3- (in the rat) and Na-3HCO3- (in the mouse). However, the role of each transporter in transepithelial HCO3- absorption is currently unknown. Inhibition of the basolateral Na+/H+ exchanger (NHE-1) paradoxically inhibits the apical Na+/H+ exchanger. This cross talk is independent of cell pH and may involve variations in cell volume. Arginine vasopressin (AVP) and hyperosmolality induce a differential regulation of basolateral NHE-1 and the apical Na+/H+ exchanger. They stimulate the basolateral NHE-1, and the resulting cell alkalinization probably stimulates the pHi-sensitive AE2, which restores cell volume by cellular uptake of NaCl. They also inhibit the apical Na+/H+ exchanger, which reduces net HCO3- absorption and thus may prevent interstitial fluid alkalinization. Chronic metabolic acidosis markedly increases HCO3- absorptive capacity of MTAL, by stimulating at least the synthesis of apical NHE-3 protein, as in the proximal tubule. Conversely, chronic metabolic alkalosis reduces the apical NHE-3 transport activity by decreasing the synthesis of NHE-3 protein. The paradoxical increase in HCO3- absorptive capacity of MTAL observed in the model of chronic NaHCO3-load alkalosis should be due to other factors overcoming the inhibitory effect of alkalosis on NHE-3.
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PMID:H+ and HCO3- transporters in the medullary thick ascending limb of the kidney: molecular mechanisms, function and regulation. 955 30

Distal renal tubular acidosis is a common health problem in northeastern Thailand, with the population background of the low potassium intake, low urine citrate, and decreased red blood cell Na-K adenosine triphosphatase (ATPase) activity and the environment of the high soil vanadium. The disease is usually seen in the people with low socioeconomic status in summer. The patients have decreased gastric acidity and low urine potassium. There are varying degrees of renal function from normal to impairment. Gastric hypoacidity is an important clue. Defects in H-K ATPase and anion exchange (AE2) mechanism are considered. The urine vanadium is higher in the patients than that of normal rural northeastern villagers. Inhibition of H-K ATPase by vanadium seems possible and requires more supporting evidence. AE1 gene mutation is noted in few patients. The cause of dRTA is not apparent. The AE2 gene and H-K ATPase gene remain to be studied. Both environmental and genetic factors could contribute to the pathogenesis of the disease.
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PMID:Environmental distal renal tubular acidosis in Thailand: an enigma. 1035 13

A low-bicarbonate concentration and an acidic pH in the luminal fluid of the epididymis and vas deferens are important for sperm maturation. These factors help maintain mature sperm in an immotile but viable state during storage in the cauda epididymidis and vas deferens. Two proton extrusion mechanisms, an Na(+)/H(+) exchanger and an H(+)ATPase, have been proposed to be involved in this luminal acidification process. The Na(+)/H(+) exchanger has not yet been localized in situ, but we have reported that H(+)ATPase is expressed on the apical membrane of apical (or narrow) and clear cells of the epididymis. These cells are enriched in carbonic anhydrase II, indicating the involvement of bicarbonate in the acidification process and suggesting that the epididymis is a site of bicarbonate reabsorption. Previous unsuccessful attempts to localize the Cl/HCO(3) anion exchanger AE1 in rat epididymis did not investigate other anion exchanger (AE) isoforms. In this report, we used a recently described SDS antigen unmasking treatment to localize the Cl/HCO(3) exchanger AE2 in rat and mouse epididymis. AE2 is highly expressed in the initial segment, intermediate zone, and caput epididymidis, where it is located on the basolateral membrane of epithelial cells. The cauda epididymidis and vas deferens also contain basolateral AE2, but in lower amounts. The identity of the AE2 protein was further confirmed by the observation that basolateral AE2 expression was unaltered in the epididymis of AE1-knockout mice. Basolateral AE2 may participate in bicarbonate reabsorption and luminal acidification, and/or may be involved in intracellular pH homeostasis of epithelial cells of the male reproductive tract.
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PMID:Immunolocalization of AE2 anion exchanger in rat and mouse epididymis. 1049 32

HGT-1 is a human cell line sharing a number of physiological features with gastric parietal cells. HGT-1 cell monolayers were able to secrete H+ when stimulated with histamine (calculated external pH variation, deltapH(e) 0.46+/-0.05) as assessed using the impermeant, pH-sensitive fluorescence dye 8-hydroxypyrene-1,3,6-trisulphonic acid, trisodium salt (HPTS). Treatment with 100 microM omeprazole inhibited the histamine-induced apical acidification by about 60%. Intracellular pH (pH(i)) measurements using the fluorescent pH-sensitive dye 2',7'-bis-carboxyethyl-5(6)-carboxyfluorescein (BCECF) demonstrated the expression of a functional, omeprazole-sensitive H+/K+-pump. A monoclonal antibody directed against the alpha subunit of the H+/K+-ATPase immunoprecipitated a 95-kDa protein from HGT-1 cells and human stomach which corresponds to the expected molecular size of the native protein. HGT-1 cells were also positive for the anion exchanger AE2 that is expressed in gastric parietal cells. In addition, we identified a histamine- and pH(i)-sensitive Na+/H+ exchanger in HGT-1 cells, which might correspond to the functional expression of the NHE4 isoform that has been detected in gastric epithelial cells as well as in primary cultured parietal cells. HGT-1 cells therefore display the principal features of parietal cells and might represent an interesting cell culture model for studying the regulatory mechanisms involved in acid secretion.
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PMID:The cultured human gastric cells HGT-1 express the principal transporters involved in acid secretion. 1104 53

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