2000
DOI: 10.1074/jbc.m003822200
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Non-coordinate Regulation of Endogenous Epithelial Sodium Channel (ENaC) Subunit Expression at the Apical Membrane of A6 Cells in Response to Various Transporting Conditions

Abstract: In many epithelial tissues in the body (e.g. kidney distal nephron, colon, airways) the rate of Na ؉ reabsorption is governed by the activity of the epithelial Na ؉ channel (ENaC). ENaC activity in turn is regulated by a number of factors including hormones, physiological conditions, and other ion channels. To begin to understand the mechanisms by which ENaC is regulated, we have examined the trafficking and turnover of ENaC subunits in A6 cells, a polarized, hormonally responsive Xenopus kidney cell line. As … Show more

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Cited by 108 publications
(148 citation statements)
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“…This approach was original inasmuch as, to our knowledge, it constitutes the first example of direct quantification of rENaC subunit apical expression in mammalian epithelial cells endogenously expressing ENaC. In normoxic ATII cells under steady state conditions, the apical expression of ␣-rENaC represented ϳ20 -25% of total ␣-rENaC cellular pool, a proportion similar to that obtained in renal amphibian A6 cells (18), and apical expression of ␤-and ␥-rENaC subunits was only 5% of total cellular pools. Although biotinylated ␤-and ␥-rENaC subunit bands migrated at the same level as intracellular ␤-and ␥-rENaC, biotinylated ␣-rENaC had an apparent molecular mass (65 kDa) lower than intracellular ␣-rENaC (85 kDa).…”
Section: Discussionmentioning
confidence: 99%
“…This approach was original inasmuch as, to our knowledge, it constitutes the first example of direct quantification of rENaC subunit apical expression in mammalian epithelial cells endogenously expressing ENaC. In normoxic ATII cells under steady state conditions, the apical expression of ␣-rENaC represented ϳ20 -25% of total ␣-rENaC cellular pool, a proportion similar to that obtained in renal amphibian A6 cells (18), and apical expression of ␤-and ␥-rENaC subunits was only 5% of total cellular pools. Although biotinylated ␤-and ␥-rENaC subunit bands migrated at the same level as intracellular ␤-and ␥-rENaC, biotinylated ␣-rENaC had an apparent molecular mass (65 kDa) lower than intracellular ␣-rENaC (85 kDa).…”
Section: Discussionmentioning
confidence: 99%
“…Thus, our results were not influenced by possible dynamic rearrangement of channel subunits during the experiment. This becomes particularly important considering the recent findings of others suggesting that in the plasma membrane, ENaC stoichiometry and possibly oligomerization is not fixed (26).…”
Section: Discussionmentioning
confidence: 99%
“…At the appropriate chase time, cells were rinsed with PBS and lysed in detergent solution (6). After a brief centrifugation to remove nuclei, lysates were immunoprecipitated with anti-␤-ENaC or -V5 antibodies, and antibody-antigen complexes were collected using fixed Staphylococcus aureus (Pansorbin; Calbiochem) or protein G-coupled Sepharose (Sigma), respectively.…”
Section: Cell Lines and Adenoviruses-mdck Type I Cells Were Maintainementioning
confidence: 99%
“…While biochemical studies from several laboratories universally report a short half-life for the total pool of newly synthesized ENaC subunits (typically 1-2 h) (2-7), there is considerable dispute regarding the stability of ENaC subunits that have reached the plasma membrane. Some studies report rapid decay of all three cell surface subunits in polarized MDCK and A6 cells (4, 5), whereas we and others have observed long half-lives of ␣-and ␥-ENaC that were biotinylated at the apical plasma membrane of A6 cells (6,8). We use the term noncoordinate regulation to describe this differential turnover of ENaC subunits and have proposed possible molecular models for this observation based on experimental results from many laboratories (6, 9).…”
mentioning
confidence: 99%