 |
| Research article summary (published 2 Nov 2009): |
Cholesterol depletion of the plasma membrane prevents activation of the epithelial sodium channel (ENaC) by SGK1.
Full Abstract
The lipid environment of the epithelial sodium channel (ENaC) and its possible association with so-called lipid rafts may be relevant to its function. The aim of our study was to confirm the association of ENaC with lipid rafts and to analyze the effect of cholesterol depletion of the plasma membrane by methyl-beta-cyclodextrin (MbetaCD) on channel function and regulation. Using sucrose density gradient centrifugation we demonstrated that a significant portion of ENaC protein distributes to low density fractions thought to be typical lipid raft fractions. Importantly, cholesterol depletion of cell lysate by MbetaCD shifted ENaC to non-raft fractions of higher density. Live cell imaging demonstrated that treatment with MbetaCD largely reduced filipin staining over time, confirming cholesterol depletion of the plasma membrane. For electrophysiological studies intact oocytes were exposed to 20 mM MbetaCD for three hours. MbetaCD treatment had no consistent effect on baseline whole-cell ENaC currents. In addition to the typical single channel conductance of about 5 pS, subconductance states of ENaC were occasionally observed in patches from MbetaCD treated but not from control oocytes. Importantly, in outside-out patch clamp recordings the stimulatory effect of recombinant SGK1 in the pipette solution was essentially abolished in oocytes pretreated with MbetaCD. These results indicate that ENaC activation by cytosolic SGK1 is compromised by removing cholesterol from the plasma membrane. Thus, ENaC activation by SGK1 may require the presence of an intact lipid environment and/or of lipid rafts as signalling platform. 2009 S. Karger AG, Basel.
Author information
Author/s: Krueger, Bettina (B); Haerteis, Silke (S); Yang, Limin (L); Hartner, Andrea (A); Rauh, Robert (R); Korbmacher, Christoph (C); Diakov, Alexei (A);
Affiliation: Institut fur Zellulare und Molekulare Physiologie, Erlangen-Nurnberg, Germany.
Journal and publication information
Publication Type: Journal Article; Research Support, Non-U.S. Gov't
Journal: Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology (Cell Physiol Biochem), published in Switzerland. (Language: eng)
Reference: 2009-; vol 24 (issue 5-6) : pp 605-18
Dates: Created 2009/11/13;
PMID: 19910701, status: In-Process (last retrieved date: 11/15/2009)
Sourced from the National Library of Medicine. Abstract text and other information may be subject to copyright.
External Links for this article
(including full text providers, if available):
Click Electronic Full-text Provider Links to see options for finding the electronic full text links to this article. Note there may be a subscription or fee required for access to the full text. See our FAQ for information on finding FREE full text articles.
This article may also be located in paper journal collections available in many libraries. Use the Journal and Publication Information above to find the full article.
MeSH headings (categories)
This article was linked to the MeSH Headings (categories) shown below.
No MeSH Headings found.
The article may not be MeSH Indexed as yet.
Note: Bold headings indicate primary MeSH headings or qualifiers.
Related articles
This article has not been indexed for related articles as yet, however you can still use the live related article search links below.
See a larger map of 100+ related articles.