Epithelial sodium channel (ENaC) in the kidneys is critical for Na + balance, extracellular volume, and blood pressure. Altered ENaC function is associated with respiratory disorders, pseudo-hypoaldosteronism type 1, and Liddle syndrome. ENaC is known to interact with components of the cytoskeleton, but the functional roles remain largely unclear. Here, we examined the interaction between ENaC and filamins, important actin filament components. Wefirst discovered by yeast two-hybrid screening that theC termini of ENaC α and β subunits bind filamin A, B, and C, and we then confirmed the binding by in vitro biochemical assays. We demonstrated by co- immunoprecipitation that ENaC, either overexpressed in HEK, HeLa, and melanoma A7 cells or natively expressed in LLC-PK1 and IMCD cells, is in the same complex with native filamin. Furthermore, the biotinylation and co-immunoprecipitation combined assays showed the ENaC-filamin interaction on the cell surface. Using Xenopus oocyte expression and two-electrode voltage clamp electrophysiology, we found that co-expression of an ENaC-binding domain of filamin substantially reduces ENaC channel function. Western blot and immunohistochemistry experiments revealed that the filamin A C terminus (FLNAC) modestly reduces the expression of the ENaC α subunit in oocytes and A7 cells. After normalizing the current by plasma membrane expression, we found that FLNAC results in ∼50% reduction in the ENaC channel activity. The inhibitory effect of FLNAC was confirmed by lipid bilayer electrophysiology experiments using purified ENaC and FLNAC proteins, which showed that FLNAC substantially reduces ENaC single channel open probability. Taken together, our study demonstrated that filamin reduces ENaC channel function through direct interaction on the cell surface. © 2013 by The American Society for Biochemistry and Molecular Biology, Inc.
CITATION STYLE
Wang, Q., Dai, X. Q., Li, Q., Tuli, J., Liang, G., Li, S. S., & Chen, X. Z. (2013). Filamin interacts with epithelial sodium channel and inhibits its channel function. Journal of Biological Chemistry, 288(1), 264–273. https://doi.org/10.1074/jbc.M112.396408
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