Proteolytic Processing of the Epithelial Sodium Channel γ Subunit Has a Dominant Role in Channel Activation*

摘要

Maturation of the epithelial sodium channel (ENaC) involves furin-dependent cleavage at two extracellular sites within the α subunit and at a single extracellular site within the γ subunit. Channels lacking furin processing of the α subunit have very low activity. We recently identified a prostasin-dependent cleavage site (RKRK186) in the γ subunit. We also demonstrated that the tract α D206-R231, between the two furin cleavage sites in the α subunit, as well as the tract γ E144-K186, between the furin and prostasin cleavage sites in the γ subunit, are inhibitory domains. ENaC cleavage by furin, and subsequently by prostasin, leads to a stepwise increase in the open probability of the channel as a result of release of the α and γ subunit inhibitory tracts, respectively. We examined whether release of either theα orγ inhibitory tract has a dominant role in activating the channel. Co-expression of prostasin and either wild type channels or mutant channels lacking furin cleavage of the α subunit (αR205A,R208A,R231Aβγ) in Xenopus laevis oocytes led to increases in whole cell currents to similar levels. In an analogous manner and independent of the proteolytic processing of theα subunit, amiloride-sensitive currents in oocytes expressing channels carrying γ subunits with both a mutation in the furin cleavage site and a deletion of the inhibitory tract (αβγR143A,ΔE144-K186 and αR205A,R208A,R231AβγR143A, ΔE144-K186) were significantly higher than those from oocytes expressing wild type ENaC. When channels lacked the α and γ subunit inhibitory tracts, α subunit cleavage was required for channels to be fully active. Channels lacking both furin cleavage and the inhibitory tract in theγ subunit (αβγR143A,ΔE144-K186) showed a significant reduction in the efficacy of block by the syntheticα-26 inhibitory peptide representing the tract αD206-R231. Our data indicate that removal of the inhibitory tract from the γ subunit, in the absence ofα subunit cleavage, results in nearly full activation of the channel.