The epithelial sodium channel (ENaC) mediates Na+ transport in several epithelia, including the lung and the aldosterone-sensitive distal nephron. ENaC is a heterotrimer comprising ⍺βγ or δβγ subunits. Though sharing similar structural folds as other ENaC/Degenerin family members, ENaC subunits have a unique extracellular GRIP (Gating Release of Inhibition by Proteolysis) domain, and the a and g subunits have polybasic sites that can be cleaved by proteases. Aldosterone promotes double cleavage of the α and γ subunits at these sites, leading to release of the first two b-strands of the GRIP domain (P1 and P2) and channel activation. Structural and sequence conservation suggest that the interaction between P1 and the channel are mediated by a Pro-Leu motif in P1 and a conserved Trp residue in helix α2 of the finger domain. We hypothesized that this interaction is critical for the inhibitory properties of the imbedded tract, defined by P1, and thus channel activation upon release. To test our hypothesis, we substituted the conserved Trp with Ala or Phe in each of the human ENaC subunits and performed two-electrode voltage clamp experiments in Xenopus oocytes to measure the effects on function. Compared to wild type channels, we found that ⍺W251F, βW218A, βW218F, γW229F, and δW396F had no effect on amiloride-sensitive currents. Interestingly, δW396A decreased amiloride-sensitive current by 20% (p=0.01). However, amiloride-sensitive currents were greatly enhanced for Ala mutations in subunits subject to cleavage: ⍺W251A (p=0.02) and γW229A (p=0.01). In line with channel activation, ⍺W251A weakened sensitivity to extracellular Na+ (Na+ self-inhibition), and γW229A completely lost its sensitivity to both extracellular Na+ and chymotrypsin. We also tested the effect of inhibitory peptides (α8 and γ11) corresponding to the imbedded inhibitory tracts (i.e., P1 of the GRIP domain) of the ⍺ and γ subunits. ⍺W251A was insensitive to 10 μM ⍺8 compared to wild type ENaC (85% inhibition), and γW229A was insensitive to 100 μM γ11 compared to wild type ENaC (40% inhibition). Collectively, our results provide evidence for the idea that the interaction between the Pro-Leu motif in GRIP domain’s P1 β-strand and the conserved Trp in the finger domain’s α2 helix is critical for the autoinhibitory properties of P1, and therefore activation upon P1 release after proteolysis of the ⍺ and γ subunits. R01 DK125439 Kashlan (PI) ENaC Regulation by Biliary Factors. This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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