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• W2246244254 abstract "The extracellular regions of epithelial Na+ channel subunits are highly ordered structures composed of domains formed by α helices and β strands. Deletion of the peripheral knuckle domain of the α subunit in the αβγ trimer results in channel activation, reflecting an increase in channel open probability due to a loss of the inhibitory effect of external Na+ (Na+ self-inhibition). In contrast, deletion of either the β or γ subunit knuckle domain within the αβγ trimer dramatically reduces epithelial Na+ channel function and surface expression, and impairs subunit maturation. We systematically mutated individual α subunit knuckle domain residues and assessed functional properties of these mutants. Cysteine substitutions at 14 of 28 residues significantly suppressed Na+ self-inhibition. The side chains of a cluster of these residues are non-polar and are predicted to be directed toward the palm domain, whereas a group of polar residues are predicted to orient their side chains toward the space between the knuckle and finger domains. Among the mutants causing the greatest suppression of Na+ self-inhibition were αP521C, αI529C, and αS534C. The introduction of Cys residues at homologous sites within either the β or γ subunit knuckle domain resulted in little or no change in Na+ self-inhibition. Our results suggest that multiple residues in the α subunit knuckle domain contribute to the mechanism of Na+ self-inhibition by interacting with palm and finger domain residues via two separate and chemically distinct motifs. The extracellular regions of epithelial Na+ channel subunits are highly ordered structures composed of domains formed by α helices and β strands. Deletion of the peripheral knuckle domain of the α subunit in the αβγ trimer results in channel activation, reflecting an increase in channel open probability due to a loss of the inhibitory effect of external Na+ (Na+ self-inhibition). In contrast, deletion of either the β or γ subunit knuckle domain within the αβγ trimer dramatically reduces epithelial Na+ channel function and surface expression, and impairs subunit maturation. We systematically mutated individual α subunit knuckle domain residues and assessed functional properties of these mutants. Cysteine substitutions at 14 of 28 residues significantly suppressed Na+ self-inhibition. The side chains of a cluster of these residues are non-polar and are predicted to be directed toward the palm domain, whereas a group of polar residues are predicted to orient their side chains toward the space between the knuckle and finger domains. Among the mutants causing the greatest suppression of Na+ self-inhibition were αP521C, αI529C, and αS534C. The introduction of Cys residues at homologous sites within either the β or γ subunit knuckle domain resulted in little or no change in Na+ self-inhibition. Our results suggest that multiple residues in the α subunit knuckle domain contribute to the mechanism of Na+ self-inhibition by interacting with palm and finger domain residues via two separate and chemically distinct motifs." @default.
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• W2246244254 date "2015-10-01" @default.
• W2246244254 modified "2023-10-14" @default.
• W2246244254 title "Functional Roles of Clusters of Hydrophobic and Polar Residues in the Epithelial Na+ Channel Knuckle Domain" @default.
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• W2246244254 doi "https://doi.org/10.1074/jbc.m115.665398" @default.
• W2246244254 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4599017" @default.
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• W2246244254 hasPublicationYear "2015" @default.
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