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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 

Syntaxin 1A regulates ENaC via domain-specific interactions.

The epithelial sodium channel (ENaC) is a heterotrimeric protein responsible for Na(+) absorption across the apical membranes of several absorptive epithelia. The rate of Na(+) absorption is governed in part by regulated membrane trafficking mechanisms that control the apical membrane ENaC density. Previous reports have implicated a role for the t-SNARE protein, syntaxin 1A (S1A), in the regulation of ENaC current (I(Na)). In the present study, we examine the structure-function relations influencing S1A-ENaC interactions. In vitro pull-down assays demonstrated that S1A directly interacts with the C termini of the alpha-, beta-, and gamma-ENaC subunits but not with the N terminus of any ENaC subunit. The H3 domain of S1A is the critical motif mediating S1A-ENaC binding. Functional studies in ENaC expressing Xenopus oocytes revealed that deletion of the H3 domain of co-expressed S1A eliminated its inhibition of I(Na), and acute injection of a GST- H3 fusion protein into ENaC expressing oocytes inhibited I(Na) to the same extent as S1A co-expression. In cell surface ENaC labeling experiments, reductions in plasma membrane ENaC accounted for the H3 domain inhibition of I(Na). Individually substituting C terminus-truncated alpha-, beta-, or gamma-ENaC subunits for their wild-type counterparts reversed the S1A-induced inhibition of I(Na), and oocytes expressing ENaC comprised of three C terminus-truncated subunits showed no S1A inhibition of I(Na). C terminus truncation or disruption of the C terminus beta-subunit PY motif increases I(Na) by interfering with ENaC endocytosis. In contrast to subunit truncation, a beta-ENaC PY mutation did not relieve S1A inhibition of I(Na), suggesting that S1A does not perturb Nedd4 interactions that lead to ENaC endocytosis/degradation. This study provides support for the concept that S1A inhibits ENaC-mediated Na(+) transport by decreasing cell surface channel number via direct protein-protein interactions at the ENaC C termini.[1]

References

  1. Syntaxin 1A regulates ENaC via domain-specific interactions. Condliffe, S.B., Carattino, M.D., Frizzell, R.A., Zhang, H. J. Biol. Chem. (2003) [Pubmed]
 
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