• The Journal of physiology · Jun 2016

    On the mechanism of gating defects caused by the R117H mutation in cystic fibrosis transmembrane conductance regulator.

    • Ying-Chun Yu, Yoshiro Sohma, and Tzyh-Chang Hwang.
    • Dalton Cardiovascular Research Center, University of Missouri-Columbia, MO, 65211, USA.
    • J. Physiol. (Lond.). 2016 Jun 15; 594 (12): 3227-44.

    Key PointsTwo functional abnormalities of cystic fibrosis transmembrane conductance regulator (CFTR), a 25% reduction of the single-channel conductance (g) and a ∼13-fold lower open probability (Po ), were found with the R117H mutation that is associated with mild forms of cystic fibrosis. Characterizations of the gating defects of R117H-CFTR led to the conclusion that the mutation decreases Po by perturbing the gating conformational changes in CFTR's transmembrane domains (TMDs) without altering the function of the nucleotide binding domains (NBDs). Nonetheless, gating of the R117H-CFTR can be improved by a variety of pharmacological reagents supposedly acting on NBDs such as ATP analogues, or TMDs (e.g. VX-770 or nitrate). These reagents potentiate synergistically R117H-CFTR gating to a level that allows accurate assessments of its gating deficits. Our studies not only elucidate the mechanism underpinning gating dysfunction of R117H-CFTR, but also provide a mechanistic understanding of how VX-770 ameliorates the gating defects in the R117H mutant.AbstractCystic fibrosis (CF) is caused by loss-of-function mutations of the cystic fibrosis transmembrane conductance regulator (CFTR) gene encoding a phosphorylation-activated, but ATP-gated chloride channel. In the current study, we investigated the mechanism responsible for the gating defects manifested in R117H-CFTR, an arginine-to-histidine substitution at position 117 of CFTR that is associated with mild forms of CF. We confirmed previous findings of a 25% decrease of the single-channel conductance (g) in R117H-CFTR, but found a ∼13-fold lower open probability (Po ). This dramatic gating deficit is not due to dysfunctional nucleotide binding domains (NBDs) as the mutation does not alter the apparent affinity for ATP, and the mutant channels respond to ATP analogues in a similar manner as wild-type CFTR. Furthermore, once ATP hydrolysis is abolished, the R117H mutant can be trapped in a prolonged 'burst opening' conformation that is proposed to be equipped with a stable NBD dimer. On the other hand, our results support the conclusion that the R117H mutation decreases Po by perturbing the gating conformational changes in CFTR's transmembrane domains as even when NBDs are kept at a dimerized configuration, Po is reduced by ∼10-fold. Moreover, our data demonstrate that a synergistic improvement of R117H-CFTR function can be accomplished with a combined regiment of VX-770 (Ivacaftor), nitrate ion (NO3 (-) ) and N(6) -(2-phenylethyl)-2'-deoxy-ATP (d-PATP), which almost completely rectifies the gating defect of R117H-CFTR. Clinical implications of our results are discussed.© 2016 The Authors. The Journal of Physiology © 2016 The Physiological Society.

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