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Study Provides Evidence About The Functionality Of CFTR, A Protein That Plays A Critical Role In Cystic Fibrosis

CFTR is an important that, when mutated, causes the life-threatening genetic disease cystic fibrosis. A study in The Journal of General PhysiologyJGP details how an accidental discovery has provided new understanding about CFTR .

From a scientific standpoint, CFTR is unique in that it is the only known – a protein pore that enables the passive diffusion of ions across cell membranes – in the enormous superfamily of ABC proteins, which normally operate as . As , ABC proteins use energy derived from ATP hydrolysis to move substrates across the cell membrane against a concentration gradient. Although CFTR is equipped with the same structural elements as that of its “brethren,” it has been unclear whether the ion channel also functions in the same way.

In the October 2012 issue of JGP, Tzyh-Chang Hwang (University of Missouri-Columbia) and colleagues effectively demonstrate that the mechanism through which CFTR functions is indeed akin to that of the . Specifically, the team used a mutant CFTR channel that exhibits two different open states to determine that ATP hydrolysis underlies the unidirectional cycling of CFTR through its open and closed states. This insight provides new evidence about the functionality of a protein that plays an important role in a very prevalent human disease, and continues to be of great interest to researchers.


Rockefeller University Press