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(Received for publication, July 13, 1995) Genetic defects in the cystic fibrosis transmembrane conductance
regulator (CFTR), a cAMP-activated chloride channel, cause cystic
fibrosis. Most defective forms of CFTR show improper intracellular
trafficking. Because isoprenylated, small GTP-binding proteins are
involved in the vesicular trafficking of other integral membrane
proteins, we have investigated the role of isoprenylation in the
trafficking of CFTR to the apical membranes of primary cultures of
human airway epithelium and of Calu-3 cells, a human lung carcinoma
cell line. CFTR function was measured as short circuit current,
Volume 270,
Number 42,
Issue of October 20, 1995 pp. 25102-25106
©1995 by The American Society for Biochemistry and Molecular Biology, Inc.
I efflux, and conductance of cell sheets with
permeabilized basolateral membranes. Lovastatin, an inhibitor of
isoprenyl lipid biosynthesis, markedly inhibited all measures of CFTR
function. The lovastatin-induced declines in CFTR function were
corrected by the simultaneous addition of mevalonate or the isoprenyl
lipids geranylgeranyl and farnesyl but not cholesterol. Lovastatin
reduced total cellular CFTR as assessed by immunoprecipitation.
Mevalonate or isoprenyl lipids protected CFTR levels from the actions
of lovastatin. Together, these results suggest a role for isoprenyl
lipids, presumably through the actions of small GTP-binding proteins,
in the trafficking of CFTR to the apical membrane of human airway
epithelium.
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