Aberrant Catalytic Cycle and Impaired Lipid Transport into Intracellular Vesicles in ABCA3 Mutants Associated with Nonfatal Pediatric Interstitial Lung Disease

Overview

Journal Am J Physiol Lung Cell Mol Physiol

Publisher American Physiological Society

Specialties Cell Biology
Molecular Biology
Physiology
Pulmonary Medicine

Date 2008 Aug 5

PMID 18676873

Citations 41

Authors

Yoshihiro Matsumura

Nobuhiro Ban

Nobuya Inagaki

Affiliations

Soon will be listed here.

Abstract

The ATP-binding cassette transporter ABCA3 mediates uptake of choline-phospholipids into intracellular vesicles and is essential for surfactant metabolism in lung alveolar type II cells. We have shown previously that ABCA3 mutations in fatal surfactant deficiency impair intracellular localization or ATP hydrolysis of ABCA3 protein. However, the mechanisms underlying the less severe phenotype of patients with ABCA3 mutation are unclear. In this study, we characterized ABCA3 mutant proteins identified in pediatric interstitial lung disease (pILD). E292V (intracellular loop 1), E690K (adjacent to Walker B motif in nucleotide binding domain 1), and T1114M (8th putative transmembrane segment) mutant proteins are localized mainly in intracellular vesicle membranes as wild-type protein. Lipid analysis and sucrose gradient fractionation revealed that the transport function of E292V mutant protein is moderately preserved, whereas those of E690K and T1114M mutant proteins are severely impaired. Vanadate-induced nucleotide trapping and photoaffinity labeling of wild-type and mutant proteins using 8-azido-[(32)P]ATP revealed an aberrant catalytic cycle in these mutant proteins. These results demonstrate the importance of a functional catalytic cycle in lipid transport of ABCA3 and suggest a pathophysiological mechanism of pILD due to ABCA3 mutation.

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