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标题：Characterization of desnutrin functional domains: critical residues for triacylglycerol hydrolysis in cultured cells
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作者：Robin E. Duncan ; Yuhui Wang ; Maryam Ahmadian 等
期刊名称：JLR Papers In Press
印刷版ISSN：0022-2275
电子版ISSN：1539-7262
出版年度：2010
卷号：51
期号：2
页码：309-317
DOI：10.1194/jlr.M000729
语种：English
出版社：American Society for Biochemistry and Molecular Biology
摘要：Murine desnutrin/human ATGL is a triacylglycerol (TAG) hydrolase with a predicted catalytic dyad within an α-β hydrolase fold in the N-terminal region. In humans, mutations resulting in C-terminal truncation cause neutral lipid storage disease with myopathy. To identify critical functional domains, we measured TAG breakdown in cultured cells by mutated or truncated desnutrin. In vitro, C-terminally truncated desnutrin displayed an even higher apparent V_max than the full-length form without changes in K_m , which may be explained by our finding of an interaction between the C- and N-terminal domains. In live cells, however, C-terminally truncated adenoviral desnutrin had lower TAG hydrolase activity. We investigated a role for the phosphorylation of C-terminal S406 and S430 residues but found that these were not necessary for TAG breakdown or lipid droplet localization in cells. The predicted N-terminal active sites, S47 and D166, were both critical for TAG hydrolysis in live cells and in vitro. We also identified two overlapping N-terminal motifs that predict lipid substrate binding domains, a glycine-rich motif (underlined) and an amphipathic α-helix (bold) within amino acid residues 10–24 (ISFA G C G FL G VYHIG). G14, F17, L18, and V20, but not G16 and G19, were important for TAG hydrolysis, suggesting a potential role for the amphipathic α-helix in TAG binding. This study identifies for the first time critical sites in the N-terminal region of desnutrin and reveals the requirement of the C-terminal region for TAG hydrolysis in cultured cells.
关键词：adipose triglyceride lipase ; mutant ; lipid substrate binding domain ; C-terminal region ; N-terminal region ; neutral lipid storage disease with myopathy ; hydrolase ; patatin-like phospholipase A domain containing 2