作者
Daniel K Bricker, Eric B Taylor, John C Schell, Thomas Orsak, Audrey Boutron, Yu-Chan Chen, James E Cox, Caleb M Cardon, Jonathan G Van Vranken, Noah Dephoure, Claire Redin, Sihem Boudina, Steven P Gygi, Michèle Brivet, Carl S Thummel, Jared Rutter
发表日期
2012/7/6
期刊
Science
卷号
337
期号
6090
页码范围
96-100
出版商
American Association for the Advancement of Science
简介
Pyruvate constitutes a critical branch point in cellular carbon metabolism. We have identified two proteins, Mpc1 and Mpc2, as essential for mitochondrial pyruvate transport in yeast, Drosophila, and humans. Mpc1 and Mpc2 associate to form an ~150-kilodalton complex in the inner mitochondrial membrane. Yeast and Drosophila mutants lacking MPC1 display impaired pyruvate metabolism, with an accumulation of upstream metabolites and a depletion of tricarboxylic acid cycle intermediates. Loss of yeast Mpc1 results in defective mitochondrial pyruvate uptake, and silencing of MPC1 or MPC2 in mammalian cells impairs pyruvate oxidation. A point mutation in MPC1 provides resistance to a known inhibitor of the mitochondrial pyruvate carrier. Human genetic studies of three families with children suffering from lactic acidosis and hyperpyruvatemia revealed a causal locus that mapped to MPC1, changing single …
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DK Bricker, EB Taylor, JC Schell, T Orsak, A Boutron… - Science, 2012