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ABHD11 maintains 2-oxoglutarate metabolism by preserving functional lipoylation of the 2-oxoglutarate dehydrogenase complex

Peter S. J. Bailey, Brian M. Ortmann, Anthony W. Martinelli, Jack W. Houghton, Ana S.H. Costa, Stephen P. Burr, Robin Antrobus, Christian Frezza, James A. Nathan

2020Nature Communications51 citationsDOIOpen Access PDF

Abstract

2-oxoglutarate (2-OG or α-ketoglutarate) relates mitochondrial metabolism to cell function by modulating the activity of 2-OG dependent dioxygenases involved in the hypoxia response and DNA/histone modifications. However, metabolic pathways that regulate these oxygen and 2-OG sensitive enzymes remain poorly understood. Here, using CRISPR Cas9 genome-wide mutagenesis to screen for genetic determinants of 2-OG levels, we uncover a redox sensitive mitochondrial lipoylation pathway, dependent on the mitochondrial hydrolase ABHD11, that signals changes in mitochondrial 2-OG metabolism to 2-OG dependent dioxygenase function. ABHD11 loss or inhibition drives a rapid increase in 2-OG levels by impairing lipoylation of the 2-OG dehydrogenase complex (OGDHc)-the rate limiting step for mitochondrial 2-OG metabolism. Rather than facilitating lipoate conjugation, ABHD11 associates with the OGDHc and maintains catalytic activity of lipoyl domain by preventing the formation of lipoyl adducts, highlighting ABHD11 as a regulator of functional lipoylation and 2-OG metabolism.

Topics & Concepts

BiologyBiochemistryFunction (biology)MetabolismEnzymeMutagenesisCell biologyComputational biologyMutationGenePeroxisome Proliferator-Activated ReceptorsMitochondrial Function and PathologyCancer, Hypoxia, and Metabolism