Actinobacteria challenge the paradigm: a unique protein architecture for a well-known central metabolic complex

Abstract

ABSTRACTα-ketoacid dehydrogenase complexes are large, tripartite enzymatic machineries carrying out key reactions in central metabolism. Extremely conserved across the tree of life, they have so far all considered to be structured around a high molecular weight hollow core, consisting of up to 60 subunits of the acyltransferase component. We provide here evidence that Actinobacteria break the rule by possessing an acetyltranferase component reduced to its minimally active, trimeric unit, characterized by a unique C-terminal helix that affects the oligomerization and the full 3D architecture of the complex. We show that this unique feature is characterized by an insertion, which together with OdhA is found spread over Actinobacteria. This phylum includes organisms or great interest for agriculture, industrial bio-production and many human pathogens as Mycobacterium tuberculosis. Moreover, components of this complex are key for M. tuberculosis survival in the human host, and its unique core and protein-protein interactions represent potentially “druggable” targets.