Interchain Acetyl Transfer in the E2 Component of Bacterial Pyruvate Dehydrogenase Suggests a Model with Different Roles for Each Chain in a Trimer of the Homooligomeric Component
2012
Song, Jaeyoung | Jordan, Frank
The bacterial pyruvate dehydrogenase complex carries out conversion of pyruvate to acetyl-coenzyme A with the assistance of thiamin diphosphate (ThDP), several other cofactors, and three principal protein components, E1–E3, each present in multiple copies. The E2 component forms the core of the complexes, each copy consisting of variable numbers of lipoyl domains (LDs, lipoic acid covalently amidated at a lysine residue), peripheral subunit binding domains (PSBDs), and catalytic (or core) domains (CDs). The reaction starts with a ThDP-dependent decarboxylation on E1 to an enamine/C2α̃ carbanion, followed by oxidation and acetyl transfer to form S-acetyldihydrolipoamide E2, and then transfer of this acetyl group from the LD to coenzyme A on the CD. The dihydrolipoamide E2 is finally reoxidized by the E3 component. This report investigates whether the acetyl group is passed from the LD to the CD in an intra- or interchain reaction. Using an Escherichia coli E2 component having a single LD, two types of constructs were prepared: one with a Lys to Ala substitution in the LD at the Lys carrying the lipoic acid, making E2 incompetent toward post-translational ligation of lipoic acid and, hence, toward reductive acetylation, and the other in which the His believed to catalyze the transthiolacetylation in the CD is substituted with A or C, the absence of His rendering it incompetent toward acetyl-CoA formation. Both kinetic evidence and mass spectrometric evidence support interchain transfer of the acetyl groups, providing a novel model for the presence of multiples of three chains in all E2 components, and their assembly in bacterial enzymes.
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