Structural basis for different membrane-binding properties of E. coli anaerobic and human mitochondrial ß-oxidation trifunctional enzymes.

ABSTRACT

Facultative anaerobic bacteria such as Escherichia coli have two α2ß2 heterotetrameric trifunctional enzymes (TFE), catalyzing the last three steps of the ß-oxidation cycle soluble aerobic TFE (EcTFE) and membrane-associated anaerobic TFE (anEcTFE), closely related to the human mitochondrial TFE (HsTFE). The cryo-EM structure of anEcTFE and crystal structures of anEcTFE-α show that the overall assembly of anEcTFE and HsTFE is similar. However, their membrane-binding properties differ considerably. The shorter A5-H7 and H8 regions of anEcTFE-α result in weaker α-ß as well as α-membrane interactions, respectively. The protruding H-H region of anEcTFE-ß is therefore more critical for membrane-association. Mutational studies also show that this region is important for the stability of the anEcTFE-ß dimer and anEcTFE heterotetramer. The fatty acyl tail binding tunnel of the anEcTFE-α hydratase domain, as in HsTFE-α, is wider than in EcTFE-α, accommodating longer fatty acyl tails, in good agreement with their respective substrate specificities.