Structural basis of branched-chain fatty acid synthesis by Propionibacterium acnes β-ketoacyl acyl Carrier protein synthase.

Propionibacterium acnes is an anaerobic gram-positive bacterium found in the niche of the sebaceous glands in the human skin, and is a causal pathogen of inflammatory skin diseases as well as periprosthetic joint infection. To gain effective control of P. acnes, a deeper understanding of the cellular metabolism mechanism involved in its ability to reside in this unique environment is needed. P. acnes exhibits typical cell membrane features of gram-positive bacteria, such as control of membrane fluidity by branched-chain fatty acids (BCFAs). Branching at the iso- or anteiso-position is achieved by incorporation of isobutyryl- or 2-methyl-butyryl-CoA via β-ketoacyl acyl carrier protein synthase (KAS III) from fatty acid synthesis. Here, we determined the crystal structure of P. acnes KAS III (PaKAS III) at the resolution of 1.9 Å for the first time. Conformation-sensitive urea polyacrylamide gel electrophoresis and tryptophan fluorescence quenching experiments confirmed that PaKAS III prefers isobutyryl-CoA as the acetyl-CoA, and the unique shape of the active site cavity complies with incorporation of branched-short chain CoAs. The determined structure clearly illustrates how BCFA synthesis is achieved in P. acnes. Moreover, the unique shape of the cavity required for the branched-chain primer can be invaluable in designing novel inhibitors of PaKAS III and developing new specifically targeted antibiotics.