Isolation and characterization of the major form of polyprenyl-phospho-mannose from Mycobacterium smegmatis

Abstract

We isolated from the endogenous polyprenyl-phospho-sugar pool of Mycobacterium smegmatis two mannose-containing compounds, i.e., a partially saturated C₃₅-octahydroheptaprenyl-P-mannose and a fully unsaturated C₅₀-decaprenyl-P-mannose. The relative amount of C₃₅-polyprenyl-P-mannose in mycobacterial cells was comparable to that of decaprenyl- P-pentoses and, at least, an order of magnitude higher than that of C₅₀-decaprenyl-P-mannose. The major form of mycobacterial polyprenyl-P-mannose was structurally characterized by combined gas chromatography-mass spectrometry, fast-atom bombardment tandem mass spectrometry and proton-nuclear magnetic resonance spectroscopy as β-d-mannopyranosyl-monophospho-(C₃₅)octahydroheptaprenol of which all three isoprene units have Z (cis) configuration. The differences in the structure and cellular concentrations of the mycobacterial mannosyl-P-polyprenols reflect distinct biochemical pathways of the two compounds and suggest the existence of specific GDP-Man:polyprenyl-P mannosyltransferases (synthetases) able to distinguish between C₃₅-octahydroheptaprenyl- and C₅₀-decaprenyl-phosphates of mycobacteria. Since the 6′-O-mycoloylated form of C₃₅-octahydroheptaprenyl-P-mannose isolated from M. smegmatis is apparently involved in mycolate rather than mannosyl transfer reactions, we speculate that a catabolic pathway responsible for degradation of C₃₅-P-mannose and recycling C₃₅-octahydroheptaprenyl phosphate might exist in mycobacteria.