Novel prenyl-linked benzophenone substrate analogues of mycobacterial mannosyltransferases

PPM (polyprenol monophosphomannose) has been shown to act as a glycosyl donor in the biosynthesis of the Man (mannose)-rich mycobacterial lipoglycans LM (lipomannan) and LAM (lipoarabinomannan). The Mycobacterium tuberculosis PPM synthase (Mt-Ppm1) catalyses the transfer of Man from GDP-Man to polyp...

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Published in:	Biochemical journal Vol. 382; no. Pt 3; pp. 905 - 912
Main Authors:	Guy, Mark R, Illarionov, Petr A, Gurcha, Sudagar S, Dover, Lynn G, Gibson, Kevin J C, Smith, Paul W, Minnikin, David E, Besra, Gurdyal S
Format:	Journal Article
Language:	English
Published:	England Portland Press Ltd 15-09-2004
Subjects:	Bacterial Proteins - antagonists & inhibitors Bacterial Proteins - metabolism Benzophenones - chemical synthesis Benzophenones - metabolism Benzophenones - pharmacology Lipopolysaccharides - biosynthesis Mannose - metabolism Mannosyltransferases - antagonists & inhibitors Mannosyltransferases - metabolism Mycobacterium smegmatis - enzymology Mycobacterium tuberculosis Mycobacterium tuberculosis - enzymology Photoaffinity Labels - chemical synthesis Photoaffinity Labels - metabolism Photoaffinity Labels - pharmacology Photochemistry Polyisoprenyl Phosphates - chemical synthesis Polyisoprenyl Phosphates - metabolism Polyisoprenyl Phosphates - pharmacology
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Summary:	PPM (polyprenol monophosphomannose) has been shown to act as a glycosyl donor in the biosynthesis of the Man (mannose)-rich mycobacterial lipoglycans LM (lipomannan) and LAM (lipoarabinomannan). The Mycobacterium tuberculosis PPM synthase (Mt-Ppm1) catalyses the transfer of Man from GDP-Man to polyprenyl phosphates. The resulting PPM then serves as a donor of Man residues leading to the formation of an alpha(1-->6)LM intermediate through a PPM-dependent alpha(1-->6)mannosyltransferase. In the present study, we prepared a series of ten novel prenyl-related photoactivatable probes based on benzophenone with lipophilic spacers replacing several internal isoprene units. These probes were excellent substrates for the recombinant PPM synthase Mt-Ppm1/D2 and, on photoactivation, several inhibited its activity in vitro. The protection of the PPM synthase activity by a 'natural' C(75) polyprenyl acceptor during phototreatment is consistent with probe-mediated photoinhibition occurring via specific covalent modification of the enzyme active site. In addition, the unique mannosylated derivatives of the photoreactive probes were all donors of Man residues, through a PPM-dependent mycobacterial alpha(1-->6)mannosyltransferase, to a synthetic Manp(1-->6)-Manp-O-C(10:1) disaccharide acceptor (where Manp stands for mannopyranose). Photoactivation of probe 7 led to striking-specific inhibition of the M. smegmatis alpha(1-->6)mannosyltransferase. The present study represents the first application of photoreactive probes to the study of mycobacterial glycosyltransferases involved in LM and LAM biosynthesis. These preliminary findings suggest that the probes will prove useful in investigating the polyprenyl-dependent steps of the complex biosynthetic pathways to the mycobacterial lipoglycans, aiding in the identification of novel glycosyltransferases.
Bibliography:	ObjectType-Article-2 SourceType-Scholarly Journals-1 ObjectType-Feature-1 content type line 23 ObjectType-Article-1 ObjectType-Feature-2
ISSN:	0264-6021 1470-8728
DOI:	10.1042/BJ20040911