Candida albicans ß-1,2 mannosyl transferase Bmt3: Preparation and evaluation of a ß (1,2), α (1,2)-tetramannosyl fluorescent substrate.

We describe for the first time the chemical synthesis of a tetramannoside, containing both α (1→2) and ß (1→2) linkages. Dodecylthio (lauryl) glycosides were prepared from odorless dodecyl thiol and used as donors for the glycosylation steps. This tetramannoside, was coupled to a mantyl group, and revealed to be a perfect substrate of ß-mannosyltransferase Bmt3, confirming the proposed specificity and allowing the preparation of a pentamannoside sequence (ß Man (1,2) ß Man (1,2) α Man (1,2) α Man (1,2) α Man) usable as a novel substrate for further elongation studies.

Candida albicans ß-1,2-mannosyltransferase Bmt3 prompts the elongation of the cell-wall phosphopeptidomannan.

ß-1,2-Linked mannosides are expressed on numerous cell-wall glycoconjugates of the opportunistic pathogen yeast Candida albicans. Several studies evidenced their implication in the host-pathogen interaction and virulence mechanisms. In the present study, we characterized the in vitro activity of CaBmt3, a ß-1,2-mannosyltransferase involved in the elongation of ß-1,2-oligomannosides oligomers onto the cell-wall polymannosylated N-glycans. A recombinant soluble enzyme Bmt3p was produced in Pichia pastoris and its enzyme activity was investigated using natural and synthetic oligomannosides as potential acceptor substrates. Bmt3p was shown to exhibit an exquisite enzymatic specificity by adding a single terminal ß-mannosyl residue to α-1,2-linked oligomannosides capped by a Manß1-2Man motif. Furthermore, we demonstrated that the previously identified CaBmt1 and CaBmt3 efficiently act together to generate Manß1-2Manß1-2[Manα1-2]n sequence from α-1,2-linked oligomannosides onto exogenous and endogenous substrates.