Inhibition of Lipid‐Linked Mannose and Mannoprotein Synthesis in Yeast by Diumycin in vitro

Abstract

Diumycin, a phosphoglycolipid antibiotic, inhibits different mannosyl transfer reactions in yeast. Using membrane preparations, the drug effectively inhibited the formation of dolichyl phosphate mannose (DolP-Man); 50% inhibition was observed at approximately 10 μg/ml. To a lesser extent also mannosyl transfer from DolP-Man to protein decreased in presence of diumycin. Both mannosyl transfer to protein-serine/threonine acceptor sites as well as into positions within the asparagine-linked polymannose part of the yeast mannoprotein are inhibited to about 60% under conditions where DolP-Man formation is blocked. DolP-Man synthesis as well as mannosyl transfer from DolP-Man to protein are also inhibited by diumycin using solubilized enzymes and exogenous acceptor substrates. Glycosyltransfer reactions from GDP-mannose either to protein-serine/threonine-linked mannose (formation of short manno-oligosaccharides) or to dolichyl-diphosphate-linked chitobiose (formation of lipid-linked trisaccharide) are not inhibited by diumycin under conditions where DolP-Man synthesis is blocked by the antibiotic. The inhibitory action of diumycin on DolP-Man formation does not seem to be competitive with respect to dolichyl phosphate, since it cannot be overcome by higher concentrations of dolichyl phosphate.