Robert C. Goldman, Eugene R. Baizman, Clifford B. Longley
Feb 1, 2000
Citations
2
Influential Citations
44
Citations
Quality indicators
Journal
FEMS microbiology letters
Abstract
Novel glycopeptide analogs are known that have activity on vancomycin resistant enterococci despite the fact that the primary site for drug interaction, D-ala-D-ala, is replaced with D-ala-D-lactate. The mechanism of action of these compounds may involve dimerization and/or membrane binding, thus enhancing interaction with D-ala-D-lactate, or a direct interaction with the transglycosylase enzymes involved in peptidoglycan polymerization. We evaluated the ability of vancomycin (V), desleucyl-vancomycin (desleucyl-V), chlorobiphenyl-vancomycin (CBP-V), and chlorobiphenyl-desleucyl-vancomycin (CBP-desleucyl-V) to inhibit (a) peptidoglycan synthesis in vitro using UDP-muramyl-pentapeptide and UDP-muramyl-tetrapeptide substrates and (b) growth and peptidoglycan synthesis in vancomycin resistant enterococci. Compared to V or CBP-V, CBP-desleucyl-V retained equivalent potency in these assays, whereas desleucyl-V was inactive. In addition, CBP-desleucyl-V caused accumulation of N-acetylglucosamine-beta-1, 4-MurNAc-pentapeptide-pyrophosphoryl-undecaprenol (lipid II). These data show that CBP-desleucyl-V inhibits peptidoglycan synthesis at the transglycosylation stage in the absence of binding to dipeptide.