Elucidation of the active conformation of vancomycin dimers with antibacterial activity against vancomycin-resistant bacteria

Jun Nakamura, Hidenori Yamashiro, Sayaka Hayashi, Mami Yamamoto, Kenji Miura, Shu Xu, Takayuki Doi, Hideki Maki, Osamu Yoshida, Hirokazu Arimoto

研究成果: Article査読

10 被引用数 (Scopus)


Covalently linked vancomycin dimers have attracted a great deal of attention among researchers because of their enhanced antibacterial activity against vancomycin-resistant strains. However, the lack of a clear insight into the mechanisms of action of these dimers hampers rational optimization of their antibacterial potency. Here, we describe the synthesis and antibacterial activity of novel vancomycin dimers with a constrained molecular conformation achieved by two tethers between vancomycin units. Conformational restriction is a useful strategy for studying the relationship between the molecular topology and biological activity of compounds. In this study, two vancomycin units were linked at three distinct positions of the glycopeptide (vancosamine residue (V), C terminus (C), and N terminus (N)) to form two types of novel vancomycin cyclic dimers. Active NC-VV-linked dimers with a stable conformation as indicated by molecular mechanics calculations selectively suppressed the peptidoglycan polymerization reaction of vancomycin-resistant Staphylococcus aureus in vitro. In addition, double-disk diffusion tests indicated that the antibacterial activity of these dimers against vancomycin-resistant enterococci might arise from the inhibition of enzymes responsible for peptidoglycan polymerization. These findings provide a new insight into the biological targets of vancomycin dimers and the conformational requirements for efficient antibacterial activity against vancomycin-resistant strains. Squashing superbugs: Conformationally constrained vancomycin dimers that inhibit the peptidoglycan synthesis of vancomycin-resistant bacteria were prepared (see scheme). The potent antibacterial activity of the dimers was suggested to arise from their direct action on transglycosylase enzymes.

ジャーナルChemistry - A European Journal
出版ステータスPublished - 2012 10月 1

ASJC Scopus subject areas

  • 触媒
  • 有機化学


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