The nisin-lipid II complex reveals a pyrophosphate cage that provides a blueprint for novel antibiotics
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2004-10-01
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Abstract
The emerging antibiotics-resistance problem has underlined the urgent need for novel antimicrobial agents. Lantibiotics (lanthionine-containing antibiotics) are promising candidates to alleviate this problem. Nisin, a member of this family, has a unique pore-forming activity against bacteria. It binds to lipid II, the essential precursor of cell wall synthesis. As a result, the membrane permeabilization activity of nisin is increased by three orders of magnitude. Here we report the solution structure of the complex of nisin and lipid H. The structure shows a novel lipid II-binding motif in which the pyrophosphate moiety of lipid II is primarily coordinated by the N-terminal backbone amides of nisin via intermolecular hydrogen bonds. This cage structure provides a rationale for the conservation of the lanthionine rings among several lipid II-binding lantibiotics. The structure of the pyrophosphate cage offers a template for structure-based design of novel antibiotics.
Keywords
antibiotic agent, lantibiotic, lipid, nisin, pyrophosphate, amino terminal sequence, antibiotic resistance, antibiotic therapy, article, bacterial metabolism, cell wall, channel gating, hydrogen bond, membrane permeability, nonhuman, priority journal, protein lipid interaction, protein motif, protein structure, structure analysis, Taverne
Citation
Hsu, S-T D, Breukink, E, Tischenko, E, Lutters, M A G, De Kruijff, B, Kaptein, R, Bonvin, A M J J & Van Nuland, N A J 2004, 'The nisin-lipid II complex reveals a pyrophosphate cage that provides a blueprint for novel antibiotics', Nature Structural and Molecular Biology, vol. 11, no. 10, pp. 963-967. https://doi.org/10.1038/nsmb830