Degradation and reconstruction of moenomycin A and derivatives: Dissecting the function of the isoprenoid chain

Masaatsu Adachi; Yi Zhang; Catherine Leimkuhler; Binyuan Sun; John V. LaTour; Daniel E. Kahne

doi:10.1021/ja065905c

Degradation and reconstruction of moenomycin A and derivatives: Dissecting the function of the isoprenoid chain

Masaatsu Adachi, Yi Zhang, Catherine Leimkuhler, Binyuan Sun, John V. LaTour, Daniel E. Kahne

PHA - Molecular Pharmaceutical Science

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

Moenomycin A is the only known natural product that inhibits peptidoglycan biosynthesis by binding the bacterial transglycosylases. We describe a degradation/reconstruction route to manipulate the reducing end of moenomycin A. A comparison of the biological and enzyme inhibitory activity of moenomycin A and an analogue containing a nerol lipid in place of the natural C₂₅ lipid chain provides insight into the role of the moenocinol unit. Our results show that a lipid chain having ten carbons in moenocinol is sufficient for enzyme inhibition, but a longer chain is required for biological acitivity, apparently because the molecule must partition into biological membranes to reach its target in bacterial cells.

Original language	English
Pages (from-to)	14012-14013
Number of pages	2
Journal	Journal of the American Chemical Society
Volume	128
Issue number	43
DOIs	https://doi.org/10.1021/ja065905c
Publication status	Published - 2006 Nov 1

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abstract = "Moenomycin A is the only known natural product that inhibits peptidoglycan biosynthesis by binding the bacterial transglycosylases. We describe a degradation/reconstruction route to manipulate the reducing end of moenomycin A. A comparison of the biological and enzyme inhibitory activity of moenomycin A and an analogue containing a nerol lipid in place of the natural C25 lipid chain provides insight into the role of the moenocinol unit. Our results show that a lipid chain having ten carbons in moenocinol is sufficient for enzyme inhibition, but a longer chain is required for biological acitivity, apparently because the molecule must partition into biological membranes to reach its target in bacterial cells.",

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AU - Adachi, Masaatsu

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AU - Leimkuhler, Catherine

AU - Sun, Binyuan

AU - LaTour, John V.

AU - Kahne, Daniel E.

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AB - Moenomycin A is the only known natural product that inhibits peptidoglycan biosynthesis by binding the bacterial transglycosylases. We describe a degradation/reconstruction route to manipulate the reducing end of moenomycin A. A comparison of the biological and enzyme inhibitory activity of moenomycin A and an analogue containing a nerol lipid in place of the natural C25 lipid chain provides insight into the role of the moenocinol unit. Our results show that a lipid chain having ten carbons in moenocinol is sufficient for enzyme inhibition, but a longer chain is required for biological acitivity, apparently because the molecule must partition into biological membranes to reach its target in bacterial cells.

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Degradation and reconstruction of moenomycin A and derivatives: Dissecting the function of the isoprenoid chain

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