Mutanobactin D from the Human Microbiome: Chemistry, Biology, and Molecular Dynamics Studies
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2025-11-26
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Journal Article
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Abstract
Mutanobactin D is an interkingdom communicator derived from the human oral microbiome. The lipopeptide prevents yeast-to-hyphae morphogenesis in Candida albicans, notably without fungicidal or fungistatic activity. The mode of action and structure-activity relationship of mutanobactin D are unknown and prompt an interdisciplinary program of study. Stereoselective synthesis of designed mutanobactin D analogs reveals that the C26 configuration is crucial for bioactivity associated with inhibition of pathogenesis, or yeast-to-hyphae transition, in C. albicans. To shed light on this finding, we employ molecular dynamics (MD) simulations of mutanobactin D and selected analogs in increasingly complex environments: Monophasic (water or CHCl3), interfacial (water/CHCl3), and explicit lipid membrane (phosphatidylcholine) models. Monophasic MD simulations do not distinguish between bioactive and inactive compounds. In contrast, at a polar/apolar interphase, a dominant, stable conformation emerges for mutanobactin D and bioactive analogs. Explicit lipid membrane simulations reinforce these results and further reveal the formation of a continuous, structured water cushion, which is not found for inactive analogs. Our studies collectively reveal how the stereodefined attachment of the lipid in the C26-C28 motif governs activity against C. albicans and provide a framework for understanding the membrane behavior of mutanobactin D, which may be coupled to its role in the human oral microbiome. The approach described herein, consisting of synthesis and evaluation of designed analogs complemented by MD simulations, provides a blueprint for the study of bioactive natural products in various contexts, including the human microbiome.
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147 (47)
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43330 - 43341
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American Chemical Society
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