Amphotericin B Assembles into Seven-Molecule Ion Channels in Membrane Domain

19 November 2021, Version 2

Abstract

Amphotericin B, a long-used antifungal drug, forms fungicidal ion-permeable channels across cell membranes. Using solid-state nuclear magnetic resonance spectroscopy and molecular dynamics simulations, we experimentally elucidated the three-dimensional structure of the molecular assemblies formed by this drug in membranes in the presence of the fungal sterol, ergosterol. A stable assembly of seven drug molecules was observed to form an ion conductive channel. The structure somewhat resembled the upper half of the barrel-stave model proposed in the 1970s but different substantially in the number of molecules and their arrangement. Based on the structure obtained, the aggregation of the channel assemblies in membranes was investigated and a mechanism was proposed in which complexation with ergosterol stabilizes the drug’s assemblies, leading to their aggregation, and in turn enhancing channel activity. The high-resolution structure is consistent with many previous findings, including structure-activity relationships of the drug, and the channel aggregation provides a more reasonable explanation for the selective toxicity of this drug to fungi.

Keywords

amphotericin B
solid state NMR
molecular dynamics simulation

Supplementary materials

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Description
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Supporting Information
Description
Additional materials and methods including synthesis of isotope-labeled analogues of amphotericin B. Supporting information for the manuscript with text and references. Detailed results of molecular dynamics simulations.
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