Total synthesis and mechanism of action of the antibiotic armeniaspirol A

Nanaji Arisetti, Hazel L.S. Fuchs, Janetta Coetzee, Manuel Orozco, Dominik Ruppelt, Armin Bauer, Dominik Heimann, Eric Kuhnert, Satya P. Bhamidimarri, Jayesh A. Bafna, Bettina Hinkelmann, Konstantin Eckel, Stephan A. Sieber, Peter P. Müller, Jennifer Herrmann, Rolf Müller, Mathias Winterhalter, Claudia Steinem, Mark Brönstrup

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

Emerging antimicrobial resistance urges the discovery of antibiotics with unexplored, resistance-breaking mechanisms. Armeniaspirols represent a novel class of antibiotics with a unique spiro[4.4]non-8-ene scaffold and potent activities against Gram-positive pathogens. We report a concise total synthesis of (±) armeniaspirol A in six steps with a yield of 20.3% that includes the formation of the spirocycle through a copper-catalyzed radical cross-coupling reaction. In mechanistic biological experiments, armeniaspirol A exerted potent membrane depolarization, accounting for the pH-dependent antibiotic activity. Armeniaspirol A also disrupted the membrane potential and decreased oxygen consumption in mitochondria. In planar lipid bilayers and in unilamellar vesicles, armeniaspirol A transported protons across membranes in a protein-independent manner, demonstrating that armeniaspirol A acted as a protonophore. We provide evidence that this mechanism might account for the antibiotic activity of multiple chloropyrrole-containing natural products isolated from various origins that share a 4-acylphenol moiety coupled to chloropyrrole as a joint pharmacophore. We additionally describe an efflux-mediated mechanism of resistance against armeniaspirols.

Original languageEnglish
Pages (from-to)16023-16034
Number of pages12
JournalChemical Science
Volume12
Issue number48
DOIs
StatePublished - 28 Dec 2021

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