PLoS ONE (Jan 2012)

Identification of elongation factor G as the conserved cellular target of argyrin B.

  • Beat Nyfeler,
  • Dominic Hoepfner,
  • Deborah Palestrant,
  • Christina A Kirby,
  • Lewis Whitehead,
  • Robert Yu,
  • Gejing Deng,
  • Ruth E Caughlan,
  • Angela L Woods,
  • Adriana K Jones,
  • S Whitney Barnes,
  • John R Walker,
  • Swann Gaulis,
  • Ervan Hauy,
  • Saskia M Brachmann,
  • Philipp Krastel,
  • Christian Studer,
  • Ralph Riedl,
  • David Estoppey,
  • Thomas Aust,
  • N Rao Movva,
  • Zuncai Wang,
  • Michael Salcius,
  • Gregory A Michaud,
  • Gregory McAllister,
  • Leon O Murphy,
  • John A Tallarico,
  • Christopher J Wilson,
  • Charles R Dean

DOI
https://doi.org/10.1371/journal.pone.0042657
Journal volume & issue
Vol. 7, no. 9
p. e42657

Abstract

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Argyrins, produced by myxobacteria and actinomycetes, are cyclic octapeptides with antibacterial and antitumor activity. Here, we identify elongation factor G (EF-G) as the cellular target of argyrin B in bacteria, via resistant mutant selection and whole genome sequencing, biophysical binding studies and crystallography. Argyrin B binds a novel allosteric pocket in EF-G, distinct from the known EF-G inhibitor antibiotic fusidic acid, revealing a new mode of protein synthesis inhibition. In eukaryotic cells, argyrin B was found to target mitochondrial elongation factor G1 (EF-G1), the closest homologue of bacterial EF-G. By blocking mitochondrial translation, argyrin B depletes electron transport components and inhibits the growth of yeast and tumor cells. Further supporting direct inhibition of EF-G1, expression of an argyrin B-binding deficient EF-G1 L693Q variant partially rescued argyrin B-sensitivity in tumor cells. In summary, we show that argyrin B is an antibacterial and cytotoxic agent that inhibits the evolutionarily conserved target EF-G, blocking protein synthesis in bacteria and mitochondrial translation in yeast and mammalian cells.