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Antibiotic resistance peptides: interaction of peptides conferring macrolide and ketolide resistance with Staphylococcus aureus ribosomes: conformation of bound peptides as determined by transferred NOE experiments
Authors:Verdier Laurent  Gharbi-Benarous Josyane  Bertho Gildas  Mauvais Pascale  Girault Jean-Pierre
Institution:Laboratoire de Chimie et Biochimie Pharmacologiques et Toxicologiques, Université René Descartes-Paris V, UMR 8601 CNRS, 45 rue des Saint-Pères, 75270 Paris Cedex, France.
Abstract:Two antibiotic resistance peptides, the E-peptide (MRLFV) and the K-peptide (MRFFV) conferring macrolide and ketolide resistance, respectively, were studied in the complex state with bacterial Staphylococcus aureus ribosomes. Interactions of antibiotic resistance peptides with ribosomes were investigated using two-dimensional transferred nuclear Overhauser effect spectroscopy (TRNOESY), suggesting that the peptide-ribosome interaction was associated with the low-affinity binding level. K-Peptide displayed a significantly better response in TRNOEs NMR experiments, in agreement with a better overall antibiotic activity of ketolides. This difference highlights a mimetic effect displayed by the E- and K-peptides. This study shows that conformation plays an essential role for the affinity binding site and, thus, for the resistance mechanism. Specific conformations were preferred in the bound state; their superimposition exhibited a similar cyclic peptidyl chain, while the side chain region varies. The F4 phenyl moiety in E-peptide has moved out of the turn region compared to its folding in the ketolide resistance peptide. In the K-peptide binding surface, the F4 aromatic chain is maintained by stacking with the guanidyl group of the R2 residue providing a particular hydrophobic and globular fragment, which may be important for the ketolide resistance peptide mode of action. Additionally, T(2) (CPMG) measurements were used to characterize equilibrium binding of antibiotic resistance peptides to bacterial ribosomes. The results bring to the fore E- and K-peptide competition with antibiotics for binding to the ribosomes. Their specific interaction and their competitive effects reveal a novel aspect of interaction of resistance peptides with ribosomes and suggest new insights about their mode of action. The resistance mechanism may imply two steps, a competitive effect of the resistance peptide for the macrolide (or ketolide) binding site followed by a "bottle brush" effect in which the drug and the peptide are driven out their binding site on the ribosome.
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