Conformations in solution and bound to bacterial ribosomes of ketolides, HMR 3647 (telithromycin) and RU 72366: A new class of highly potent antibacterials Original Research Article

The new class of antibiotics called ketolides is endowed with remarkable antibacterial activity against macrolide-resistant strains. Further modifications of the 3 keto-macrolactone backbone led to 11,12-hydrazonocarbamate ketolides with an imidazolyl–pyridine chain: the file-leader of ketolide class, HMR 3647 (telithromycin), and its N-bis-demethyl-derivative, RU 72366. The potency of HMR 3647 is higher than that of RU 72366. Stereospecific 1H and 13C resonance assignments of HMR 3647 and RU 72366 have been determined and have allowed a detailed quantitative conformational analysis of the uncomplexed form of the molecules. The comparative conformation of HMR 3647 in solution and its N-bis-demethyl-derivative in D2O has been carried out using different heteronuclear correlation experiments in conjunction with nuclear Overhauser effect experiments and in particular long-range 3JCH coupling constants and using molecular dynamics (MD) methods. The study of ketolide–ribosome interaction has been investigated using two-dimensional transferred nuclear Overhauser effect spectroscopy (TRNOESY). The database of ribosome-bound ketolide structures has been used to compare the structure(s) of ketolide in ribosome–ketolide complexes with the conformational preferences of free ketolides and to highlight the significant differences between HMR 3647 and RU 72366. A comparison of the conformations bound to ribosome was made with those of other previously studied ketolide (RU 004) and macrolides and would explain the remarkable potencies of HMR 3647 in inhibiting protein synthesis.