Desmethyl Macrolides: Synthesis and Evaluation of 4‑Desmethyl Telithromycin

Novel sources of antibiotics are needed to address the serious threat of bacterial resistance. Accordingly, we have launched a structure-based drug design program featuring a desmethylation strategy wherein methyl groups have been replaced with hydrogens. Herein we report the total synthesis, molecular modeling, and biological evaluation of 4-desmethyl telithromycin (6), a novel desmethyl analogue of the third-generation ketolide antibiotic telithromycin (2) and our final analogue in this series. While 4-desmethyl telithromycin (6) was found to be equipotent with telithromycin (2) against wild-type bacteria, it was 4-fold less potent against the A2058G mutant. These findings reveal that strategically replacing the C4-methyl group with hydrogen (i.e., desmethylation) did not address this mechanism of resistance. Throughout the desmethyl series, the sequential addition of methyls to the 14-membered macrolactone resulted in improved bioactivity. Molecular modeling methods indicate that changes in conformational flexibility dominate the increased biological activity; moreover, they reveal 6 adopts a different conformation once bound to the A2058G ribosome, thus impacting noncovalent interactions reflected in a lower MIC value. Finally, fluorescence polarization experiments of 6 with E. coli ribosomes confirmed 6 is indeed binding the ribosome.