Abstract
ABSTRACTTrans-Translation is conserved throughout bacteria and is essential in many species. High-throughput screening identified a tetrazole-basedtrans-translation inhibitor, KKL-55, that has broad-spectrum antibiotic activity. A biotinylated version of KKL-55 pulled down Elongation Factor Thermo-unstable (EF-Tu) from bacterial lysates. Purified EF-Tu bound KKL-55in vitrowith aKd= 2 µM, confirming a high-affinity interaction. An X-ray crystal structure showed KKL-55 binds in domain 3 of EF-Tu, and mutation of residues in the binding pocket abolished KKL-55 binding. RNA binding assaysin vitroshowed that KKL-55 inhibits binding between EF-Tu and tmRNA, but not between EF-Tu and tRNA. These data demonstrate a new mechanism for inhibition of EF-Tu function and suggest that this specific inhibition of EF-Tu•tmRNA binding is a viable target for antibiotic development.IMPORTANCEEF-Tu is a universally conserved translation factor that mediates productive interactions between tRNAs and the ribosome. In bacteria, EF-Tu also delivers tmRNA-SmpB to the ribosome duringtrans-translation. We report the first small molecule, KKL-55, that specifically inhibits EF-Tu activity intrans-translation without affecting its activity in normal translation. KKL-55 has broad-spectrum antibiotic activity, suggesting that compounds targeted to the tmRNA-binding interface of EF-Tu could be developed into new antibiotics to treat drug-resistant infections.
Publisher
Cold Spring Harbor Laboratory