Litcius/Paper detail

Antibiotic that inhibits <i>trans</i> -translation blocks binding of EF-Tu to tmRNA but not to tRNA

Neeraja Marathe, Ha An Nguyen, John N. Alumasa, Alexandra B. Kuzmishin Nagy, Michael L. Vazquez, C.M. Dunham, Kenneth C. Keiler

2023mBio14 citationsDOIOpen Access PDF

Abstract

ABSTRACT trans- Translation is conserved throughout bacteria and is essential in many species. High-throughput screening identified a tetrazole-based trans -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-55 in vitro with a K d = 2 µM, confirming a high-affinity interaction. An X-ray crystal structure showed that KKL-55 binds in domain 3 of EF-Tu, and mutation of residues in the binding pocket abolished KKL-55 binding. RNA-binding assays in vitro showed that KKL-55 inhibits binding between EF-Tu and transfer-messenger RNA (tmRNA) but not between EF-Tu and tRNA. These data demonstrate a new mechanism for the inhibition of EF-Tu function and suggest that this specific inhibition of EF-Tu•tmRNA binding is a viable target for antibiotic development. IMPORTANCE Elongation factor thermo-unstable (EF-Tu) is a universally conserved translation factor that mediates productive interactions between tRNAs and the ribosome. In bacteria, EF-Tu also delivers transfer-messenger RNA (tmRNA)-SmpB to the ribosome during trans -translation. We report the first small molecule, KKL-55, that specifically inhibits EF-Tu activity in trans -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.

Topics & Concepts

Transfer RNATranslation (biology)RNA-binding proteinEF-TuRNABiologyComputational biologyGeneticsMessenger RNAGeneRNA and protein synthesis mechanismsRNA modifications and cancerRNA Research and Splicing