Literature DB >> 30981730

tRNA Methylation Is a Global Determinant of Bacterial Multi-drug Resistance.

Isao Masuda1, Ryuma Matsubara1, Thomas Christian1, Enrique R Rojas2, Srujana S Yadavalli3, Lisheng Zhang4, Mark Goulian5, Leonard J Foster6, Kerwyn Casey Huang7, Ya-Ming Hou8.   

Abstract

Gram-negative bacteria are intrinsically resistant to drugs because of their double-membrane envelope structure that acts as a permeability barrier and as an anchor for efflux pumps. Antibiotics are blocked and expelled from cells and cannot reach high-enough intracellular concentrations to exert a therapeutic effect. Efforts to target one membrane protein at a time have been ineffective. Here, we show that m1G37-tRNA methylation determines the synthesis of a multitude of membrane proteins via its control of translation at proline codons near the start of open reading frames. Decreases in m1G37 levels in Escherichia coli and Salmonella impair membrane structure and sensitize these bacteria to multiple classes of antibiotics, rendering them incapable of developing resistance or persistence. Codon engineering of membrane-associated genes reduces their translational dependence on m1G37 and confers resistance. These findings highlight the potential of tRNA methylation in codon-specific translation to control the development of multi-drug resistance in Gram-negative bacteria.
Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.

Entities:  

Keywords:  TrmD; drug efflux; m1G37-tRNA; membrane barrier; persistence; proline codons; resistance; tRNAPro

Mesh:

Substances:

Year:  2019        PMID: 30981730      PMCID: PMC6483872          DOI: 10.1016/j.cels.2019.03.008

Source DB:  PubMed          Journal:  Cell Syst        ISSN: 2405-4712            Impact factor:   10.304


  67 in total

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