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Ribosome-targeting antibiotics and resistance <i>via</i> ribosomal RNA methylation

Learnmore Jeremia, Benjamin E. Deprez, Debayan Dey, Graeme L. Conn, William M. Wuest

2023RSC Medicinal Chemistry38 citationsDOIOpen Access PDF

Abstract

The rise of multidrug-resistant bacterial infections is a cause of global concern. There is an urgent need to both revitalize antibacterial agents that are ineffective due to resistance while concurrently developing new antibiotics with novel targets and mechanisms of action. Pathogen associated resistance-conferring ribosomal RNA (rRNA) methyltransferases are a growing threat that, as a group, collectively render a total of seven clinically-relevant ribosome-targeting antibiotic classes ineffective. Increasing frequency of identification and their growing prevalence relative to other resistance mechanisms suggests that these resistance determinants are rapidly spreading among human pathogens and could contribute significantly to the increased likelihood of a post-antibiotic era. Herein, with a view toward stimulating future studies to counter the effects of these rRNA methyltransferases, we summarize their prevalence, the fitness cost(s) to bacteria of their acquisition and expression, and current efforts toward targeting clinically relevant enzymes of this class.

Topics & Concepts

Ribosomal RNAMethyltransferaseRibosomeBiologyAntibioticsRNAAntibiotic resistanceMethylationBacteria5.8S ribosomal RNAPathogenHuman pathogenMicrobiologyGeneticsGeneAntibiotic Resistance in BacteriaRNA modifications and cancerRNA and protein synthesis mechanisms
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