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Literature DB >> 35156855

The Error-Prone Polymerase DnaE2 Mediates the Evolution of Antibiotic Resistance in Persister Mycobacterial Cells.

S Salini¹, Sinchana G Bhat¹, Saba Naz², Ramanathan Natesh³, R Ajay Kumar¹, Vinay Kumar Nandicoori², Krishna Kurthkoti¹.

Abstract

Applying antibiotics to susceptible bacterial cultures generates a minor population of persisters that remain susceptible to antibiotics but can endure them for extended periods. Recent reports suggest that antibiotic persisters (APs) of mycobacteria experience oxidative stress and develop resistance upon treatment with lethal doses of ciprofloxacin or rifampicin. However, the mechanisms driving the de novo emergence of resistance remained unclear. Here, we show that mycobacterial APs activate the SOS response, resulting in the upregulation of the error-prone DNA polymerase DnaE2. The sustained expression of dnaE2 in APs led to mutagenesis across the genome and resulted in the rapid evolution of resistance to antibiotics. Inhibition of RecA by suramin, an anti-Trypanosoma drug, reduced the rate of conversion of persisters to resistors in a diverse group of bacteria. Our study highlights suramin's novel application as a broad-spectrum agent in combating the development of drug resistance.

Entities: Chemical

Keywords: SOS response; antibiotic resistance; drug repurposing; mycobacteria; persistence

Mesh：

Substances：

Year: 2022 PMID： 35156855 PMCID： PMC8923199 DOI： 10.1128/AAC.01773-21

Source DB: PubMed Journal: Antimicrob Agents Chemother ISSN： 0066-4804 Impact factor: 5.938

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