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Rethinking dormancy: Antibiotic persisters are metabolically active, non-growing cells

K. M. Taufiqur Rahman, Ruqayyah Amaratunga, Xuan Yi Butzin, Abhyudai Singh, Tahmina Hossain, Nicholas C. Butzin

2024International Journal of Antimicrobial Agents19 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: Bacterial persisters are a subpopulation of multidrug-tolerant cells capable of surviving and resuming activity after exposure to bactericidal antibiotic concentrations, contributing to relapsing infections and the development of antibiotic resistance. In this study, we challenge the conventional view that persisters are metabolically dormant by providing compelling evidence that an isogenic population of Escherichia coli remains metabolically active in persistence. METHODS: Using transcriptomic analysis, we examined E. coli persisters at multiple time points following exposure to bactericidal concentrations of ampicillin (Amp). Some genes were consistently upregulated in Amp treated persisters compared to the untreated controls, a change that can only occur in metabolically active cells capable of increasing RNA levels. RESULTS: Some of the identified genes have been previously linked to persister cells, while others have not been associated with them before. If persister cells were metabolically dormant, gene expression changes over time would be minimal during Amp treatment. However, network analysis revealed major shifts in gene network activity at various time points of antibiotic exposure. CONCLUSIONS: These findings reveal that persisters are metabolically active, non-dividing cells, thereby challenging the traditional view that they are dormant.

Topics & Concepts

PhenotypeMultidrug tolerancePopulationBiologyMicrobiologyGeneticsBacteriaMedicineGeneBiofilmEnvironmental healthBacterial Genetics and BiotechnologyEscherichia coli research studiesMicrobial Metabolic Engineering and Bioproduction
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