Transcriptomic analysis of sub-MIC Eugenol exposition on antibiotic resistance profile in Multidrug Resistant Enterococcus faecalis E9.8

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Gómez, Natacha Caballero and Manetsberger, Julia and Castillo-Gutiérrez, Sonia and Knapp, Charles W. and Benomar, Nabil and Abriouel, Hikmate (2025) Transcriptomic analysis of sub-MIC Eugenol exposition on antibiotic resistance profile in Multidrug Resistant Enterococcus faecalis E9.8. Microbiological Research. 128057. ISSN 0944-5013 (https://doi.org/10.1016/j.micres.2025.128057)

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Abstract

The spread of multidrug-resistant (MDR) bacteria and their resistance genes along the food chain and the environment has become a global threat aggravated by incorrect disinfection strategies. This study analysed the effect of induction by sub-inhibitory concentrations of eugenol – a major ingredient in clove essential oil commonly used in disinfectant agents – on the phenotypic and genotypic response of MDR Enterococcus faecalis E9.8 strain, selected based on the phenotypic response of other enterococci. Eugenol treatment irreversibly reduced several antibiotics’ minimum inhibitory concentration (MIC), confirmed by kinetic studies for kanamycin, erythromycin, and tetracycline. Furthermore, transcriptomic analysis indicated the reversion of antibiotic resistance through direct and indirect measures, such as down-regulation of genes coding for proteins involved in antibiotic resistance, toxin resistance and virulence factors. Regarding antibiotic resistance genes (ARGs), ten differentially expressed genes (five down-regulated and five up-regulated genes) were related to the main transporter families, which present key targets in antibiotic resistance reversion. Our study thus highlights the importance of considering indirectly related genes as targets for antibiotic resistance reversion besides ARGs sensu stricto. These results allow us to propose using eugenol as an antibiotic resistance reversing agent to be included in disinfectant solutions as an excellent alternative to limit the spread of MDR bacteria and their ARGs in the food chain and the environment.

ORCID iDs

Gómez, Natacha Caballero, Manetsberger, Julia, Castillo-Gutiérrez, Sonia, Knapp, Charles W. ORCID logoORCID: https://orcid.org/0000-0001-7997-8543, Benomar, Nabil and Abriouel, Hikmate;
CORE (COnnecting REpositories)