Insights into the Mode of Action of Benzyl Isothiocyanate on Campylobacter jejuni

Abstract

ABSTRACTCampylobacter jejuniis a widespread pathogen responsible for most of the food-borne gastrointestinal diseases in Europe. The use of natural antimicrobial molecules is a promising alternative to antibiotic treatments for pathogen control in the food industry. Isothiocyanates are natural antimicrobial compounds, which also display anticancer activity. Several studies described the chemoprotective effect of isothiocyanates on eukaryotic cells, but the antimicrobial mechanism is still poorly understood. We investigated the early cellular response ofC. jejunito benzyl isothiocyanate by both transcriptomic and physiological approaches. The transcriptomic response ofC. jejunito benzyl isothiocyanate showed upregulation of heat shock response genes and an impact on energy metabolism. Oxygen consumption was progressively impaired by benzyl isothiocyanate treatment, as revealed by high-resolution respirometry, while the ATP content increased soon after benzyl isothiocyanate exposition, which suggests a shift in the energy metabolism balance. Finally, benzyl isothiocyanate induced intracellular protein aggregation. These results indicate that benzyl isothiocyanate affectsC. jejuniby targeting proteins, resulting in the disruption of major metabolic processes and eventually leading to cell death.