AI Article Synopsis
- The study investigates how Listeria monocytogenes adapts to oxidative stress from sanitizers and cleaners, potentially increasing its survival under harsh conditions.
- Both strains of L. monocytogenes showed improved survival rates after pre-exposure to lower levels of hydrogen peroxide or alkali stress, with increases in survival ranging from 2 to 4.5 logs compared to control groups.
- The research finds that the adaptations triggered by sublethal stress are reversible after a short period, suggesting a potential risk for food safety if these bacteria encounter higher stress levels later.
Article Abstract
Food processing and food handling environments may contain residual levels of sanitizers or cleaners which may trigger oxidative stress adaptation in Listeria monocytogenes. The aim of this study was to determine the induction and stability of oxidative stress adaptation in L. monocytogenes EGD (Bug600) (serotype 1/2a) and F1057 (serotype 4b) at different concentrations and times of sublethal oxidative stress induced by HO or sublethal alkali stress induced by NaOH at 37°C. Both L. monocytogenes Bug600 and F1057 strains showed significantly higher survival in lethal oxidative stress (1000ppm HO) after pre-exposure to 50ppm HO for 30min compared to control cells (no pre-exposure to HO). When the cells were pre-exposed to sublethal alkali stress by NaOH, the oxidative stress adaptation was induced within 5min in L. monocytogenes. The survival of both L. monocytogenes strains was increased by 2 to 4.5 logs in lethal oxidative stress when the cells were pre-exposed to sublethal alkali stress at pH9 from 5 to 120min by NaOH compared to control cells (no pre-exposure to sublethal alkali pH). Two other alkali reagents tested (KOH and NHOH) also induced oxidative stress adaptation in L. monocytogenes. For both L. monocytogenes strains, the oxidative stress adaptation induced by sublethal HO was reversible in 30min and that induced by sublethal alkali stress was reversible within 60min at 37°C in the absence of such sublethal stress. These findings show that sublethal oxidative or alkali stress conditions can induce oxidative stress adaptation that may increase the risk of survival of L. monocytogenes cells in lethal oxidative stress.
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| http://dx.doi.org/10.1016/j.ijfoodmicro.2016.09.027 | DOI Listing |
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