Characterisation of the molecular mechanisms of multiple antibiotic tolerance in growth‐arrested <i>Cronobacter sakazakii</i> under ampicillin exposure

Chen, Chuxin; Ao, Jialu; Wang, Li; Zhang, Jingfeng; Mo, None Yunshao; Zhang, Shaodong; Zhao, Linna

doi:10.1111/ijfs.15714

Int J of Food Sci Tech

2022

DOI: 10.1111/ijfs.15714

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Characterisation of the molecular mechanisms of multiple antibiotic tolerance in growth‐arrested Cronobacter sakazakii under ampicillin exposure

Chuxin Chen

Jialu Ao

Li Wang

et al.

Abstract: Cronobacter sakazakii could enter a growth-arrested state when exposed to ampicillin. Growth-arrested bacteria can become more tolerant to a wide range of antibiotics, posing a serious threat to food safety and human health. The aim of this study was to investigate the tolerance of growth-arrested C. sakazakii to a variety of antibiotics and to explore the underlying mechanisms responsible for the variations in antibiotic tolerance levels. The results of the study, as tested by flat colony counting method as w… Show more

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2024

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VBNC Cronobacter sakazakii survives in macrophages by resisting oxidative stress and evading recognition by macrophages

Liu,

Zhang,

Zhao

et al. 2024

BMC Microbiol

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Survival in host macrophages is an effective strategy for pathogenic bacterial transmission and pathogenesis. Our previous study found that viable but non-culturable (VBNC) Cronobacter Sakazakii ( C. sakazakii ) can survive in macrophages, but its survival mechanism is not clear. In this study, we investigated the possible mechanisms of VBNC C. sakazakii survival in macrophages in terms of environmental tolerance within macrophages and evasion of macrophages recognition. The results revealed that VBNC C. sakazakii survived under oxidative conditions at a higher rate than the culturable C. sakazakii . Moreover, the stringent response gene ( relA and spoT) and the antioxidant-related genes ( sodA , katG , and trxA) were up-regulated, indicating that VBNC C. sakazakii may regulate antioxidation through stringent response. On the other hand, compared with culturable C. sakazakii , VBNC C. sakazakii caused reduced response (Toll-like receptor 4) in macrophages, which was attributed to the suppression of biosynthesis of the lipopolysaccharides (LPS). Furthermore, we found that ellagic acid can reduce the survival rate of bacteria in macrophages by improving the immune TLR4 recognition ability of macrophages. In conclusion, VBNC C. sakazakii may survive in macrophages by regulating oxidative tolerance through stringent response and altering LPS synthesis to evade TLR4 recognition by macrophages, which suggests the pathogenic risk of VBNC C. sakazakii . Supplementary Information The online version contains supplementary material available at 10.1186/s12866-024-03595-9.

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VBNC Cronobacter sakazakii survives in macrophages by resisting oxidative stress and evading recognition by macrophages

Liu,

Zhang,

Zhao

et al. 2024

BMC Microbiol

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Characterisation of the molecular mechanisms of multiple antibiotic tolerance in growth‐arrested Cronobacter sakazakii under ampicillin exposure

Cited by 1 publication

References 70 publications

VBNC Cronobacter sakazakii survives in macrophages by resisting oxidative stress and evading recognition by macrophages

VBNC Cronobacter sakazakii survives in macrophages by resisting oxidative stress and evading recognition by macrophages

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