4.7 Article

Proteome analysis of Campylobacter jejuni poultry strain 2704 survival during 45 min exposure to peracetic acid

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DOI: 10.1016/j.ijfoodmicro.2022.110000

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Campylobacter; Poultry processing; Peracetic acid; Proteomics; Stress response; SWATH-MS

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Peracetic acid (PAA) can reduce the number of Campylobacter on poultry carcasses. However, previous experiments showed that Campylobacter survived better when pre-treated with a thermal stress equivalent to poultry processing prior to chilling with PAA. In this study, the proteomes of C. jejuni poultry strain 2704 were measured after exposure to PAA to understand how Campylobacter responds to the treatment.
Peracetic acid (PAA) applied to whole poultry carcasses can reduce the number of Campylobacter, a leading cause of human gastroenteritis. However, previous modelling experiments indicated that Campylobacter survived in greater numbers when pre-treated with a thermal stress equivalent to poultry processing scalding prior to chilling with PAA than when subject to chilling with PAA only. To better understand how Campylobacter responds to PAA, proteomes of C. jejuni poultry strain 2704 were measured after exposure to PAA (60 ppm, pH 4.0) for 45 min under laboratory ambient conditions (approximately 23 degrees C) to establish a foundational map of survival mechanism before combining with other stresses. Analysis of 580 quantified proteins did not indicate a triggered peroxide shock response, nor were common heat shock responses detected. Thioredoxin, iron homeostatic, peroxiredoxins and cytochrome c peroxidases became more abundant suggesting that PAA disturbed cytoplasmic redox homeostasis resulting in antioxidant activation and increased prioritisation of iron homeostasis. The PAA treatment led to responses that included an increased priority for oxidative phosphorylation and a simultaneous decrease in central metabolism associated protein abundances. Lon protease was induced suggesting it has a role in maintaining homeostasis during non-thermal stress. Proteins in flagella and chemotaxis became more abun-dant though whether PAA has a chemorepellent effect requires further investigation. Overall, the proteome data suggests there was a rapid cellular response to applied PAA stress in the first 15 min with the adaptation to the stress completing between 30 and 45 min. The findings will help guide PAA implementation in commercial poultry processing in terms of processing location and length of application.

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