Reuterin Enhances the Efficacy of Peracetic Acid Against Multi-species Dairy Biofilm

IF 4.4 2区 生物学 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Nissa Niboucha, Éric Jubinville, Laurence Péloquin, Amandine Clop, Steve Labrie, Coralie Goetz, Ismaïl Fliss, Julie Jean
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Abstract

Biofilms may contain pathogenic and spoilage bacteria and can become a recurring problem in the dairy sector, with a negative impact on product quality and consumer health. Peracetic acid (PAA) is one of the disinfectants most frequently used to control biofilm formation and persistence. Though effective, it cannot be used at high concentrations due to its corrosive effect on certain materials and because of toxicity concerns. The aim of this study was to test the possibility of PAA remaining bactericidal at lower concentrations by using it in conjunction with reuterin (3-hydroxypropionaldehyde). We evaluated the efficacy of PAA in pure form or as BioDestroy®, a PAA-based commercial disinfectant, on three-species biofilms formed by dairy-derived bacteria, namely Pseudomonas azotoformans PFlA1, Serratia liquefaciens Sl-LJJ01, and Bacillus licheniformis Bl-LJJ01. Minimum inhibitory concentrations of the three agents were determined for each bacterial species and the fractional inhibitory concentrations were then calculated using the checkerboard assay. The minimal biofilm eradication concentration (MBEC) of each antibacterial combination was then calculated against mixed-species biofilm. PAA, BioDestroy®, and reuterin showed antibiofilm activity against all bacteria within the mixed biofilm at respectively 760 ppm, 450 ppm, and 95.6 mM. The MBEC was lowered significantly to 456 ppm, 337.5 ppm, and 71.7 mM, when exposed to reuterin for 16 h followed by contact with disinfectant. Combining reuterin with chemical disinfection shows promise in controlling biofilm on food contact surfaces, especially for harsh or extended treatments. Furthermore, systems with reuterin encapsulation and nanotechnologies could be developed for sustainable antimicrobial efficacy without manufacturing disruptions.

Abstract Image

芦丁能增强过氧乙酸对多菌种乳制品生物膜的功效
生物膜可能含有致病菌和腐败菌,会成为乳制品行业经常出现的问题,对产品质量和消费者健康造成负面影响。过氧乙酸(PAA)是最常用于控制生物膜形成和持久性的消毒剂之一。虽然效果显著,但由于其对某些材料的腐蚀作用和毒性问题,不能高浓度使用。本研究的目的是通过将 PAA 与芦丁(3-羟基丙醛)结合使用,测试 PAA 在较低浓度下保持杀菌能力的可能性。我们评估了纯 PAA 或 BioDestroy®(一种以 PAA 为基础的商用消毒剂)对由乳制品衍生细菌形成的三种生物膜的功效,这三种生物膜分别是偶氮假单胞菌 PFlA1、液化沙雷氏菌 Sl-LJJ01 和地衣芽孢杆菌 Bl-LJJ01。针对每种细菌确定了三种药剂的最小抑菌浓度,然后使用棋盘格试验计算了部分抑菌浓度。然后计算出每种抗菌剂组合对混合菌种生物膜的最小生物膜根除浓度(MBEC)。PAA、BioDestroy® 和 reuterin 分别以 760 ppm、450 ppm 和 95.6 mM 的浓度对混合生物膜中的所有细菌显示出抗菌活性。当暴露于芦丁 16 小时后再接触消毒剂时,MBEC 明显降低到百万分之 456、百万分之 337.5 和百万分之 71.7。将芦丁素与化学消毒相结合,有望控制食品接触表面的生物膜,特别是在苛刻或长时间处理的情况下。此外,还可以开发具有芦丁封装和纳米技术的系统,以实现可持续的抗菌效果,而不会影响生产。
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来源期刊
Probiotics and Antimicrobial Proteins
Probiotics and Antimicrobial Proteins BIOTECHNOLOGY & APPLIED MICROBIOLOGYMICROB-MICROBIOLOGY
CiteScore
11.30
自引率
6.10%
发文量
140
期刊介绍: Probiotics and Antimicrobial Proteins publishes reviews, original articles, letters and short notes and technical/methodological communications aimed at advancing fundamental knowledge and exploration of the applications of probiotics, natural antimicrobial proteins and their derivatives in biomedical, agricultural, veterinary, food, and cosmetic products. The Journal welcomes fundamental research articles and reports on applications of these microorganisms and substances, and encourages structural studies and studies that correlate the structure and functional properties of antimicrobial proteins.
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