噬菌体作为生物防治形成生物膜的肠炎沙门氏菌的一种替代方法。

IF 1.8 4区 农林科学 Q3 CHEMISTRY, APPLIED Food Science and Technology International Pub Date : 2024-04-01 Epub Date: 2022-12-18 DOI:10.1177/10820132221144341
Emanuele Serro Pottker, Laura Beatriz Rodrigues, Karen Apellanis Borges, Suyene Oltramari de Souza, Thales Quedi Furian, Carlos Tadeu Pippi Salle, Hamilton Luiz de Souza Moraes, Vladimir Pinheiro do Nascimento
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引用次数: 0

摘要

沙门氏菌病是全球最常见的食源性疾病之一。表面粘附和生物膜形成是沙门氏菌在恶劣条件下生存的主要策略之一,也是沙门氏菌通过食物链传播的风险因素。由于抗菌药耐药性的增加,人们越来越需要开发其他方法来控制食源性病原体,而噬菌体被认为是一种潜在的替代方法。本研究的目的是评估噬菌体作为肠炎沙门氏菌血清型的一种生物防治手段对细菌生物膜的抑制和清除作用。本研究共选择了 12 种肠炎沙门氏菌分离物,它们都是生物膜生产者。研究人员对七种噬菌体进行了单独和混合测试,以确定它们的宿主范围和镀层效率(EOP)。鸡尾酒噬菌体对沙门氏菌生物膜的抗生物膜效果进行了评估。噬菌体 UPF_BP1、UPF_BP2、UPF_BP3、UPF_BP6 和 10:2 具有广泛的杀菌谱,可感染所有肠炎沙门氏菌菌株。噬菌体 10:2、UPF_BP6 和 UPF_BP3 在 12 株肠炎球菌中分别有 10 株、9 株和 9 株具有较高的 EOP。鸡尾酒噬菌体能够感染所有的肠道病毒菌株,对 12 株肠道病毒分离株中的 10 株具有较高的 EOP,比任何单一噬菌体的宿主范围都更广。不同菌株的抑制率差异很大,从 14.72% 到 88.53%。耐多药菌株和强生物膜产生菌株对鸡尾酒噬菌体的生物膜抑制水平很高。我们的研究结果表明,鸡尾酒噬菌体能够阻止沙门氏菌生物膜的形成并清除已形成的生物膜。这些结果表明,鸡尾酒噬菌体很有希望成为通过表面调节控制沙门氏菌生物膜的替代品。
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Bacteriophages as an alternative for biological control of biofilm-forming Salmonella enterica.

Salmonellosis is one of the most common foodborne diseases worldwide. Surface adherence and biofilm formation are among the main strategies evolved by Salmonella to survive under harsh conditions and are risk factors for its spread through the food chain. Owing to the increase in antimicrobial resistance, there is a growing need to develop other methods to control foodborne pathogens, and bacteriophages have been suggested as a potential alternative for this purpose. The aim of this study was to evaluate bacteriophages as a biological control of Salmonella enterica serotypes to inhibit and remove bacterial biofilms. A total of 12 S. enterica isolates were selected for this study, all of which were biofilm producers. Seven bacteriophages were tested, individually and in a cocktail, for their host range and efficiency of plating (EOP). The phage cocktail was evaluated for its antibiofilm effect against the Salmonella biofilms. Phages UPF_BP1, UPF_BP2, UPF_BP3, UPF_BP6, and 10:2 possessed a broad lytic spectrum and could infect all S. enterica strains. Phages 10:2, UPF_BP6, and UPF_BP3 had high EOP in 10, 9, and 9 out of the 12 S. enterica strains, respectively. The cocktail was able to infect all S. enterica strains and had a high EOP in 10 out of 12 S. enterica isolates, presenting a broader host range than any of the tested single phages. A wide variation of inhibition among strains was observed, ranging from 14.72% to 88.53%. Multidrug-resistant and strong biofilm producer strains showed high biofilm inhibition levels by phage cocktail. Our findings demonstrate the ability of the cocktail to prevent biofilm formation and remove formed biofilms of Salmonella. These results indicate that the phage cocktail is a promising candidate to be used as an alternative for the control of Salmonella biofilms through surface conditioning.

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来源期刊
Food Science and Technology International
Food Science and Technology International 工程技术-食品科技
CiteScore
5.80
自引率
4.30%
发文量
63
审稿时长
18-36 weeks
期刊介绍: Food Science and Technology International (FSTI) shares knowledge from leading researchers of food science and technology. Covers food processing and engineering, food safety and preservation, food biotechnology, and physical, chemical and sensory properties of foods. This journal is a member of the Committee on Publication Ethics (COPE).
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