Salmonella enteritidis acquires phage resistance through a point mutation in rfbD but loses some of its environmental adaptability.

IF 3.7 1区 农林科学 Q1 VETERINARY SCIENCES
Yukun Zeng, Ping Li, Shenglong Liu, Mangmang Shen, Yuqing Liu, Xin Zhou
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Abstract

Phage therapy holds promise as an alternative to antibiotics for combating multidrug-resistant bacteria. However, host bacteria can quickly produce progeny that are resistant to phage infection. In this study, we investigated the mechanisms of bacterial resistance to phage infection. We found that Rsm1, a mutant strain of Salmonella enteritidis (S. enteritidis) sm140, exhibited resistance to phage Psm140, which was originally capable of lysing its host at sm140. Whole genome sequencing analysis revealed a single nucleotide mutation at position 520 (C → T) in the rfbD gene of Rsm1, resulting in broken lipopolysaccharides (LPS), which is caused by the replacement of CAG coding glutamine with a stop codon TAG. The knockout of rfbD in the sm140ΔrfbD strain caused a subsequent loss of sensitivity toward phages. Furthermore, the reintroduction of rfbD in Rsm1 restored phage sensitivity. Moreover, polymerase chain reaction (PCR) amplification of rfbD in 25 resistant strains revealed a high percentage mutation rate of 64% within the rfbD locus. We assessed the fitness of four bacteria strains and found that the acquisition of phage resistance resulted in slower bacterial growth, faster sedimentation velocity, and increased environmental sensitivity (pH, temperature, and antibiotic sensitivity). In short, bacteria mutants lose some of their abilities while gaining resistance to phage infection, which may be a general survival strategy of bacteria against phages. This study is the first to report phage resistance caused by rfbD mutation, providing a new perspective for the research on phage therapy and drug-resistant mechanisms.

肠炎沙门氏菌通过 rfbD 的点突变获得了噬菌体抗性,但却丧失了部分环境适应能力。
噬菌体疗法有望成为抗生素的替代疗法,以对抗耐多药细菌。然而,宿主细菌会迅速产生对噬菌体感染具有抗药性的后代。在这项研究中,我们调查了细菌对噬菌体感染的抗性机理。我们发现,肠炎沙门氏菌(S. enteritidis)sm140 的突变菌株 Rsm1 对噬菌体 Psm140 表现出了抗性,而噬菌体 Psm140 原本能够在 sm140 处裂解宿主。全基因组测序分析发现,Rsm1的rfbD基因在520位发生了单核苷酸突变(C → T),导致脂多糖(LPS)断裂,其原因是编码谷氨酰胺的CAG被终止密码子TAG取代。在 sm140ΔrfbD 菌株中敲除 rfbD 基因会导致对噬菌体失去敏感性。此外,在 Rsm1 中重新引入 rfbD 可恢复对噬菌体的敏感性。此外,聚合酶链反应(PCR)扩增 25 株抗性菌株中的 rfbD,发现 rfbD 基因座内的突变率高达 64%。我们评估了四种菌株的适应性,发现获得噬菌体抗性会导致细菌生长速度减慢、沉降速度加快、环境敏感性(pH 值、温度和抗生素敏感性)增加。简而言之,细菌突变体在获得对噬菌体感染的抗性的同时,也丧失了自身的一些能力,这可能是细菌对抗噬菌体的一种普遍生存策略。这项研究首次报道了 rfbD 突变导致的噬菌体抗药性,为噬菌体疗法和抗药性机制的研究提供了一个新的视角。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Veterinary Research
Veterinary Research 农林科学-兽医学
CiteScore
7.00
自引率
4.50%
发文量
92
审稿时长
3 months
期刊介绍: Veterinary Research is an open access journal that publishes high quality and novel research and review articles focusing on all aspects of infectious diseases and host-pathogen interaction in animals.
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