裂解性噬菌体PZL-Ah152作为针对致死性的生物防治措施且不破坏肠道微生物群。

Lytic Bacteriophage PZL-Ah152 as Biocontrol Measures Against Lethal Without Distorting Gut Microbiota.

作者信息

Feng Chao, Jia Kaixiang, Chi Teng, Chen Shuaimin, Yu Huabo, Zhang Liang, Haidar Abbas Raza Sayed, Alshammari Ahmed Mohajja, Liang Shuang, Zhu Zishan, Li Tingxuan, Qi Yanling, Shan Xiaofeng, Qian Aidong, Zhang Dongxing, Zhang Lei, Sun Wuwen

机构信息

College of Animal Science and Technology, Jilin Agricultural University, Jilin, China.

Institute of Agricultural Resources and Environment, Jilin Academy of Agricultural Sciences, Changchun, China.

出版信息

Front Microbiol. 2022 Jul 12;13:898961. doi: 10.3389/fmicb.2022.898961. eCollection 2022.

DOI:10.3389/fmicb.2022.898961

PMID:35903472

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9315158/

Abstract

Phage therapy is an alternative approach to overcome the problem of multidrug resistance in bacteria. In this study, a bacteriophage named PZL-Ah152, which infects , was isolated from sewage, and its biological characteristics and genome were studied. The genome contained 54 putative coding sequences and lacked known putative virulence factors, so it could be applied to phage therapy. Therefore, we performed a study to (i) investigate the efficacy of PZL-Ah152 in reducing the abundance of pathogenic strain 152 in experimentally infected crucian carps, (ii) evaluate the safety of 12 consecutive days of intraperitoneal phage injection in crucian carps, and (iii) determine how bacteriophages impact the normal gut microbiota. The and results indicated that the phage could effectively eliminate . Administering PZL-Ah152 (2 × 10 PFU) could effectively protect the fish (2 × 10 CFU/carp). Furthermore, a 12-day consecutive injection of PZL-Ah152 did not cause significant adverse effects in the main organs of the treated animals. We also found that members of the genus could enter and colonize the gut. The phage PZL-Ah152 reduced the number of colonies of the genus However, no significant changes were observed in α-diversity and β-diversity parameters, which suggested that the consumed phage had little effect on the gut microbiota. All the results illustrated that PZL-Ah152 could be a new therapeutic method for infections caused by

摘要

噬菌体疗法是一种克服细菌多重耐药问题的替代方法。在本研究中，从污水中分离出一种名为PZL-Ah152的噬菌体，它能感染[未提及具体感染对象]，并对其生物学特性和基因组进行了研究。该基因组包含54个推定的编码序列，且缺乏已知的推定毒力因子，因此可应用于噬菌体疗法。因此，我们开展了一项研究，以（i）调查PZL-Ah152在降低实验感染的鲫鱼中致病[未提及具体菌株名称]152丰度方面的效果，（ii）评估连续12天腹腔注射噬菌体对鲫鱼的安全性，以及（iii）确定噬菌体如何影响正常肠道微生物群。[未提及具体实验]结果表明该噬菌体可有效消除[未提及具体消除对象]。施用PZL-Ah152（2×10[未提及具体单位]噬菌斑形成单位）可有效保护鱼类（每尾鱼2×10[未提及具体单位]菌落形成单位）。此外，连续12天注射PZL-Ah152对受试动物的主要器官未造成明显不良反应。我们还发现[未提及具体属名]属的成员可进入并定殖于肠道。噬菌体PZL-Ah152减少了[未提及具体属名]属的菌落数量。然而，在α多样性和β多样性参数方面未观察到显著变化，这表明所消耗的噬菌体对肠道微生物群影响很小。所有结果表明，PZL-Ah152可能是一种治疗由[未提及具体病原体]引起的感染的新方法

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/475e/9315158/c4d4ba62b7ec/fmicb-13-898961-g001.jpg

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裂解性噬菌体PZL-Ah152作为针对致死性的生物防治措施且不破坏肠道微生物群。

Lytic Bacteriophage PZL-Ah152 as Biocontrol Measures Against Lethal Without Distorting Gut Microbiota.

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