In Vitro Evolution of Specific Phages Infecting the Fish Pathogen Flavobacterium psychrophilum.

Daniel Castillo, Alexander Ravndal Højsting, Andrea Roosvall, Giorgos Smyrlis, Johanna Jørgensen, Mathias Middelboe
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引用次数: 1

Abstract

Background: Flavobacterium psychrophilum is the causative agent of the bacterial cold-water disease and rainbow trout fry syndrome. Owing to the issues associated with increasing use of antibiotics to control the diseases, phage therapy has been proposed as an alternative method to control Flavobacterium infection within the industry.

Materials and methods: We explored two simple and fast in vitro strategies for the isolation of evolved F. psychrophilum phages, using three well-characterized phages FpV4, FpV9, and FPSV-S20.

Results: During in vitro serial transfer experiments, 12 evolved phages were selected 72-96 h after phage exposure in the first or second week. Phenotype analysis showed improvement of host range and efficiency of plating and adsorption constants. Comparative genomic analysis of the evolved phages identified 13 independent point mutations causing amino acid changes mostly in hypothetical proteins.

Conclusions: These results confirmed the reliability and effectivity of two strategies to isolate evolved F. psychrophilum phages, which may be used to expand phage-host range and target phage-resistant pathogens in phage therapy applications against Flavobacterium infections.

Abstract Image

Abstract Image

感染鱼类致病菌嗜冷黄杆菌特异性噬菌体的体外进化。
背景:嗜冷黄杆菌是细菌性冷水病和虹鳟鱼鱼苗综合征的病原体。由于越来越多地使用抗生素来控制这些疾病,噬菌体疗法已被提议作为控制黄杆菌感染的替代方法。材料和方法:我们探索了两种简单快速的体外分离进化的嗜冷F.噬菌体的策略,使用三种具有良好特征的噬菌体FpV4, FpV9和FPSV-S20。结果:在体外连续转移实验中,在第1周或第2周噬菌体暴露72-96 h后,选择12个进化的噬菌体。表型分析表明,宿主范围、电镀效率和吸附常数均有所提高。对进化的噬菌体进行比较基因组分析,鉴定出13个独立的点突变,这些突变主要在假设的蛋白质中引起氨基酸变化。结论:这些结果证实了两种分离进化的嗜冷F.噬菌体的策略的可靠性和有效性,可用于扩大噬菌体-宿主范围和靶向噬菌体耐药病原体在黄杆菌感染噬菌体治疗中的应用。
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