Coral mucus as a reservoir of bacteriophages targeting Vibrio pathogens

Esther Rubio-Portillo, Sophia Robertson, Josefa Antón
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Abstract

The increasing trend in sea surface temperature promotes the spread of Vibrio species, which are known to cause diseases in a wide range of marine organisms. Among these pathogens, Vibrio mediterranei has emerged as a significant threat, leading to bleaching in the coral species Oculina patagonica. Bacteriophages, or phages, are viruses that infect bacteria, thereby regulating microbial communities and playing a crucial role in the coral’s defense against pathogens. However, our understanding of phages that infect V. mediterranei is limited. In this study, we identified two phage species capable of infecting V. mediterranei, utilizing a combination of cultivation and metagenomic approaches. These phages are low-abundance specialists within the coral mucus layer that exhibit rapid proliferation in the presence of their hosts, suggesting a potential role in coral defense. Additionally, one of these phages possesses a conserved domain of a leucine-rich repeat protein, similar to those harbored in the coral genome, that plays a key role in pathogen recognition, hinting at potential coral-phage coevolution. Furthermore, our research suggests that lytic Vibrio infections could trigger prophage induction, which may disseminate genetic elements, including virulence factors, in the coral mucus layer. Overall, our findings underscore the importance of historical coral-phage interactions as a form of coral immunity against invasive Vibrio pathogens.
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珊瑚粘液是针对弧菌病原体的噬菌体的储存库
海面温度的上升趋势促进了弧菌的传播,众所周知,弧菌会导致多种海洋生物患病。在这些病原体中,地中海弧菌已成为一个重大威胁,导致珊瑚物种 Oculina patagonica 白化。噬菌体或噬菌体是一种能感染细菌的病毒,从而调节微生物群落,在珊瑚抵御病原体的过程中发挥着至关重要的作用。然而,我们对感染地中海珊瑚的噬菌体了解有限。在这项研究中,我们综合利用培养和元基因组学方法,鉴定出了两种能够感染麦哲伦珊瑚的噬菌体。这些噬菌体是珊瑚粘液层中的低丰度专家,在宿主存在的情况下表现出快速增殖,这表明它们在珊瑚防御中可能发挥作用。此外,其中一种噬菌体拥有一个富含亮氨酸重复蛋白的保守结构域,与珊瑚基因组中的富含亮氨酸重复蛋白相似,在病原体识别中起着关键作用,暗示着潜在的珊瑚-噬菌体共同进化。此外,我们的研究表明,溶解性弧菌感染可能会引发噬菌体诱导,从而在珊瑚粘液层中传播遗传因子,包括毒力因子。总之,我们的研究结果强调了历史上珊瑚与噬菌体之间相互作用的重要性,这种相互作用是珊瑚抵御入侵弧菌病原体的一种免疫形式。
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