两种野生匙吻鲟(远洋鱼类)体外粘液中细菌群落与外寄生单胞菌对比负荷之间的联系。

IF 4.9 Q1 MICROBIOLOGY
Judith Revault, Yves Desdevises, Élodie Magnanou
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引用次数: 0

摘要

背景:虽然远洋鱼类占海洋脊椎动物的三分之二,但对其外部微生物群与其环境关系的研究仍然很少,尤其是在野生种群中。因此,它们的微生物群与体外寄生虫之间的相互作用在很大程度上还不为人知。微生物群可作为抵御病原体的保护屏障,和/或参与寄生虫对宿主的识别。因此,宿主与寄生虫的关系现在应被视为三方的相互作用,其中微生物群塑造了宿主的表型及其与寄生虫的关系。单线虫(扁形动物)是一种直接生活周期的体外寄生虫,通常寄生在远足类动物的皮肤和鳃上。皮肤和鳃粘液中的细菌群落在单膜虫侵袭之前或之后所起的作用尚不清楚。本研究利用匙吻鲟科(远摄鱼类)与其特异性单膜外寄生虫拉美洛狄斯科属(Lamellodiscus)之间的联系对此进行了研究。我们使用 16s rRNA 扩增子测序法对两种野生匙吻鲟的体外粘液微生物群进行了表征,从而探索特异性机制。我们研究了这些细菌群落与寄生虫量变化的关系:结果:我们的研究结果表明,Lamellodiscus寄生量的增加与环纹石斑鱼标本皮肤粘液中细菌多样性的增加有关。捕获环斑蝶个体的日期似乎会影响拉美拉氏菌的数量。在两个物种的鳃粘液中都发现了细菌类群丰度与 Lamellodiscus 负荷之间的相关性。黄杆菌科细菌的丰度与两个物种鳃粘液中 Lamellodiscus 的负载量密切相关,环斑鳉鳃粘液中可能致病的细菌属 Tenacibaculum 的丰度也与 Lamellodiscus 的负载量密切相关。在D. annularis鳃粘液中的Lamellodiscus负载量与Vibrionaceae丰度以及P. acarne标本鳃粘液中的Fusobacteria丰度之间观察到负相关,这表明这些细菌在减轻鱼类寄生虫感染方面具有潜在的应用价值:我们的研究结果突显了鱼类微生物群的动态性质,尤其是与两种野生麻雀鱼的单基因感染有关的微生物群。更广泛地说,这项研究强调了宿主、细菌群落和寄生虫之间的联系,包括共同感染的动态变化和宿主微生物群的潜在保护作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Link between bacterial communities and contrasted loads in ectoparasitic monogeneans from the external mucus of two wild sparid species (Teleostei).

Background: While teleost fishes represent two thirds of marine vertebrates, the role of their external microbiota in relationship with their environment remains poorly studied, especially in wild populations. Hence, the interaction of their microbiota with ectoparasites is largely unknown. Microbiota can act as a protective barrier against pathogens, and/or be involved in host recognition by parasites. Thus, host-parasite associations should now be considered as a tripartite interplay where the microbiota shapes the host phenotype and its relation to parasites. Monogeneans (Platyhelminthes) are direct life cycle ectoparasites commonly found on teleost skin and gills. The role of bacterial communities within skin and gill mucus which either pre-exist monogeneans infestation or follow it remain unclear. This is investigated in this study using the association between Sparidae (Teleostei) and their specific monogenean ectoparasites of the Lamellodiscus genus. We are exploring specificity mechanisms through the characterization of the external mucus microbiota of two wild sparid species using 16s rRNA amplicon sequencing. We investigated how these bacterial communities are related to constrated Lamellodiscus monogeneans parasitic load.

Results: Our results revealed that the increase in Lamellodiscus load is linked to an increase in bacterial diversity in the skin mucus of D. annularis specimens. The date of capture of D. annularis individuals appears to influence the Lamellodiscus load. Correlations between the abundance of bacterial taxa and Lamellodiscus load were found in gill mucus of both species. Abundance of Flavobacteriaceae family was strongly correlated with the Lamellodiscus load in gill mucus of both species, as well as the potentially pathogenic bacterial genus Tenacibaculum in D. annularis gill mucus. Negative correlations were observed between Lamellodiscus load and the abundance in Vibrionaceae in gill mucus of D. annularis, and the abundance in Fusobacteria in gill mucus of P. acarne specimens, suggesting potential applications of these bacteria in mitigating parasitic infections in fish.

Conclusions: Our findings highlight the dynamic nature of fish microbiota, in particular in relation with monogeneans infestations in two wild sparid species. More generally, this study emphasizes the links between hosts, bacterial communities and parasites, spanning from the dynamics of co-infection to the potential protective role of the host's microbiota.

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