Bacterial networks in Atlantic salmon with Piscirickettsiosis

An unbalanced composition of gut microbiota in fish is hypothesized to play a role in promoting bacterial infections, but the synergistic or antagonistic interactions between bacterial groups in relation to fish health are not well understood. We report that pathogenic species in the Piscirickettsia...

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Bibliographic Details
Published in:Scientific Reports
Main Authors: Coca, Yoandy, Godoy, Marcos, Pontigo, Juan Pablo, Caro, Diego, Maracaja-Coutinho, Vinicius, Arias-Carrasco, Raúl, Rodríguez-Córdova, Leonardo, de Oca, Marco Montes, Sáez-Navarrete, César, Burbulis, Ian
Format: Text
Language:English
Published: Nature Publishing Group UK 2023
Subjects:
Article
Atlantic salmon
Online Access:http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10576039/
http://www.ncbi.nlm.nih.gov/pubmed/37833268
https://doi.org/10.1038/s41598-023-43345-x
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Summary:An unbalanced composition of gut microbiota in fish is hypothesized to play a role in promoting bacterial infections, but the synergistic or antagonistic interactions between bacterial groups in relation to fish health are not well understood. We report that pathogenic species in the Piscirickettsia, Aeromonas, Renibacterium and Tenacibaculum genera were all detected in the digesta and gut mucosa of healthy Atlantic salmon without clinical signs of disease. Although Piscirickettsia salmonis (and other pathogens) occurred in greater frequencies of fish with clinical Salmonid Rickettsial Septicemia (SRS), the relative abundance was about the same as that observed in healthy fish. Remarkably, the SRS-positive fish presented with a generalized mid-gut dysbiosis and positive growth associations between Piscirickettsiaceae and members of other taxonomic families containing known pathogens. The reconstruction of metabolic phenotypes based on the bacterial networks detected in the gut and mucosa indicated the synthesis of Gram-negative virulence factors such as colanic acid and O-antigen were over-represented in SRS positive fish. This evidence indicates that cooperative interactions between organisms of different taxonomic families within localized bacterial networks might promote an opportunity for P. salmonis to cause clinical SRS in the farm environment.

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