Exploring the protective role of Bacillus velezensis BV1704–Y in zebrafish health and disease resistance against Aeromonas hydrophila infection.

Bacillus genus, particularly Bacillus velezensis , is increasingly considered as viable alternatives to antibiotics in aquaculture due to their safety and probiotic potential. However, the specific mechanisms through which probiotic B. velezensis confers protection against Aeromonas hydrophila infection in fish remain poorly understood. This study delved into the multifaceted impacts of B. velezensis BV1704–Y on diverse facets of zebrafish health, including gut barrier function, immune response, oxidative stress, gut environment, microbiome composition, and disease resistance. Our findings demonstrate that supplementation with B. velezensis BV1704–Y significantly alleviated symptoms and reduced mortality in zebrafish infected with A. hydrophila. Furthermore, a notable reduction in the expression of pivotal immune-related genes, such as IL-1β , IL6 , and TNF-α , was evident in the gut and head kidney of zebrafish upon infection. Moreover, B. velezensis BV1704–Y supplementation resulted in elevated activity levels of essential antioxidant enzymes, including SOD, CAT, and GSH, in gut tissue. Notably, B. velezensis BV1704–Y positively modulated the structure and function of the intestinal microbiome, potentially enhancing immune response and resilience in zebrafish. Specifically, supplementation with B. velezensis BV1704–Y promoted the relative abundance of beneficial bacteria, such as Cetobacterium , which showed a noteworthy negative correlation with the expression of pro-inflammatory genes and a positive correlation with gut barrier-related genes. Altogether, our study suggests that B. velezensis BV1704–Y holds promise as an effective probiotic for protecting zebrafish against A. hydrophila infection, offering potential benefits for the aquaculture industry. • B. velezensis BV1704–Y reduces mortality in A. hydrophila -infected zebrafish. • B. velezensis BV1704–Y supplementation enhanced immunity and antioxidant capacity. • B. velezensis BV1704–Y positively modulated the composition and function of the gut microbiome. • Cetobacterium regulated by B. velezensis BV1704–Y contribute to improved gut barrier function and reduced inflammation. [ABSTRACT FROM AUTHOR]