Stress-associated ß -glucan administration stimulates the TLR - MYD88 - NFKB1 signaling pathway in Nile tilapia (Oreochromis niloticus).

There is evidence that the administration of ß-glucan can effectively activate several defense mechanisms, such as the Tlr-Myd88-Nfkb1 pathway that induces the expression of immune cytokines. Thus, the objective of this work was to evaluate whether ß-glucan acts on the mechanisms of gene transcription via the Tlr-Myd88-Nfkb1 pathway in Nile tilapia under stress after challenge with Streptococcus agalactiae. Therefore, we evaluated the expression of immune system genes such as toll-like receptors 1 (tlr1), toll-like receptors 2 (tlr2), primary myeloid differentiation response gene (myd88) and nuclear factor kappa B1 (nfkb1). A total of 408 fish were distributed in 24 polyethylene boxes and randomly divided into eight groups with 3 replications each: C15: Tilapias received a control diet (free of ß-glucan) for 15 days and were sampled after the 15th day of the experiment; C15D: Tilapias received a control diet (free of ß-glucan) for 15 days, were challenged on the 14th day and were sampled at the 15th day of the experiment; ß15: Tilapias received experimental diet (1g kg-1 of ß-glucan) for 15 days and were sampled after 15 days; ß15D: Tilapias received an experimental diet (1g kg-1 of ß-glucan) for 15 days, were challenged on the 14th day and were sampled at the 15th day of the experiment; C30: Tilapias received a control diet (free of ß-glucan) for 30 days and were sampled on the 30th day of the experiment; C30D: Tilapias received a control diet (free of ß-glucan) for 30 days, were challenged on the 29th day and were sampled at the 30th day of the experiment; ß30: Tilapias received experimental diet (1g kg-1 of ß-glucan) for 30 days and were sampled after 30 days and ß30D: Tilapias received experimental diet (1g kg-1 of ß-glucan) for 30 days, were challenged on the 29th day and were sampled at 30 of the experiment. In the fish sampled at 15 and 30 days of the experiment, after being anesthetized and killed by brain section, cranial kidney and spleen were collected for gene expression analysis. The analyzes showed that the association of ß-glucan and stressful management modulated the immune system, using the Tlr-Myd88-Nfkb1 signaling pathway, indicating that this compound can be used to promote early defense and protect fish against diseases.

ß-glucan mimics tissue damage signaling and generates a trade-off between head kidney and spleen to activate acquired immunity in vaccinated tilapia (Oreochromis niloticus).

The association of vaccines with immunostimulants such as ß-glucan, promote the production of cytokines, competent immune cells and antibodies. However, differences between ß-glucan types and trials make it difficult to understand ß-glucan's mechanism of action. In this study, three trials were carried out with control and fish fed ß-glucan, the first trial occurred at 15 days; the second trial occurred at 30 days when we associated ß-glucan and vaccine; and the third trial occurred at 15 days post-challenge with Streptococcus agalactiae in tilapia (O. niloticus) in order to investigate immune-related gene expression in the head kidney and spleen using real-time qPCR. We found increases in HSP70, IL-6, IL-1ß, TNF-α, IL-10, Lys and C3 predominantly in the head kidney, except for IgM expression, which prevailed in the spleen, under vaccinated + ß-glucan action. This demonstrates the trade-off presented by the head kidney and spleen after immunostimulation in order to produce acquired immunity, as well as an increase in HSP70 expression in vaccinated + ß-glucan fish. The results suggest that ß-glucan stimulates the immune response through damage-associated molecular patterns (DAMPs) recognition. Therefore, these dynamics of the immune response promote a more robust defense against disease.