Paraprobiotic preparation from Bacillus amyloliquefaciens FPTB16 modulates immune response and immune relevant gene expression in Catla catla (Hamilton, 1822).

The present study evaluated the paraprobiotic effect of heat-inactivated Bacillus amyloliquefaciens FPTB16 on immunological response and immune relevant gene expression in catla (Catla catla). Heat inactivation of viable cells of B. amyloliquefaciens was done at 60 °C for 2 h. For preparation of paraprobiotic supplemented diet, the heat-inactivated bacteria were added to the basal diet (control) at three different inclusion levels i.e., 107, 108 and 109 cells g-1 diet. Fish (25.98 ± 2.57 g) were fed with these diets and various immune responses and immune relevant gene expressions were measured after 4 weeks of feeding. Biochemical parameters were also measured along with the immunological responses. Immunological parameters viz. oxygen radical production, serum lysozyme activity and total serum protein content showed significant enhancement (p < 0.05) in fish fed with 108 and 109 cells g-1 diet. Significant enhancement in myeloperoxidase activity was observed in all the dietary groups compared to control. Alkaline phosphatase activity showed significant enhancement (p < 0.05) in fish fed with 107 and 108 cells g-1 diet. Biochemical parameters viz. GPT, GOT and glucose content did not show any significant difference in any of the dietary groups. Immune relevant genes viz. IL-1ß, TNF-α, C3 and iNOS showed significantly higher expression in either liver or head-kidney tissues in most of the cases. However, IFN-γ expression showed a down-regulation pattern in both the tissues. In conclusion, the dietary supplementation of heat-inactivated B. amyloliquefaciens enhanced the immunity of catla, particularly at 108 cells g-1 diet. The results collectively suggest the paraprobiotic applicability of B. amyloliquefaciens in aquaculture.

Biofloc technology application in indoor culture of Labeo rohita (Hamilton, 1822) fingerlings: The effects on inorganic nitrogen control, growth and immunity.

The present study was undertaken to investigate the effect of biofloc-based aquaculture system on inorganic nitrogen control, and growth and immunological responses of rohu (Labeo rohita). Fingerlings of rohu were cultured in indoor biofloc tanks in light-limited condition for 16 weeks with daily addition of molasses as carbon source to maintain the C/N ratio at 15. Different water quality parameters were measured at weekly interval. Growth, survival and welfare indices including stress and immunological status were measured after the end of the experimental period. Factor analysis using water quality variables indicated ammonia immobilization by heterotrophic bacteria, rather than nitrification, as the dominant mechanism influencing ammonia removal in the biofloc system. Ammonia immobilization was concomitant with microbial biomass production, as also revealed through factor analysis. The biofloc culture system enhanced the growth of rohu significantly than the control fish. As a measure of stress, the serum glucose content did not differ significantly between the fish cultured in biofloc and control system. Among the immunological parameters, respiratory burst and alkaline phosphatase activity showed significant enhancement in fish grown in biofloc system than the control. However, myeloperoxidase activity and total serum protein content did not show any statistically significant difference between biofloc and control system. The enhanced growth and welfare of the cultured fish may be attributed to in situ maintenance of water quality within the biofloc system and presence of microbial floc.