Abstract

Harmful effects of heavy metals are myriad. Lead (Pb) from soil and atmosphere contaminates water bodies and affects the aquatic animals. Our previous study confirmed the <i>in vitro</i> probiotic potential of <i>Lactobacillus reuteri</i> against Pb toxicity, but further investigation is necessary for gaining insights into the related protection mode. Therefore, in this study, we investigated the protective effects of the potential probiotic <i>L. reuteri</i> P16 against waterborne Pb exposure-induced toxicity in the freshwater fish <i>Cyprinus carpio</i>. Fish (average weight: 23.16 ± 0.73 g) were allocated to four groups (control, Pb only, Pb + <i>L. reuteri</i> P16, and <i>L. reuteri</i> P16 only) and Pb groups were exposed to waterborne Pb (1 mg L^-1) for 6 weeks. <i>L. reuteri</i> P16 (10⁸ CFU g^-1) supplemented diet was provided twice daily. Growth performances, hemato-biochemical parameters, innate immune responses, intestinal microbiota, and Pb accumulation in tissues were measured at the end of the trial. When the fish were exposed to Pb, dietary supplementation of <i>L. reuteri</i> P16 effectively decreased mortality and accumulation of Pb in tissues, and improved the growth performance. Co-treatment with Pb and <i>L. reuteri</i> P16 alleviated Pb exposure-induced oxidative stress, reversed alterations in hemato-biochemical parameters, improved innate immune parameters, and restored intestinal enzymatic activities. Moreover, <i>L. reuteri</i> P16 supplementation reversed the changes in intestinal microbiota in Pb-exposed fish. Furthermore, Pb exposure decreased the expressions of pro-inflammatory cytokines (TNF-α, IL-1β). However, the expression of heat shock proteins (HSP70 and HSP90) increased, which might have increased the cellular stress. Interestingly, the Pb-induced alterations of gene expressions were reversed by <i>L. reuteri</i> P16 supplementation. Thus, dietary administration of the potential probiotic <i>L. reuteri</i> P16 had several beneficial effects on growth performance and immune responses, decreased Pb accumulation in tissues, and reversed alterations in hematological responses of <i>C. carpio</i>. Furthermore, it offered direct protection against Pb-induced oxidative stress. Therefore, <i>L. reuteri</i> P16 may be a novel dietary supplement for enhancing growth performance and preventing Pb-exposure-induced toxicity in fish in aquaculture and aquatic products.