The occurrence of black gill syndrome (BGS) is a serious threat to the healthy culture of Eriocheir sinensis. Studying the innate immune ability of E. sinensis with BGS can help develop new strategies for disease prevention and treatment. Antimicrobial peptides (AMPs) have crucial roles in crustacean humoral immunity. In this study, we found that the expression levels of two antilipopolysaccharide factor (EsALF7 and EsALF-L), one Toll receptor 3 (EsToll3), and one Pelle kinase (EsPelle) were upregulated in E. sinensis with BGS. Moreover, ALFs expressions in E. sinensis with BGS were positively regulated by EsToll3 and EsPelle. The content of hydrogen sulfide (H2S) in the gills of E. sinensis with BGS was increased. Further studies showed that the expressions of cystathionine β-synthase (EsCBS) and cystathionine γ-lyase (EsCSE) in the gills of E. sinensis with BGS were upregulated, which positively regulate the production of H2S. Whether there was a correlation between the upregulation of ALFs expression and changes in H2S content? Further studies showed that 1) the expressions of EsToll3, EsPelle, EsALF7, and EsALF-L in the gills of E. sinensis were upregulated under H2S exposure and 2) the knockdown of EsCBS and EsCSE in E. sinensis reduced the transcriptions of EsToll3, EsPelle, EsALF7, and EsALF-L. To sum up, these findings suggest that upregulation of H2S content induced by CBS/CSE promotes the expression of ALFs through the Toll pathway in E. sinensis suffering from BGS.
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