Heavy metal is a serious environmental pollutant with all kinds of biotoxic effects. The immunomodulatory effects of Cd stress on Lymantria dispar larvae and its underlying mechanisms were investigated. The susceptibility of Cd-treated larvae to Beauveria bassiana (Bb) was significantly increased by 27.50%. The hemocyte count, melanization, encapsulation activities, and expression levels of related regulatory genes (e.g. PPO1 and DSCAM) in the Cd and Cd+Bb groups were markedly lower than those in CK and CK+Bb groups. Hemocyte compensation through the apoptosis inhibitor significantly increased the melanization, encapsulation, and the survival rate of larvae in the Cd+Bb group by 100.00%, 74.03%, and 18.33%, respectively. The expression of signal transduction and effector genes (e.g. Gloverin) was significantly elevated in Cd-treated larvae both before and after Bb infection. Silencing Gloverin resulted in a 9.17% increase in susceptibility of Cd-treated larvae to Bb. Cd exposure induced humoral immunostimulation in larvae through the CncC-Gloverin pathway, as evidenced by that silencing CncC resulted in a 71.07% decrease in Gloverin expression and a 19.73% increase in larval mortality in Cd+Bb group. Overall, the humoral immunostimulation induced by Cd stress in L. dispar larvae were insufficient to counteract the cellular immunotoxicity during Bb infection. Environmental implicationHeavy metal is a serious environmental pollutant with all kinds of biotoxic effects. In this study, the immunomodulatory effects of Cd stress on Lymantria dispar larvae and its underlying mechanisms were investigated. To our knowledge, this is the first study to investigate how heavy metal exposure modifies insect innate immunity. The findings of this study will facilitate a comprehensive evaluation of the immune modification effects of heavy metals and provide insights for optimizing biological control strategies for pests in heavy metal-polluted areas.
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