Abstract

Lepidoptera are a major source of pests in agriculture and forestry, investigating the immune mechanisms of their model species, Bombyx mori, can provide valuable insights into improving pest management. Although the phospholipase A2 (PLA2) and immune deficiency (IMD) pathway have been extensively investigated, their relationship remains unclear. Here, we found that bacterial infection of silkworm larvae significantly upregulated BmsPLA2-1-1 expression and knockdown of BmRelish in the IMD pathway suppressed this response. Likewise, reducing BmsPLA2-1-1 expression significantly downregulated IMD pathway-related genes, including BmRelish, BmImd, and BmPGRP. In contrast, overexpression of BmsPLA2-1-1 significantly upregulated BmRelish and BmImd expression, suggesting a functional crosstalk between BmsPLA2-1-1 and the IMD pathway in silkworms. Additionally, BmPLA2-1-1 interacted with BmHsp60, BmCNBP, BmCfp1, and BmPFD3. Reducing BmRelish resulted in decreased expression of BmHsp60A, BmCfp1, and BmPFD3, but not BmCNBP, in infected larvae. Overexpression BmHsp60A, BmCfp1, or BmPFD3 led to a significant upregulation of BmRelish and BmImd expression. These suggest that BmHsp60A, BmCfp1, and BmPFD3 are involved in functional crosstalk between BmsPLA2-1-1 and the IMD pathway in silkworms. These findings demonstrate the functional crosstalk and mechanism between BmsPLA2-1-1 and the IMD pathway, revealing a new mechanism in the insect immune network.

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