Turandot (Tot) family proteins, which are induced via the JAK/STAT pathway after infection, also suppress lymph gland tumors in Drosophila mxcmbn1 mutant larvae. We investigated the potential role of hemocytes in Tot induction in tumor-bearing mutants via immunostaining and RNAi experiments. Normal hemocytes transplanted into mutant larvae were recruited to the tumor and fat body (FB), suggesting that these cells transmit tumor-related information. The transplanted hemocytes ectopically expressed Unpaired3 (Upd3), which is necessary for the activation of JAK/STAT. Eiger, a Drosophila tumor necrosis factor (TNF) ortholog, was highly expressed in tumors. Depletion of the Eiger receptor in hemocytes reduced Tot levels and eventually enhanced tumor growth. The c-Jun N-terminal kinase (JNK) pathway, acting downstream of the receptor, was also activated in the hemocytes of mutants. Downregulation of the JNK pathway in hemocytes inhibited Tot induction, leading to enhanced tumor growth. These results suggest that upd3 expression in hemocytes depends on the Eiger-JNK pathway. We propose that after Eiger activates the JNK pathway in hemocytes present on the tumor, cells expressing Upd3 are recruited to the FB. Upd3 then activates JAK/STAT to induce the expression of antitumor proteins. This study highlights the intricate communication between tissues via blood cells during tumor suppression.
Keywords: Drosophila; JAK-STAT pathway; JNK pathway; TNF family; cytokines; hematopoietic cell tumor; innate immune system.