Drosophila imaginal disc cells can change their identity under stress conditions through transdetermination (TD). Research on TD can help elucidate the in vivo process of cell fate conversion. We previously showed that the overexpression of winged eye (wge) induces eye-to-wing TD in the eye disc and that an insulin-like peptide, Dilp8, is then highly expressed in the disc. Although Dilp8 is known to mediate systemic developmental delay via the Lgr3 receptor, its role in TD remains unknown. This study showed that Dilp8 is expressed in specific cells that do not express eye or wing fate markers during Wge-mediated TD and that the loss of Dilp8 impairs the process of eye-to-wing transition. Thus, Dilp8 plays a pivotal role in the cell fate conversion under wge overexpression. Furthermore, we found that instead of Lgr3, another candidate receptor, Drl, is involved in Wge-mediated TD and acts locally in the eye disc cells. We propose a model in which Dilp8-Drl signaling organizes cell fate conversion in the imaginal disc during TD.
Keywords: Derailed; Dilp8; Drosophila; cell fate; imaginal disc; regeneration; transdetermination; winged eye.
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