Nup107 is a crucial regulator of torso-mediated metamorphic transition inDrosophila melanogaster

Nuclear pore complexes (NPCs), composed of nucleoporins (Nups), affect nucleocytoplasmic transport, thus influencing cell division and gene regulation. Nup107 subcomplex members have been studied in housekeeping functions, diseases, and developmental disorders.

We report a unique regulatory function for Nup107 in metamorphic transition duringDrosophiladevelopment. RNAi-mediatedNup107depleted larvae were arrested in the third-instar larval stage and completely ceased to pupariate. The pupariation defect is primarily due to inhibited nuclear translocation and transcriptional activation by EcR. We unequivocally demonstrate the involvement of Nup107 in the transcription of theHalloweengenes, modulating ecdysone biosynthesis and the EcR pathway activation. The regulation of EcR-mediated metamorphosis by the receptor tyrosine kinase,torso, is well documented. Accordingly, overexpression of thetorsoand MAP-kinase pathway activator,ras^V12, in theNup107depletion background rescues the phenotypes, implying that Nup107 is an epistatic regulator of Torso-mediated activation of EcR signaling during metamorphosis.