Drosophila Gain-of-Function Mutant RTK Torso Triggers Ectopic Dpp and STAT Signaling

Drosophila Gain-of-Function Mutant RTK Torso Triggers Ectopic Dpp and STAT Signaling

Jinghong Li^a and Willis X. Li^a
^a Department of Biomedical Genetics, University of Rochester Medical Center, Rochester, New York 14642

Corresponding author: Willis X. Li, University of Rochester Medical Center, 601 Elmwood Ave., KMRB 2-9641, Rochester, NY 14642., willis_li{at}urmc.rochester.edu (E-mail)

Communicating editor: T. SCHÜPBACH

Overactivation of receptor tyrosine kinases (RTKs) has beenlinked to tumorigenesis. To understand how a hyperactivatedRTK functions differently from wild-type RTK, we conducted agenome-wide systematic survey for genes that are required forsignaling by a gain-of-function mutant Drosophila RTK Torso(Tor). We screened chromosomal deficiencies for suppressionof a gain-of-function mutation tor (tor^GOF), which led to theidentification of 26 genomic regions that, when in half dosage,suppressed the defects caused by tor^GOF. Testing of candidategenes in these regions revealed many genes known to be involvedin Tor signaling (such as those encoding the Ras-MAPK cassette,adaptor and structural molecules of RTK signaling, and downstreamtarget genes of Tor), confirming the specificity of this geneticscreen. Importantly, this screen also identified componentsof the TGFß (Dpp) and JAK/STAT pathways as being requiredfor Tor^GOF signaling. Specifically, we found that reducing thedosage of thickveins (tkv), Mothers against dpp (Mad), or STAT92E(aka marelle), respectively, suppressed tor^GOF phenotypes. Furthermore,we demonstrate that in tor^GOF embryos, dpp is ectopically expressedand thus may contribute to the patterning defects. These resultsdemonstrate an essential requirement of noncanonical signalingpathways for a persistently activated RTK to cause pathologicaldefects in an organism.

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