Knockouts of Kekkon1 Define Sequence Elements Essential for Drosophila Epidermal Growth Factor Receptor Inhibition

doi:10.1534/genetics.166.1.201

Knockouts of Kekkon1 Define Sequence Elements Essential for Drosophila Epidermal Growth Factor Receptor Inhibition

Diego Alvarado^a, Amy H. Rice^a, and Joseph B. Duffy^a
^a Department of Biology, Indiana University, Bloomington, Indiana 47405

Corresponding author: Joseph B. Duffy, Jordan Hall A502, 1001 E. 3rd St., Indiana University, Bloomington, IN 47405., jduffy{at}bio.indiana.edu (E-mail)

Communicating editor: T. SCHÜPBACH

Throughout development, cells utilize feedback inhibition ofreceptor tyrosine kinase (RTK) signaling as an important meansto direct cellular fates. In Drosophila, epidermal growth factorreceptor (EGFR) activity is tightly regulated by a complex arrayof autoregulatory loops, involving an assortment of inhibitoryproteins. One inhibitor, the transmembrane protein Kekkon1 (Kek1)functions during oogenesis in a negative feedback loop to directlyattenuate EGFR activity. Kek1 contains both leucine-rich repeats(LRRs) and an immunoglobulin (Ig) domain, two of the most prevalentmotifs found within metazoan genomes. Here we demonstrate thatKek1 inhibits EGFR activity during eye development and use thisrole to identify kek1 loss-of-function mutations that implicatethe LRRs in directing receptor inhibition. Using a GMR-GAL4,UAS kek1-GFP misexpression phenotype we isolated missense mutationsin the kek1 transgene affecting its ability to inhibit EGFRsignaling. Genetic, molecular, and biochemical characterizationof these alleles indicated that they represent two functionallydistinct classes. Class I alleles directly diminish Kek1's affinityfor EGFR, while class II alleles disrupt Kek1's subcellularlocalization, thereby indirectly affecting its ability to associatewith and inhibit the receptor. All class I alleles map to thefirst and second LRRs of Kek1, suggesting a primary role forthese two repeats in specifying association with and inhibitionof EGFR. Last, our analysis implicates glycine 160 of the secondLRR in regulating EGFR binding.

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