Regulation of Kinase Activity in the Caenorhabditis elegans EGF Receptor, LET-23

Abstract

In the active HER receptor dimers, kinases play distinct roles; one is the catalytically active kinase and the other is its allosteric activator. This specialization enables signaling by the catalytically inactive HER3, which functions exclusively as an allosteric activator upon heterodimerization with other HER receptors. It is unclear whether the allosteric activation mechanism evolved before HER receptors functionally specialized. We determined the crystal structure of the kinase domain of the only EGF receptor in Caenorhabditis elegans, LET-23. Our structure of a non-human EGFR kinase reveals autoinhibitory features conserved in the human counterpart. Strikingly, mutations within the putative allosteric dimer interface abrogate activity of the isolated LET-23 kinase and of the full-length receptor despite these regions being only partially conserved with human EGFR. Our results indicate that ancestral EGFRs have built-in features that poise them for allosteric activation that could facilitate emergence of the catalytically dead, yet functional, orthologs. Liu et al. present the crystal structure of a non-human EGFR kinase, C. elegans LET-23. Their findings offer insights into the regulation of ancestral EGFRs, demonstrating that LET-23 is activated allosterically by oligomerization, similarly to human EGFR, but through a mechanism that is likely structurally distinct.