A Transcription-uncoupled Negative Feedback Loop for the 1 WNT Pathway: WNT Activates the AAK1 Kinase to Promote Clathrin-mediated Endocytosis of LRP6

β-catenin-dependent WNT signal transduction governs development, tissue homeostasis and a vast array of human diseases. Signal propagation through a WNT-Frizzled/LRP receptor complex requires clathrin-mediated endocytosis (CME). Paradoxically, CME also negatively regulates WNT signaling through internalization and degradation of the receptor complex. Here, using a gain-of-function screen of the human kinome we report that the AP2 Associated Kinase 1 (AAK1), a known CME enhancer, strongly inhibits WNT signaling. Reciprocally, silencing of AAK1 expression or pharmacological inhibition of AAK1 activity using a new potent and selective AAK1 inhibitor activates WNT signaling. We show that AAK1 and LRP6 co-complex, and that AAK1 promotes clathrinmediated endocytosis of LRP6 to suppress the WNT pathway. Our data reveal a transcription-uncoupled, WNT-driven negative feedback loop; prolonged WNT treatment drives AAK1-dependent phosphorylation of AP2M1, thus promoting clathrin-coated pit maturation. We propose that following WNT receptor activation and the ensuing transcriptional response, increased AAK1 function limits WNT signaling longevity.