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Transmembrane protein KIRREL1 regulates Hippo signaling via a feedback loop and represents a therapeutic target in YAP/TAZ-active cancers

Yuan Gu, Yu Wang, Zhao Sha, Chenxi He, Yuwen Zhu, Jian Li, Aijuan Yu, Zhenxing Zhong, Xuefei Wang, Yihong Sun, Fei Lan, Fa‐Xing Yu

2022Cell Reports30 citationsDOIOpen Access PDF

Abstract

The Hippo tumor-suppressor pathway is frequently dysregulated in human cancers and represents a therapeutic target. However, strategies targeting the mammalian Hippo pathway are limited because of the lack of a well-established cell-surface regulator. Here, we show that transmembrane protein KIRREL1, by interacting with both SAV1 and LATS1/2, promotes LATS1/2 activation by MST1/2 (Hippo kinases), and LATS1/2 activation, in turn, inhibits activity of YAP/TAZ oncoproteins. Conversely, YAP/TAZ directly induce the expression of KIRREL1 in a TEAD1-4-dependent manner. Indeed, KIRREL1 expression positively correlates with canonical YAP/TAZ target gene expression in clinical tumor specimens and predicts poor prognosis. Moreover, transgenic expression of KIRREL1 effectively blocks tumorigenesis in a mouse intrahepatic cholangiocarcinoma model, indicating a tumor-suppressor role of KIRREL1. Hence, KIRREL1 constitutes a negative feedback mechanism regulating the Hippo pathway and serves as a cell-surface marker and potential drug target in cancers with YAP/TAZ dependency.

Topics & Concepts

Hippo signaling pathwaySuppressorBiologyCancer researchCell biologyTransmembrane proteinCarcinogenesisRegulatorYAP1Signal transductionHEK 293 cellsKinaseCancerTranscription factorGeneGeneticsReceptorHippo pathway signaling and YAP/TAZLipid metabolism and biosynthesis
Transmembrane protein KIRREL1 regulates Hippo signaling via a feedback loop and represents a therapeutic target in YAP/TAZ-active cancers | Litcius