Author:
Klingbeil Olaf,Skopelitis Damianos,Tonelli Claudia,Alpsoy Aktan,Minicozzi Francesca,Aggarwal Disha,Russo Suzanne,Ha Taehoon,Demerdash Osama E.,Spector David L.,Tuveson David A.,Cifani Paolo,Vakoc Christopher R.
Abstract
AbstractThe Hippo signaling pathway is commonly dysregulated in human cancer, which leads to a powerful tumor dependency on the YAP/TAZ transcriptional coactivators. Here, we used paralog co-targeting CRISPR screens to identify the kinases MARK2/3 as absolute catalytic requirements for YAP/TAZ function in diverse carcinoma and sarcoma contexts. Underlying this observation is direct MARK2/3-dependent phosphorylation of NF2 and YAP/TAZ, which effectively reverses the tumor suppressive activity of the Hippo module kinases LATS1/2. To simulate targeting of MARK2/3, we adapted the CagA protein fromH. pylorias a catalytic inhibitor of MARK2/3, which we show exerts anti-tumor activityin vivo. Together, these findings reveal MARK2/3 as powerful co-dependencies of YAP/TAZ in human cancer; targets that may allow for pharmacology that restores Hippo pathway-mediated tumor suppression.
Publisher
Cold Spring Harbor Laboratory