YAP/TAZ mediates resistance to KRAS inhibitors through inhibiting proapoptosis and activating the SLC7A5/mTOR axis
Wang Yang, Ming Zhang, Tian-Xing Zhang, Jia-Hui Liu, Man-Wei Hao, Xu Yan, Haicheng Gao, Qun-Ying Lei, Jiuwei Cui, Xin Zhou
Wang Yang, Ming Zhang, Tian-Xing Zhang, Jia-Hui Liu, Man-Wei Hao, Xu Yan, Haicheng Gao, Qun-Ying Lei, Jiuwei Cui, Xin Zhou
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Research Article Oncology Therapeutics

YAP/TAZ mediates resistance to KRAS inhibitors through inhibiting proapoptosis and activating the SLC7A5/mTOR axis

Abstract

KRAS mutations are frequent in various human cancers. The development of selective inhibitors targeting KRAS mutations has opened a new era for targeted therapy. However, intrinsic and acquired resistance to these inhibitors remains a major challenge. Here, we found that cancer cells resistant to KRAS G12C inhibitors also display cross-resistance to other targeted therapies, such as inhibitors of RTKs or SHP2. Transcriptomic analyses revealed that the Hippo-YAP/TAZ pathway is activated in intrinsically resistant and acquired-resistance cells. Constitutive activation of YAP/TAZ conferred resistance to KRAS G12C inhibitors, while knockdown of YAP/TAZ or TEADs sensitized resistant cells to these inhibitors. This scenario was also observed in KRAS G12D–mutant cancer cells. Mechanistically, YAP/TAZ protects cells from KRAS inhibitor–induced apoptosis by downregulating the expression of proapoptotic genes such as BMF, BCL2L11, and PUMA, and YAP/TAZ reverses KRAS inhibitor–induced proliferation retardation by activating the SLC7A5/mTORC1 axis. We further demonstrated that dasatinib and MYF-03-176 notably enhance the efficacy of KRAS inhibitors by reducing SRC kinase activity and TEAD activity. Overall, targeting the Hippo-YAP/TAZ pathway has the potential to overcome resistance to KRAS inhibitors.

Authors

Wang Yang, Ming Zhang, Tian-Xing Zhang, Jia-Hui Liu, Man-Wei Hao, Xu Yan, Haicheng Gao, Qun-Ying Lei, Jiuwei Cui, Xin Zhou

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Figure 3

YAP and TAZ are capable of inducing resistance to KRAS G12C inhibitors and are crucial for maintaining this resistance.

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YAP and TAZ are capable of inducing resistance to KRAS G12C inhibitors a...
(A) Dose-response curves depicting the relative viability of H358, H1373, and MIAPACA2 cells with or without ectopic expression of constantly activated YAP or TAZ under treatment with ARS1620, AMG510, or MRTX849 for 5 days. (B) Dot plots displaying the quantification of clonogenic assay showing the growth of H358 and MIAPACA2 cells with or without ectopic expression of constantly activated YAP or TAZ upon treatment with KRAS G12C inhibitors as in Supplemental Figure 4A. (C) Dose-response curves presenting the relative viability of KYSE410, H2030, and SW1573 cells with or without knockdown of YAP/TAZ or TEADs under treatment with ARS1620, AMG510, or MRTX849 for 5 days. (D) Dot plots depicting the IC50 values (median of at least triplicate experiments) of different cell lines with or without knockdown of YAP/TAZ or TEADs under treatment with the indicated KRAS G12C inhibitors for 5 days. (E and F) Dot plots displaying the quantification of clonogenic assay showing the growth of SW1573 and H2030 cells with or without knockdown of YAP/TAZ upon treatment with KRAS G12C inhibitors as in Supplemental Figure 4D. Data are presented as mean ± SEM (A and C) or mean ± SD (B, E, and F).