Discovery and Characterization of RP03707: A Highly Potent and Selective KRAS<sup>G12D</sup> PROTAC
Xiang Ji, Huanping Li, Gang Wu, Qiguo Zhang, Xiaolin He, Yanpeng Wu, Bin Feng Zong, Xiaojin Xu, Chao Liang, Beibei Wang, Yu‐Wei Zhang, Qingyao Hu, Chao Deng, Liqiang Shen, Zijun Chen, Bing Bai, Lin Wang, Jinchao Ai, Leduo Zhang, Honggui Zhou, Shihao Sun, Yijie Wang, Youhong Wang, Qiming Fan, Dawei Chen, Tianlun Zhou, Xianqi Kong, Jiasheng Lu
Abstract
KRAS G12D, the most prevalent oncogenic mutation in KRAS-associated tumors, represents a highly sought-after drug target for cancer treatment. In this study, we explored a KRAS G12D protein degradation approach using the PROTAC technology for the treatment of KRAS G12D mutant tumors. Through the rational design of the KRAS G12D binder and proper selection of the linker and the E3 ligase ligand, we constructed PROTACs and identified RP03707 as a CRBN-involving, highly potent, and selective KRAS G12D degrader. RP03707 effectively inhibits tumor cell growth in multiple KRAS G12D cell lines. It also exhibits prolonged PK/PD effects and excellent efficacy in mouse CDX models bearing KRAS G12D tumors, highlighting its potential for the treatment of KRAS G12D -driven tumors in clinical settings.