Abstract EGFR activating mutations are prevalent in 10-50% of NSCLC patients. The most common EGFR mutations, L858R (L) and Del19 (D), initially respond to first-, second-, or third-generation (1G, 2G and 3G) EGFR-TKIs. However, on-target resistance, primarily by T790M (T) and C797X(C), inevitably emerges post-treatment and leads to disease progression. Different treatment sequence give rise to different complex mutations. In patients resistant to the 3G TKI osimertinib, double mutations L858R/C797X or Del19/C797X (LC or DC) were observed at a frequency of up to 12% after first-line osimertinib, and triple mutations L858R/T790M/C797S or Del19/T790M/C797S (LTC or DTC) were up to 20% after second-line osimertinib. There are no approved targeted therapy options for these complex resistant mutations. In this study, we developed BPI-520105, a 4th generation EGFR inhibitor capable of targeting all aforementioned major forms of EGFR activating and resistance mutations in NSCLC. It might be an optimal way to address this urgent medical need. In vitro, BPI-520105 potently inhibited the activity of a variety of EGFR kinases, as well as inhibited the proliferation and EGFR phosphorylation in cell lines bearing relative mutations, including single (D, L), double (DT, LT, and DC, LC) and triple (LTC, DTC) mutations. Meanwhile, BPI-520105 exhibited relative weakness towards wild type EGFR and IGF1R, demonstrating good selectivity in kinase and cell-based assays. Despite being a reversible EGFR inhibitor, BPI-520105 sustained the inhibition of pEGFR and pERK for up to 24 hours in the western blot assay. In vivo, oral administration of BPI-520105 displayed significant dose-dependent antitumor effect in multiple EGFR mutant xenograft models, including HCC827 (D), NCI-H1975 (LT), BaF3-EGFR-LC/DC, and BaF3-EGFR-LTC models. Remarkably, BPI-520105 significantly prolonged the lifespan of mice with brain orthotropic BaF3-EGFR-DTC-Luc2 allografts, demonstrating its activity towards brain metastasis. Additionally, BPI-520105 exhibited favorable ADME properties, with high oral exposure across various preclinical species. In summary, BPI-520105 is a highly potent, CNS-penetrant, wide type sparing, and orally bioavailable 4th generation EGFR inhibitor, holding promise for the treatment of NSCLC patients with resistance mutations post 3G progression or even at front line. Citation Format: Jing Guo, Lijia Liu, Xiangyong Liu, Bang Fu, Guangcan Bai, Changyong Qiu, Wei Ren, Xiaodong Song, Guolong Du, Xiao Sun, Yongchun Zhang, Weidong Cai, Pingping Wang, Haibo Chen, Xiaoyun Liu, Zhengyao Zou, Jiayu Zhao, Xuepeng Jv, Hong Lan, Lieming Ding, Jiabing Wang. BPI-520105, a highly potent, CNS-penetrant 4th generation EGFR inhibitor overcoming major EGFR resistance mutations in NSCLC [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 6511.
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