化学
生物利用度
体内
药理学
药代动力学
体外
癌症
铅化合物
口服
结构-活动关系
哌嗪
突变体
口服活性
细胞生长
生物活性
作用机理
体外毒理学
癌细胞
药物发现
酶抑制剂
细胞培养
生长抑制
生物化学
化学合成
癌症治疗
动物模型
作者
Jiyoung Song,Eunsung Jang,G.S. Cho,Hoiyun Jung,Minchang Cho,C Park,Jae‐Joong Kim,Soyoung Ki,Beomjin Hong,Ilkyoo Koh,Hyunho Cho,Seona Lim,Mi Jin Moon,Sungwan Hwang,Hyun-Ju Park,Pargat Singh,In Su Kim
标识
DOI:10.1021/acs.jmedchem.5c02840
摘要
G12D is a dominant mutant of KRAS, accounting for 67.6% of PDAC cases, which drives the development of selective KRAS-G12D inhibitors in cancer therapy. Herein, we describe the rationale design, synthesis, and biological evaluation of KRAS-G12D inhibitors with pyrazoloquinazoline and 3,5-ethylene-bridged piperazine groups as the key pharmacophores. Compound 53a exhibited comparable binding to KRAS-G12D (ΔTm = 12.1 °C) and potent in vitro activities (IC50 values of 8.4 nM and 19.5 nM against p-ERK and proliferation of AsPC-1 cells, respectively), compared to those of MRTX1133 as a reference standard. Furthermore, compound 53a displayed appreciable plasma exposure, bioavailability, and pharmacokinetic profiles after oral administration, overcoming the poor oral bioavailability observed in MRTX1133. In vivo study showed that 53a significantly inhibited tumor growth in the AsPC-1 xenograft mouse model by inhibiting KRAS-G12D. These findings support 53a as a promising lead candidate for the development of selective KRAS-G12D targeted cancer therapies.
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