通过结构导向的骨架重新利用方法发现口服生物可利用的FGFR2/FGFR3双重抑制剂。

Discovery of Orally Bioavailable FGFR2/FGFR3 Dual Inhibitors via Structure-Guided Scaffold Repurposing Approach.

作者信息

Nguyen Minh H, Ye Hai-Fen, Xu Yao, Truong Lisa, Horsey April, Zhao Peng, Styduhar Evan D, Frascella Michelle, Leffet Lynn, Federowicz Kelly, Behshad Elham, Wang Anlai, Zhang Ke, Witten Michael R, Qi Chao, Jalluri Ravi, Lai Cheng-Tsung, Atasoylu Onur, Harris Jennifer J, Hess Rodrigo, Lin Luping, Zhang Guofeng, Covington Maryanne, Diamond Sharon, Yao Wenqing, Vechorkin Oleg

机构信息

Incyte Research Institute, Incyte Corporation, 1801 Augustine Cut-Off, Wilmington, Delaware 19803, United States.

出版信息

ACS Med Chem Lett. 2023 Feb 28;14(3):312-318. doi: 10.1021/acsmedchemlett.3c00003. eCollection 2023 Mar 9.

DOI:10.1021/acsmedchemlett.3c00003

PMID:36923909

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10009791/

Abstract

Fibroblast growth factor receptors (FGFRs) are transmembrane receptor tyrosine kinases that regulate multiple physiological processes. Aberrant activation of FGFR2 and FGFR3 has been linked to the pathogenesis of many tumor types, including cholangiocarcinoma and bladder cancer. Current therapies targeting the FGFR2/3 pathway exploiting small-molecule kinase inhibitors are associated with adverse events due to undesirable inhibition of FGFR1 and FGFR4. Isoform-specific FGFR2 and FGFR3 inhibitors that spare FGFR1 and FGFR4 could offer a favorable toxicity profile and improved therapeutic window to current treatments. Herein we disclose the discovery of dual FGFR2/FGFR3 inhibitors exploiting scaffold repurposing of a previously reported ALK2 tool compound. Structure-based drug design and structure-activity relationship studies were employed to identify selective and orally bioavailable inhibitors with equipotent activity toward wild-type kinases and a clinically observed gatekeeper mutant.

摘要

成纤维细胞生长因子受体（FGFRs）是跨膜受体酪氨酸激酶，可调节多种生理过程。FGFR2和FGFR3的异常激活与许多肿瘤类型的发病机制有关，包括胆管癌和膀胱癌。目前利用小分子激酶抑制剂靶向FGFR2/3途径的疗法，由于对FGFR1和FGFR4的不良抑制而与不良事件相关。能够保留FGFR1和FGFR4的亚型特异性FGFR2和FGFR3抑制剂，可能为当前治疗提供良好的毒性特征和改善的治疗窗口。在此，我们披露了利用先前报道的ALK2工具化合物的骨架重新利用来发现双FGFR2/FGFR3抑制剂的过程。基于结构的药物设计和构效关系研究被用于识别对野生型激酶和临床观察到的守门人突变体具有同等活性的选择性和口服生物利用度高的抑制剂。

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