Structure-activity relationship investigation for benzonaphthyridinone derivatives as novel potent Bruton's tyrosine kinase (BTK) irreversible inhibitors

Q1 · MEDICINE

Article

Author: Chen, Cheng ; Chen, Yongfei ; Deng, Yuanxin ; Wu, Hong ; Wang, Wenchao ; Weisberg, Ellen L ; Hu, Chen ; Yu, Kailin ; Liu, Qingsong ; Liang, Qianmao ; Liu, Jing ; Wang, Beilei ; Wang, Aoli ; Wang, Yinsheng ; Wang, Wei ; Wang, Jinhua ; Hur, Wooyoung ; Gray, Nathanael S ; Hu, Zhenquan ; Miao, Weili ; Ren, Tao

Through a structure-based drug design approach, a tricyclic benzonaphthyridinone pharmacophore was used as a starting point for carrying out detailed medicinal structure-activity relationhip (SAR) studies geared toward characterization of a panel of proposed BTK inhibitors, including 6 (QL-X-138), 7 (BMX-IN-1) and 8 (QL47). These studies led to the discovery of the novel potent irreversible BTK inhibitor, compound 18 (CHMFL-BTK-11). Kinetic analysis of compound 18 revealed an irreversible binding efficacy (k_inact/K_i) of 0.01 μM^-1s^-1. Compound 18 potently inhibited BTK kinase Y223 auto-phosphorylation (EC₅₀ < 100 nM), arrested cell cycle in G0/G1 phase, and induced apoptosis in Ramos, MOLM13 and Pfeiffer cells. We believe these features would make 18 a good pharmacological tool for studying BTK-related pathologies.

Scientific reportsQ3 · CROSS-FIELD

Irreversible inhibition of BTK kinase by a novel highly selective inhibitor CHMFL-BTK-11 suppresses inflammatory response in rheumatoid arthritis model

Q3 · CROSS-FIELD

ArticleOA

Author: Chen, Yongfei ; Wang, Wenchao ; Liu, Xiaochuan ; Li, Xiaoxiang ; Liu, Qingsong ; Liang, Qianmao ; Liu, Jing ; Wang, Jinghua ; Wang, Aoli ; Yu, Kailin ; Hu, Chen ; Gray, Nathanael S ; Deng, Yuanxin ; Chen, Wensheng ; Wang, Li ; Huang, Qiong ; Wang, Beilei ; Qi, Ziping ; Wei, Wei ; Wu, Hong ; Chen, Cheng ; Dong, Jin

Abstract:

BTK plays a critical role in the B cell receptor mediated inflammatory signaling in the rheumatoid arthritis (RA). Through a rational design approach we discovered a highly selective and potent BTK kinase inhibitor (CHMFL-BTK-11) which exerted its inhibitory efficacy through a covalent bond with BTK Cys481. CHMFL-BTK-11 potently blocked the anti-IgM stimulated BCR signaling in the Ramos cell lines and isolated human primary B cells. It significantly inhibited the LPS stimulated TNF-α production in the human PBMC cells but only weakly affecting the normal PBMC cell proliferation. In the adjuvant-induced arthritis rat model, CHMFL-BTK-11 ameliorated the inflammatory response through blockage of proliferation of activated B cells, inhibition of the secretion of the inflammatory factors such as IgG1, IgG2, IgM, IL-6 and PMΦ phagocytosis, stimulation of secretion of IL-10. The high specificity of CHMFL-BTK-11 makes it a useful pharmacological tool to further detect BTK mediated signaling in the pathology of RA.

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Indication	Highest Phase	Country/Location	Organization	Date
B-Cell Lymphoma	Preclinical	China	Chinese Academy of Sciences	01 Sep 2017

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