HDAC11型
化学
异羟肟酸
效力
药理学
细胞培养
酶抑制剂
癌症研究
细胞周期
药代动力学
细胞生长
溴尿嘧啶
体外
体内
生物化学
重组DNA
髓样
药物发现
细胞
组蛋白脱乙酰酶抑制剂
药品
细胞凋亡
作者
Qipeng Chai,Maoshuo Yang,Chunxi Liu,Xuetao Zhu,Lei Liu,Wenkai Zhao,Xintong Xue,Jinwei Zhang,Lanlan Liu,W. Wang,Fabao Liu,Xiaona You,Y. Zhang
标识
DOI:10.1021/acs.jmedchem.5c03107
摘要
Our previous study not only demonstrated that HDAC11 is a potential therapeutic target for AML but also discovered a specific HDAC11 inhibitor A9 as an anti-AML lead compound. The purpose of the present study was to discover novel specific HDAC11 inhibitors with improved drug-like properties through structural modification and optimization of A9. Among the newly synthesized A9 derivatives, compound 25 stood out as a potent and specific HDAC11 inhibitor with desirable liver microsomal stability. Notably, compared with the well-known HDAC11 inhibitor FT895, compound 25 exhibited much stronger multiple anti-AML effects including proliferation inhibition, apoptosis induction, cell cycle arrest, differentiation promotion, and ferroptosis induction. Moreover, combination of 25 and ivosidenib, an approved targeted therapeutic drug for AML, showed strong synergistic anti-AML potency. Satisfyingly, compound 25 exhibited acceptable oral pharmacokinetic parameters in mouse, which supported its robust oral anti-AML potency in an MLL-AF9-induced mouse AML model, both alone and in combination with ivosidenib.
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