化学
疾病
计算生物学
药理学
药物发现
梅德林
神经科学
结构-活动关系
生物信息学
药品
作者
Chaofan Xu,Neeta A. Abraham,Nupur Bansal,Philippe N. Bolduc,Patrick Cullen,Thomas M. Carlile,Yulin Chen,Colin K. Choi,Rachelle Driscoll,Eric Stefan,Christina M. Gallo,Zhen Gao,Catherine L. Guardado,Guilherme J. Guimaraes,James Harvey,Sarah Huff,Dann Huh,Jessica A. Hurt,Melissa M. Kemp,Kwang Soo Lee
标识
DOI:10.1021/acs.jmedchem.6c00224
摘要
Huntington’s disease (HD) is a progressive neurodegenerative disorder caused by a CAG-repeat expansion in the Huntington gene (HTT). Herein, we describe the discovery of a series of HTT pre-mRNA-splicing modulators that promote the inclusion of a cryptic stop codon that in turn lowers levels of mutant Huntington protein (mHTT). Optimization of the starting thienopyridine amide core resulted in the discovery of the potent, CNS-penetrant, selective, and orally bioavailable HTT-splicing modulator BIO-6553. This lead compound is structurally distinct from existing splicing modulators, demonstrated significant HTT-lowering in both human cells and mouse YAC128 models, and has an attractive off-target profile from RASL- and RNA-seq analysis.
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