计算生物学
分子动力学
小脑
化学
泛素
马尔可夫链
泛素连接酶
血浆蛋白结合
泛素蛋白连接酶类
结合位点
生物物理学
配体(生物化学)
生物
HEK 293细胞
计算机科学
立体化学
纳米技术
动力学(音乐)
DNA连接酶
基质(水族馆)
药物发现
德隆
鉴定(生物学)
分子构象
分子模型
蛋白质结构
费斯特共振能量转移
分子识别
结合选择性
蛋白质动力学
作者
Jiangnan Du,Cunhong Luo,Jin Feng,Xianqiang Sun,Yaozong Li,Jianxin Cheng,Zhengzhong Kang
标识
DOI:10.1021/acs.jpcb.5c07177
摘要
Cereblon (CRBN), a core component of the CRL4 ubiquitin ligase complex, regulates substrate ubiquitination and degradation, thereby exerting broad control over essential cellular processes. Its pivotal role has been exploited in the development of therapeutic modalities such as proteolysis-targeting chimeras and molecular glues. However, most existing ligands are derived from immunomodulatory drug scaffolds, which present limitations including suboptimal selectivity and intellectual property restrictions. This underscores the need for novel chemotypes capable of engaging CRBN. To address this challenge, we performed extensive molecular dynamics (MD) simulations to explore the conformational dynamics of the CRBN ligand-binding pocket. Based on the MD trajectories, we constructed free energy landscapes and Markov state models to characterize the dynamics of key binding site residues. Our analysis identified multiple (meta)stable states defined primarily by the conformational and tautomeric variability of His378. Importantly, the dominant C1 conformation of His378 is associated with a previously unrecognized cavity adjacent to the canonical ligand-binding site, presenting new opportunities for the design of novel CRBN ligands. These insights provide a structural and dynamic framework for the discovery of next-generation CRBN binders with improved selectivity and therapeutic potential.
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