外消旋化
化学
差向异构体
构象异构
动力学
手性(物理)
超临界流体
组合化学
去酰胺
分子模型
超临界流体色谱法
外消旋混合物
动力学分辨率
蛋白质水解
有机化学
二酮哌嗪
立体化学
手性柱色谱法
化学稳定性
计算化学
氮丙啶
劈理(地质)
作者
Zaikuan Yu,Cristobal Morfin,Thomas Paul,Halle Kyne,Xiaolin Zhang,Rhiannon Thomas‐Tran,Chandrasekar Venkataramani,Hamed Ghaffari,Murali Subramanian,Bernard P. Murray,Xingrong Liu,Raju Subramanian
标识
DOI:10.1021/acs.analchem.5c04777
摘要
High Resolution Image Download MS PowerPoint Slide Acidic methine-containing compounds are prone to racemization driven by keto–enol tautomerization, which can lead to products with distinct pharmacological and toxicological properties. Glutarimide, a core structural component of cereblon binders, and thiazolidinediones, a class of antidiabetic agents, are particularly susceptible to this instability. In this study, we developed an H/D exchange method to investigate the racemization or epimerization kinetics of 28 compounds, including 3 thiazolidinediones, as well as 13 molecular glues and 12 proteolysis targeting chimeras (PROTACs), both containing the glutarimide scaffold. In phosphate buffer (0.1 M, D 2 O, pD 7.8) at 37 °C, the racemization half-lives of glutarimide-based molecular glues ranged from 3.0 to 7.3 h, while thiazolidinediones exhibited substantially faster racemization with half-lives of 0.8 to 1.0 h. The correlation of H/D exchange and racemization rates were confirmed using chiral supercritical fluid chromatography. Reverse (D/H) exchange demonstrated a 3.6- to 8.5-fold improvement in chiral stability for methine-deuterated compounds, attributed to a primary kinetic isotope effect. Moreover, several PROTACs demonstrated substantially greater chiral stability than molecular glues, highlighting their distinct chiral behavior. Human serum albumin was found to influence chiral stability, accelerating racemization in some compounds while stabilizing others. Finally, conformational analysis revealed that PROTACs can adopt three distinct conformations; however, a clear correlation between enhanced chiral stability and specific conformers has yet to be established. These findings highlight the utility of the H/D exchange method as a robust and streamlined technique for assessing racemization and epimerization kinetics in various biologically relevant media. This approach enables rapid evaluationof chiral stability and highlightsthe potential of deuteration as a strategy to enhance chiral stability and optimize therapeutic agents within these compound classes.
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