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在靶向共价抑制剂的设计与合成中,烯丙酰胺作为丙烯酰胺的生物电子等排体。

Allenamide as a bioisostere of acrylamide in the design and synthesis of targeted covalent inhibitors.

作者信息

Chen Deheng, Guo Dexiang, Yan Ziqin, Zhao Yujun

机构信息

State Key Laboratory of Drug Research , Shanghai Institute of Materia Medica , Chinese Academy of Sciences , 555 Zuchongzhi Road , Shanghai 201203 , China . Email:

University of Chinese Academy of Sciences , Beijing 100049 , China.

出版信息

Medchemcomm. 2017 Dec 11;9(2):244-253. doi: 10.1039/c7md00571g. eCollection 2018 Feb 1.

DOI:10.1039/c7md00571g
PMID:30108918
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6083791/
Abstract

The success of acrylamide-containing drugs in treating cancers has spurred a passion to search for acrylamide bioisosteres. In our endeavour, we have identified that an allenamide group can be a reactive bioisostere of the acrylamide group. In our development of allenamide-containing compounds, we found that the most potent compound, , inhibited the kinase activities of both T790M/L858R double mutant and wild type EGFR in a low nM range. also inhibited the growth of NCI-H1975 lung cancer cells at IC = 33 nM, which is comparable to that of acrylamide-containing osimertinib. The western blot analysis showed that the phosphorylation of EGFR, AKT, and ERK1/2 was simultaneously inhibited in a dose-dependent manner when NCI-H1975 cells were treated with . By measuring the conjugate addition product formed by and GSH, we obtained a reaction rate constant of 302.5 × 10 min, which is about 30-fold higher than that of osimertinib. Taken together, our data suggest that the allenamide-containing compounds inhibited EGFR kinases through covalent modifications. Our study indicates that the allenamide group could serve as an alternative electrophilic warhead in the design of targeted covalent inhibitors, and this bioisostere replacement may have broad applications in medicinal chemistry.

摘要

含丙烯酰胺的药物在治疗癌症方面的成功激发了人们寻找丙烯酰胺生物电子等排体的热情。在我们的研究中,我们发现烯丙酰胺基团可以作为丙烯酰胺基团的活性生物电子等排体。在我们开发含烯丙酰胺的化合物时,我们发现最有效的化合物, 在低纳摩尔范围内抑制了T790M/L858R双突变体和野生型EGFR的激酶活性。 在IC = 33 nM时也抑制了NCI-H1975肺癌细胞的生长,这与含丙烯酰胺的奥希替尼相当。蛋白质印迹分析表明,当用 处理NCI-H1975细胞时,EGFR、AKT和ERK1/2的磷酸化以剂量依赖性方式同时受到抑制。通过测量 与GSH形成的共轭加成产物,我们获得了302.5×10 min的反应速率常数,这比奥希替尼高出约30倍。综上所述,我们的数据表明含烯丙酰胺的化合物通过共价修饰抑制EGFR激酶。我们的研究表明,烯丙酰胺基团可以作为靶向共价抑制剂设计中的替代亲电弹头,这种生物电子等排体替代可能在药物化学中有广泛的应用。

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