化学
选择性
异丙基
立体化学
配体(生物化学)
苯并咪唑
烷基
噻唑
咪唑
兴奋剂
受体
药物化学
有机化学
生物化学
催化作用
作者
Tamal Roy,Nadia Nasser Petersen,Greeshma Gopalan,Johan Gising,Mathias Hallberg,Mats Larhed
标识
DOI:10.1016/j.bmc.2022.116804
摘要
Ligands comprising a benzimidazole rather than the imidazole ring that is common in AT2R ligands e.g. in the AT2R agonist C21, can provide both high affinity and receptor selectivity. In particular, compounds encompassing benzimidazoles, substituted in the 2-position with small bulky groups such as an isopropyl (Ki = 4.0 nM) or a tert-butyl (Ki = 5.3 nM) or alternatively a thiazole heterocycle (Ki = 5.1 nM) demonstrate high affinity and AT2R selectivity. An n-butyl chain, as found in the AT1R selective sartans, makes the ligand less receptor selective. The isobutyl group on the biaryl scaffold present in most AT2R selective ligands reported so far was originally derived from the nonselective potent AT1R/AT2R ligand L-162,313. Notably, in all ligands discussed herein, the isobutyl group was substituted by an n-propyl group and ligands with high affinity to AT2R were provided and in addition the majority of them demonstrate a favorable AT2R/AT1R selectivity. The introduction of fluoro atoms in various positions had no pronounced effect on the affinity data. Ligands with a thiazole or a tert-butyl group attached to the 2-position and with a terminal trifluoromethyl butoxycarbonyl sidechain exhibited a similar stability as C21 in human liver microsomes, while other ligands examined were less stable in the microsome assay.
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