Laboratory of Medicinal Chemistry , IQOG, CSIC , C/Juan de la Cierva 3 , Madrid 28006 , Spain.
Department of Investigation , IRYCIS, Hospital Ramón y Cajal , Ctra. Colmenar km 9.1 , Madrid 28034 , Spain.
J Med Chem. 2019 Feb 28;62(4):2184-2201. doi: 10.1021/acs.jmedchem.8b01987. Epub 2019 Feb 15.
We describe herein the synthesis and neuroprotective capacity of an array of 31 compounds comprising quinolyloximes, quinolylhydrazones, quinolylimines, QNs, and related heterocyclic azolylnitrones. Neuronal cultures subjected to oxygen-glucose deprivation (OGD), as experimental model for ischemic conditions, were treated with our molecules at the onset of recovery period after OGD and showed that most of these QNs, but not the azo molecules, improved neuronal viability 24 h after recovery. Especially, QN ( Z)- N-tert-butyl-1-(2-chloro-6-methoxyquinolin-3-yl)methanimine oxide (23) was shown as a very potent neuroprotective agent. Antioxidant analysis based on the ability of QN 23 to trap different types of toxic radical oxygenated species supported and confirmed its strong neuroprotective capacity. Finally, QN 23 showed also neuroprotection induction in two in vivo models of cerebral ischemia, decreasing neuronal death and reducing infarct size, allowing us to conclude that QN 23 can be considered as new lead-compound for ischemic stroke treatment.
我们在此描述了包含喹啉肟、喹啉腙、喹啉亚胺、QN 及相关杂环唑基硝酮的 31 种化合物的合成及神经保护能力。氧葡萄糖剥夺(OGD)处理的神经元培养物,作为缺血条件的实验模型,在 OGD 后恢复期间开始时用我们的分子处理,结果表明,这些 QN 中的大多数(但不是氮分子)在恢复后 24 小时提高了神经元活力。特别是,QN(Z)-N-叔丁基-1-(2-氯-6-甲氧基喹啉-3-基)亚甲胺氧化物(23)被证明是一种非常有效的神经保护剂。基于 QN 23 捕获不同类型有毒含氧自由基的能力的抗氧化分析支持并证实了其强大的神经保护能力。最后,QN 23 还在两种体内脑缺血模型中显示出神经保护诱导作用,减少神经元死亡和缩小梗死面积,使我们能够得出结论,QN 23 可被视为治疗缺血性中风的新型先导化合物。
