Neuroprotection by Rasagiline: A New Therapeutic Approach to Parkinson's Disease?

Fabio Blandini
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引用次数: 35

Abstract

Neuronal death in Parkinson's disease (PD) may originate from the reciprocal interactions of a restricted number of conditions, such as mitochondrial defects, oxidative stress and protein mishandling, which would favor a state of apoptotic cell death in the nigrostriatal pathway. The search for pharmacological treatments able to counteract the nigrostriatal degeneration, possibly by interfering with these phenomena, has recently raised considerable interest in rasagiline [R(+)-N-propargyl-1-aminoindan], a potent, selective, and irreversible inhibitor of monoamine oxidase B (MAO-B). Rasagiline, like selegiline, is a propargylamine, but is ∼10 times more potent. Unlike selegiline, rasagiline is not metabolized to amphetamine and/or methamphetamine and is devoid of sympathomimetic activity. Numerous experimental studies, conducted both in vitro and in vivo, have shown that rasagiline possesses significant protective properties on neuronal populations. The pro-survival effects of the drug appear to be linked to its propargyl moiety, rather than to the inhibitory effect on MAO-B. Rasagiline's major metabolite, aminoindan — which possesses intrinsic neuroprotective activity — may also contribute to the beneficial effects of the parent compound.

Rasagiline has been recently evaluated in early PD patients, with results that are consistent with slowing the progression of the disease. Therefore, the neuroprotective activity shown by the drug under experimental conditions may be reflected in the clinic, thus providing new perspectives for the treatment of PD.

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雷沙吉兰的神经保护作用:治疗帕金森病的新途径?
帕金森病(PD)的神经元死亡可能源于少数条件的相互作用,如线粒体缺陷、氧化应激和蛋白质处理不当,这些条件有利于黑质纹状体通路中凋亡细胞死亡的状态。雷沙吉兰和塞来吉兰一样是丙胺,但效力是它的10倍。与塞来吉兰不同,雷沙吉兰不能代谢为安非他明和/或甲基苯丙胺,并且缺乏拟交感神经活性。在体外和体内进行的大量实验研究表明,雷沙吉兰对神经元群具有显著的保护作用。雷沙吉兰的主要代谢物,氨基酸,具有内在的神经保护活性,可能也有助于母体化合物的有益作用。雷沙吉兰最近在早期PD患者中进行了评估,结果与减缓疾病进展一致。因此,该药物在实验条件下所表现出的神经保护活性可能会在临床中得到体现,从而为PD的治疗提供新的视角。
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