Karatinos J, Rosse R B, Deutsch S I
Sheppard Pratt Health Systems, Baltimore, Maryland, USA.
Clin Neuropharmacol. 1995 Dec;18(6):482-99.
The freely diffusible gaseous compound nitric oxide (NO) has recently been discovered to be an important cellular messenger in many organ systems throughout the body. The importance of NO as an intermediary in cell communication in the brain is highlighted by the fact that the excitatory amino acid glutamate, the most abundant central neurotransmitter, is an initiator of the reaction that forms NO. In this article, background information about the discovery of NO, its biochemistry, and a brief summary of some of its peripheral and central actions are given to provide a complete picture of this remarkable novel second messenger. We also discuss how an improved understanding of NO pathway may lead to the identification of novel medications for the treatment of a number of neuropsychiatric conditions, including memory deficits, pain, drug addiction, seizures, bipolar disorder, psychosis, eating disorders, and the treatment of the sequelae of various brain injuries.
最近发现,可自由扩散的气态化合物一氧化氮(NO)是全身许多器官系统中重要的细胞信使。兴奋性氨基酸谷氨酸是大脑中最丰富的中枢神经递质,它是形成NO反应的引发剂,这一事实突出了NO作为大脑细胞通讯中介的重要性。本文提供了有关NO发现的背景信息、其生物化学以及对其一些外周和中枢作用的简要总结,以全面呈现这种非凡的新型第二信使。我们还讨论了对NO途径的深入理解如何可能导致识别出用于治疗多种神经精神疾病的新型药物,这些疾病包括记忆缺陷、疼痛、药物成瘾、癫痫、双相情感障碍、精神病、饮食失调以及各种脑损伤的后遗症治疗。