谷氨酸神经毒性拮抗方法。

D W Choi
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引用次数: 0

摘要

最近的证据表明,谷氨酸诱导的神经元损伤可能对包括脑缺氧缺血在内的几种神经系统疾病的神经元死亡起重要作用。这篇综述概述了一系列可能用于保护神经元免受兴奋性毒性损伤的措施。组织论文是对谷氨酸神经毒性作为一个连续的三个阶段过程的推测性考虑-诱导,扩增和表达-每个阶段可能特别适合治疗干预。谷氨酸受体的过度刺激可能会诱导细胞内多种物质的积累,包括Ca2+, Na+,肌醇-1,4,5-三磷酸和二酰基甘油。阻断这种诱导可能最容易通过拮抗突触后谷氨酸受体来实现,但也可能通过减少突触前末端的谷氨酸释放或改善突触间隙的谷氨酸清除来实现。在诱导之后,几个步骤可能会重要地放大细胞内游离Ca2+的上升,并促进过度兴奋向其他回路神经元的传播。在这一水平上起作用的保护策略可能包括阻断额外的Ca2+内流,阻断细胞内储存的Ca2+释放,以及干扰谷氨酸受体刺激与兴奋性突触效能持久增强的耦合机制。扩增后,细胞内游离Ca2+的毒性水平可能引发破坏性级联反应,直接导致神经元变性-兴奋毒性的表达。要阻断的最重要的级联反应可能是那些与分解代谢酶的激活和自由基的产生有关的级联反应。可能需要广泛考虑可能的方法来拮抗谷氨酸神经毒性,以开发出疗效最大、对脑功能不良影响最小的治疗方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Methods for antagonizing glutamate neurotoxicity.

Recent evidence suggests that glutamate-induced neuronal damage may contribute importantly to neuronal death in several neurological diseases, including cerebral hypoxia-ischemia. This review outlines a range of measures that might be used to protect neurons from such excitotoxic damage. The organizing thesis is a speculative consideration of glutamate neurotoxicity as a sequential three-stage process--induction, amplification, and expression--each perhaps specifically amenable to therapeutic interference. Overstimulation of glutamate receptors likely induces the intracellular accumulation of several substances, including Ca2+, Na+, inositol-1,4,5-trisphosphate, and diacylglycerol. Blockade of this induction might be accomplished most easily by antagonizing postsynaptic glutamate receptors, but also might be accomplished by reducing glutamate release from presynaptic terminals, or improving glutamate clearance from synaptic clefts. Following induction, several steps may importantly amplify the resultant rise in intracellular free Ca2+, and promote the spread of excessive excitation to other circuit neurons. Protective strategies operative at this level might include blockade of additional Ca2+ influx, blockade of Ca2+ release from intracellular stores, and interference with the mechanisms coupling glutamate receptor stimulation to lasting enhancements of excitatory synaptic efficacy. Following amplification, toxic levels of intracellular free Ca2+ might trigger destructive cascades bearing direct responsibility for resultant neuronal degeneration--the expression of excitotoxicity. The most important cascades to block may be those related to the activation of catabolic enzymes, and the generation of free radicals. Broad consideration of possible methods for antagonizing glutamate neurotoxicity may be needed to develop therapies with the greatest efficacy, and least adverse consequences for brain function.

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