钙离子拮抗剂尼莫地平对NMDA诱导的大鼠基底核细胞死亡的神经保护作用、衰老和发育药物治疗的影响

P.G.M Luiten , B.R.K Douma , E.A Van der Zee , C Nyakas
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引用次数: 70

摘要

本研究在n -甲基- d -天冬氨酸诱导的大鼠脑神经元变性实验中,研究了l型钙通道拮抗剂尼莫地平对大鼠脑的神经保护作用。在本模型中,将NMDA单侧注射到大细胞基底核,并通过测量皮质胆碱能纤维损失占完整对照半球纤维密度的百分比来评估神经毒性影响。这一过程被证明是一个可重复的模型,其中的损害程度几乎与NMDA剂量成线性比例。尼莫地平的神经保护作用在多种情况下被确定。首先,在神经毒性损伤前两周开始的成年动物尼莫地平治疗的效果与母动物围产期钙拮抗剂治疗提供的神经保护进行了比较。令人惊讶的是,两种情况下的保护程度相似,几乎减少了30%的纤维损失。围生期尼莫地平治疗的成年期神经保护作用可能是由于钙结合蛋白的发育增强或钙通道特征的持续发育改变。尼莫地平对26月龄大鼠的保护作用也进行了研究。与年轻的成年病例相比,老年动物对NMDA暴露的易感性较低,而尼莫地平的应用更有效,因此NMDA输注引起的神经纤维损伤减少了近50%。在不同的实验条件下,不同钙内流的可能机制将被讨论。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neuroprotection against NMDA induced cell death in rat nucleus basalis by Ca2+ antagonist nimodipine, influence of aging and developmental drug treatment

In the current study the neuroprotective effect of the L-type calcium channel antagonist nimodipine in rat brain was investigated in N-methyl-D-aspartate-induced neuronal degeneration in vivo. In the present model NMDA was unilaterally injected in the magnocellular nucleus basalis and the neurotoxic impact assessed by measuring cortical cholinergic fibre loss as a percentage of fibre density of the intact control hemisphere. This procedure proved to be a reproducible model in which the degree of damage was almost linearly proportional to the NMDA dose. Neuroprotection by nimodipine was determined in a number of conditions. First, the effect of nimodipine treatment in adult animals starting two weeks prior to neurotoxic injury was compared with neuroprotection provided by perinatal treatment of the mother animals with the calcium antagonist. Surprisingly, the degree of protection was in both cases similar, yielding almost 30% reduction of fibre loss. The neuroprotective effect in adulthood of perinatal nimodipine treatment may be explained by developmentally enhanced calcium binding proteins or persistent developmental changes in calcium channel characteristics. Protection by nimodipine was also investigated in aged, 26 month old rats. Compared to young adult cases, aged animals proved to be less vulnerable to NMDA exposure, while nimodipine application was more potent, thus yielding a reduction of nearly 50% in nerve fibre damage induced by NMDA infusions. Possible mechanisms of differential calcium influx in the various experimental conditions will be discussed.

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