Hwang J Y, Kim Y H, Ahn Y H, Wie M B, Koh J Y
Department of Neurology, University of Ulsan College of Medicine, Seoul, 137-040.
Exp Neurol. 1999 Sep;159(1):124-30. doi: 10.1006/exnr.1999.7126.
Whereas excessive activation of the NMDA receptor may contribute to ischemic neuronal injury, physiologic activation may promote neuronal survival under certain conditions. Consistently, it has recently been shown that NMDA antagonists induce apoptosis of central neurons in immature rats. In the present study, we have examined whether NMDA antagonists induce neuronal apoptosis also in a culture condition. Exposure of cortical cultures (DIV 10-13) to MK-801 (1-10 microM) for 48 h resulted in death of about 30-40% of neurons. Similar neuronal death was induced by exposure to other NMDA antagonists, D-AP5 and dextromethorphan. The neuronal death was dependent on the culture age; MK-801 induced much less neuronal death in younger (DIV 7) and older (DIV 16-19) cultures. The NMDA antagonist-induced neuronal death was accompanied by cell body shrinkage, nuclear fragmentation, and cleavage/activation of caspase-3. Furthermore, it was attenuated by cycloheximide and zVAD-fmk, indicating that the death occurred mainly by the apoptosis mechanism. As in several other apoptosis models, high-potassium medium blocked the NMDA antagonist-induced apoptosis, which was reversed by voltage-gated calcium channel blockers. The present results demonstrate that NMDA antagonists induce neuronal apoptosis in cortical culture, consistent with the findings obtained in immature rats. Since the activation of the voltage-gated calcium channels attenuated the NMDA antagonist-induced apoptosis, it may be another example of the "calcium set point hypothesis."
虽然NMDA受体的过度激活可能导致缺血性神经元损伤,但生理激活在某些条件下可能促进神经元存活。同样,最近有研究表明,NMDA拮抗剂可诱导未成熟大鼠中枢神经元凋亡。在本研究中,我们检测了NMDA拮抗剂在培养条件下是否也能诱导神经元凋亡。将皮质培养物(培养10 - 13天)暴露于MK - 801(1 - 10微摩尔)48小时,导致约30 - 40%的神经元死亡。暴露于其他NMDA拮抗剂D - AP5和右美沙芬也会诱导类似的神经元死亡。神经元死亡取决于培养年龄;MK - 801在较年轻(培养7天)和较年长(培养16 - 19天)的培养物中诱导的神经元死亡要少得多。NMDA拮抗剂诱导的神经元死亡伴随着细胞体收缩、核碎片化以及caspase - 3的切割/激活。此外,放线菌酮和zVAD - fmk可减轻这种死亡,表明死亡主要通过凋亡机制发生。与其他几种凋亡模型一样,高钾培养基可阻断NMDA拮抗剂诱导的凋亡,而电压门控钙通道阻滞剂可逆转这种阻断。目前的结果表明,NMDA拮抗剂在皮质培养中可诱导神经元凋亡,这与在未成熟大鼠中获得的结果一致。由于电压门控钙通道的激活减轻了NMDA拮抗剂诱导的凋亡,这可能是“钙设定点假说”的另一个例子。
