EXCITOTOXICITY AFFECTS MEMBRANE-POTENTIAL AND CALMODULIN KINASE-II ACTIVITY IN CULTURED RAT CORTICAL-NEURONS

被引：26

作者：

CHURN, SB ^{[1
]}

SOMBATI, S ^{[1
]}

TAFT, WC ^{[1
]}

DELORENZO, RJ ^{[1
]}

机构：

[1] VIRGINIA COMMONWEALTH UNIV,MED COLL VIRGINIA,DEPT PHARMACOL & TOXICOL,RICHMOND,VA 23298

来源：

STROKE | 1993年 / 24卷 / 02期

关键词：

N-METHYL-D-ASPARTATE; MK-801; NEURONAL DEATH;

D O I：

10.1161/01.STR.24.2.271

中图分类号：

R74 [神经病学与精神病学];

学科分类号：

摘要：

Background and Purpose: Glutamate-induced excitotoxicity has been implicated as a causative factor for selective neuronal loss in ischemia and hypoxia. Toxic exposure of neurons to glutamate results in an extended neuronal depolarization that precedes delayed neuronal death. Because both delayed neuronal death and extended neuronal depolarization are dependent on calcium, we examined the effect of glutamate exposure on extended neuronal depolarization and calcium/calmodulin-dependent protein kinase II (CaM kinase II) activity. Methods. Three-week-old cortical cell cultures from embryonic rats were exposed to 500 muM glutamate and 10 muM glycine or to control medium for 10 minutes. Cells were examined for neuronal toxicity, electrophysiology, and biochemical alterations. In one set of experiments, whole-cell current clamp recording was performed throughout the experiment. In a parallel experiment, cortical cultures were allowed to recover from glutamate exposure for 1 hour, at which time the cells were homogenized and CaM kinase II activity was assayed using standard techniques. Results: Excitotoxic exposure to glutamate resulted in extended neuronal depolarization, which remained after removal of the glutamate. Glutamate exposure also resulted in delayed neuronal death, which was preceded by significant inhibition of CaM kinase II activity. The excitotoxic inhibition of CaM kinase II correlated with neuronal loss, was N-methyl-D-aspartate receptor-mediated, and was not due to autophosphorylation of the enzyme. Conclusions: Glutamate-induced delayed neuronal toxicity correlates with extended neuronal depolarization and inhibition of CaM kinase II activity. Because inhibition of CaM kinase II activity significantly preceded the histological loss of neurons, the data suggest that modulation of CaM kinase II activity may be involved in the cascade of events resulting in loss of calcium homeostasis and delayed neuronal death.

引用

页码：271 / 277

页数：7

共 36 条

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