Connexin 43 mRNA expression in two experimental models of epilepsy.

K Elisevich, S A Rempel, B Smith, N Allar
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引用次数: 26

Abstract

The expression of mRNA for connexin 43, a gap junction protein putatively found in astrocytes, is studied in two experimental models of epilepsy: the electrically kindled rat and the tetanus-toxin-injected rat. Rats were kindled by electrical stimulation of the amygdala to Racine class 5 seizures and divided into cohorts of three to undergo 3, 6, or 10 such events, respectively. Another two cohorts of rats received injections of tetanus toxin at strengths of 3 and 9 MLD50, respectively, into the amygdala. Features of epileptogenicity were identified electrographically in both cohorts during the first 4 wk following toxin injection with spontaneous ictal events recorded in the latter cohort. All rats were sacrificed 4 wk after electrode or cannula implantation, except for two toxin-injected cohorts that were sacrificed at wk 8 or 10. The epileptogeonic area in the region of the amygdala was harvested and pooled by cohort for Northern blot analysis. These were compared with control nonimplanted tissues. In the tetanus-toxin-injected animals, at time-points of 4, 8, and 10 wk, connexin 43 mRNA expression in epileptogenic tissues is found to be decreased or unchanged relative to control cases. Kindled rats demonstrated reductions of connexin mRNA with a trend toward normalizing levels with increasing numbers of stimulations when compared to control animals. Connexin 43 immunostained sections of the basolateral amygdala showed a similar trend in protein expression. Both experimental models of epilepsy show no connexin 43 mRNA upregulation despite varying degrees of epileptogenicity. This study therefore does not support the hypothesis that an increase in transcription is the basis for any proposed increase in gap junction communication involving connexin 43 in the context of epileptogenicity or as a reaction to increased neuronal excitability.

连接蛋白43 mRNA在两种癫痫实验模型中的表达。
在电点燃大鼠和破伤风毒素注射大鼠两种癫痫实验模型中,研究了连接蛋白43 mRNA的表达。通过电刺激大鼠扁桃体引起拉辛5级癫痫发作,并将其分成3组,分别经历3次、6次或10次癫痫发作。另外两组大鼠分别接受3和9 MLD50强度的破伤风毒素注射到杏仁核。在毒素注射后的头4周内,两组患者均通过电图确定了致痫性特征,后一组患者记录了自发性发作事件。所有大鼠在电极或插管植入后4周被处死,除了两组注射毒素的大鼠在8周或10周被处死。采集杏仁核区域的癫痫致痫区,并将其纳入队列进行Northern blot分析。将这些与未植入的对照组织进行比较。在注射破伤风毒素的动物中,在4、8和10周的时间点,与对照组相比,癫痫组织中连接蛋白43 mRNA的表达减少或不变。与对照动物相比,点燃大鼠的连接蛋白mRNA随着刺激次数的增加而减少,并呈正常化趋势。杏仁核基底外侧的连接蛋白43免疫染色切片显示了类似的蛋白表达趋势。两种癫痫实验模型均未显示连接蛋白43 mRNA上调,尽管有不同程度的致痫性。因此,这项研究不支持这样的假设,即转录的增加是任何提出的在致痫性背景下涉及连接蛋白43的间隙连接通信增加的基础,或者是对神经元兴奋性增加的反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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