Lasoń W, Turchan J, Przewłocka B, Labuz D, Mika J, Przewłocki R
Department of Molecular Neuropharmacology, Polish Academy of Sciences, Kraków, Poland.
J Neural Transm (Vienna). 1997;104(2-3):125-33. doi: 10.1007/BF01273175.
The expression of mRNA coding for AMPA selective glutamate (Glu) R2 receptor and kainate selective GluR5 receptor was studied in the rat hippocampal formation in two animal models of limbic seizures evoked by systemic administration of pilocarpine (400 mg/kg i.p.) or kainate (15 mg/kg i.p.). As shown by an in situ hybridization study, pilocarpine decreased the GluR2 flip mRNA level in CA1 and CA3 areas of the hippocampus after 3h and kainate after 24h, e.g. at the time preceding neuronal degeneration. No changes in the GluR2 flop or GluR5 mRNA level were found in those regions. In the dentate gyrus, resistant to neurodegeneration, pilocarpine and kainate differentially affected the expression of GluR2 and GluR5 mRNAs. After 72h pilocarpine, but not kainate, increased the GluR2 flop mRNA level and decreased the flip one, which suggests attenuation of the GluR2 sensitivity. On the other hand, kainate, elevated the GluR2 flip and GluR5 mRNA level in the dentate gyrus after 72h. All in all the above data suggest that changes in the GluR2 gene expression may play some role in the neuronal damage to vulnerable areas (CA1, CA3). However, differences in the kainate-and pilocarpine-induced changes in the dentate gyrus at the late time points indicate that alterations in the stoichiometry of GluR2 forms of GluR5 gene expression in this brain region are not a common causal factor responsible for delayed neuronal hyperexcitability.
在通过腹腔注射毛果芸香碱(400mg/kg)或海藻酸(15mg/kg)诱发边缘性癫痫的两种动物模型中,研究了编码AMPA选择性谷氨酸(Glu)R2受体和海藻酸选择性GluR5受体的mRNA在大鼠海马结构中的表达。原位杂交研究表明,毛果芸香碱在3小时后降低了海马CA1和CA3区的GluR2翻转mRNA水平,海藻酸在24小时后降低了该水平,即在神经元变性之前。在这些区域未发现GluR2摆动或GluR5 mRNA水平有变化。在对神经变性有抗性的齿状回中,毛果芸香碱和海藻酸对GluR2和GluR5 mRNA的表达有不同影响。72小时后,毛果芸香碱而非海藻酸增加了GluR2摆动mRNA水平并降低了翻转mRNA水平,这表明GluR2敏感性减弱。另一方面,72小时后海藻酸提高了齿状回中GluR2翻转和GluR5 mRNA水平。总之,上述数据表明GluR2基因表达的变化可能在对易损区域(CA1、CA3)的神经元损伤中起一定作用。然而,在后期时间点上海藻酸和毛果芸香碱在齿状回中诱导的变化差异表明,该脑区GluR2形式或GluR5基因表达化学计量的改变并非导致延迟性神经元过度兴奋的常见因果因素。
