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目的探讨GIRK1在颞叶癫癎大鼠海马齿状回的表达及其意义.方法112只雄性SD大鼠随机分为实验组(n=70)与对照组(n=42),同时建立海人藻酸(KA)颞叶癫模型.选取KA腹腔注射后3、6、12、24、48 h,7、30 d为研究的时间点.用原位杂交法及免疫组织化学法检测海马齿状回GIRK1 mRNA及蛋白的表达.结果实验组大鼠海马齿状回GIRK1 mRNA表达在致癎后6 h较对照组减少,而在致癎后至7~30 d较对照组增高.结论在颞叶癫癎的不同时期海马齿状回GIRK1表达的变化反映出颞叶癫癎的复杂性. 相似文献
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Objective To investigate the roles of somatostatin(SS)positive intemeurons in the development and compensation of temporal lobe epilepsy.Methods Piloearpine-induced epilepsy rat model was established.Immunohistochemistry method was used to detect number changes and axonal sprouting of SS positive intemeurons in different domains of the hippocampus at difierent time points.Degeneration of SS positive interneurons and their neurophils were detected by the double immunofluorescence staining with SS and Fluoro-Jade B(FJB)at 7 and 60 days after status epilepticus (SE).Results In the exoerimental rat group,the number of SS positive neurons decreased in each hippocampal domain,and it reached the lowest at 7 days post-SE(There were 11.1±3.3 in hilus,2.8±0.9 in CA1region and 1.8±0.7 in CA1region,t=13.519,9.644 and 8.808,all P<0.01).In chronic phase,the number of SS neurons gradually recovered,and exceeded the control group in CA1 area at 60 days post-SE(12.8±1.5 vs 8.8±1.3,t=-4.506,P<0.01),however,the number of SS neurons in the hilus(25.5±4.6)and CA1 area(4.8±0.8)remained significantly less than normal levels(t value were 4.691 and 3.953.both P<0.01).Increased SS positive fibers were found in the lacunosum-molecular (1m)layer and outer molecular layer of dentate gyrus after 30 days post-SE,and numerous SS positive fibers were seen threnghout the layers of area CA1 at 60 days post-SE.Double immunofluuorescence revealed that a few SS positive interneurons and fibers were also labeled by FJB in area CA1 at 7 days post-SE and in CA domain/hilus at 60 days post-SE.Conclusions SS intemeurons loss plays an important role in the development of temporal lobe epilepsy.The loss is partially caIlsed by the degeneration and death of neurons;SS positive neurophils increase within area CA1 in chronic phase may play a significant role in the generation and compensation of temporal lobe epilepsy. 相似文献
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Objective To investigate the roles of somatostatin(SS)positive intemeurons in the development and compensation of temporal lobe epilepsy.Methods Piloearpine-induced epilepsy rat model was established.Immunohistochemistry method was used to detect number changes and axonal sprouting of SS positive intemeurons in different domains of the hippocampus at difierent time points.Degeneration of SS positive interneurons and their neurophils were detected by the double immunofluorescence staining with SS and Fluoro-Jade B(FJB)at 7 and 60 days after status epilepticus (SE).Results In the exoerimental rat group,the number of SS positive neurons decreased in each hippocampal domain,and it reached the lowest at 7 days post-SE(There were 11.1±3.3 in hilus,2.8±0.9 in CA1region and 1.8±0.7 in CA1region,t=13.519,9.644 and 8.808,all P<0.01).In chronic phase,the number of SS neurons gradually recovered,and exceeded the control group in CA1 area at 60 days post-SE(12.8±1.5 vs 8.8±1.3,t=-4.506,P<0.01),however,the number of SS neurons in the hilus(25.5±4.6)and CA1 area(4.8±0.8)remained significantly less than normal levels(t value were 4.691 and 3.953.both P<0.01).Increased SS positive fibers were found in the lacunosum-molecular (1m)layer and outer molecular layer of dentate gyrus after 30 days post-SE,and numerous SS positive fibers were seen threnghout the layers of area CA1 at 60 days post-SE.Double immunofluuorescence revealed that a few SS positive interneurons and fibers were also labeled by FJB in area CA1 at 7 days post-SE and in CA domain/hilus at 60 days post-SE.Conclusions SS intemeurons loss plays an important role in the development of temporal lobe epilepsy.The loss is partially caIlsed by the degeneration and death of neurons;SS positive neurophils increase within area CA1 in chronic phase may play a significant role in the generation and compensation of temporal lobe epilepsy. 相似文献
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目的:动态观察钠-钙交换体(NCX)mRNA和蛋白在氯化锂-匹罗卡品致癇模型大鼠海马CAl、CA3及齿状回区表达的变化,探讨其在癫痫发生发展中的作用。方法:用氯化锂-匹罗卡品制备癫癇动物模型;应用原位杂交和免疫组化技术检测各时间点NCX3 mRNA和蛋白的表达。结果:急性期(6~24h)海马各区NCX3 mRNA表达均随时间的延长逐渐减少;进入静止期各区表达趋向回升,慢性反复自发发作期(30、60d)各区表达又出现不同程度的两次下调。除致癇后6h大鼠海马各区的NCX3蛋白表达无明显变化外,NCX3蛋白变化趋势与NCX3mRNA基本一致。结论:NCX3表达下调可能通过增加神经元钙超载,改变海马神经元的兴奋性,促使癫癇发生。 相似文献
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目的探讨颞叶癫痫的发病机制。方法取健康雄性SD大鼠制成颞叶癫痫模型,用免疫组织化学和原位杂交技术对匹罗卡品致痫后不同时间点CA1区的Sema3C mRNA、Np1 mRNA和蛋白表达进行分析。结果在匹罗卡品致痫后7d,实验组CA1区Sema3C、Np1的表达明显低于对照组(P〈0.01)。结论CA1区Sema3C、Np1的表达下凋可能参与了海马CA1区内的轴突出芽机制。 相似文献
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目的 研究颞叶癫(癎)大鼠海马轴突导向分子Sema3F及其受体Np2表达的变化.方法 给SD大鼠腹腔注射匹罗卡品、氯化锂制作颞叶癫(癎)模型.用免疫组化法和原位杂交技术对致(癎)后不同时间点大鼠海马CA1区、CA3区、齿状回的Sema3F mRNA、Np2 mRNA和蛋白表达进行检测,并与正常对照组比较.结果 颞叶癫(癎)大鼠致(癎)后7 d、15 d,海马CA1区、CA3区Sema3F mRNA、Np2 mRNA和蛋白的表达明显低于正常对照组(P<0.05~0.01), 致(癎)后30 d、60 d表达与正常对照组差异无统计学意义;而齿状回Sema3F mRNA、Np2 mRNA和蛋白的表达与正常对照组的差异无统计学意义.结论 颞叶癫(癎)大鼠海马CA1区、CA3区Sema3F、Np2表达在致(癎)后早期明显下调,而在慢性期恢复正常. 相似文献
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患者男,44岁,因肢体抖动、发作性全身抽动20余年于2007年12月24日入住中南大学湘雅医院神经内科.患者20余年前无明显诱因出现四肢持续性细微抖动,发作性全身抽动,每次发作仅持续数秒,无意识障碍,两次发作间隔数天数月不等,起病初始阶段不影响正常生活及劳作,此后发作次数缓慢渐进增多,发作间隔时间缩短,至2007年5月因肢体抽动频繁、剧烈以致不能独立行走、不能持筷进食.2007年7月12日出现发作性意识丧失、四肢强直,双睑上翻,双眼球向上凝视,牙关紧闭,口吐白沫,持续约10 min后自行缓解,发作后不能回忆发作时情况,当天总共发作3次,发作形式相似,之后未再出现类似大发作. 相似文献
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目的探讨GAD65在颞叶癫痫大鼠海马的表达变化及其意义。方法112只雄性SD大鼠随机分为实验组(n=70)与对照组(n=42),实验组大鼠选用海人酸腹腔注射法建立颞叶癫痫模型,对照组大鼠腹腔注射无菌生理盐水。选取腹腔注射后3h、6h、12h、24h、48h、7d和30d为研究的时间点,颞叶海马的CA1区、CA3区、齿状回为研究部位。腹腔给药后每天观察大鼠的行为学变化,大鼠处死前进行EEG描记。用原位杂交方法检测不同时间点海马不同区域GAD65mRNA的表达,免疫组织化学法检测GAD65蛋白的表达。结果实验组大鼠海马GAD65mRNA及其蛋白的表达随时间呈逐渐增高趋势,致痫后48h ̄30d,GAD65mRNA及其蛋白表达较对照组增高(48h,P<0.05;7 ̄30d,P<0.01)。结论颞叶癫痫慢性期海马GAD65表达的增高是癫痫发生后机体的一种内源性抗痫机制。 相似文献
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Objective To investigate the roles of somatostatin(SS)positive intemeurons in the development and compensation of temporal lobe epilepsy.Methods Piloearpine-induced epilepsy rat model was established.Immunohistochemistry method was used to detect number changes and axonal sprouting of SS positive intemeurons in different domains of the hippocampus at difierent time points.Degeneration of SS positive interneurons and their neurophils were detected by the double immunofluorescence staining with SS and Fluoro-Jade B(FJB)at 7 and 60 days after status epilepticus (SE).Results In the exoerimental rat group,the number of SS positive neurons decreased in each hippocampal domain,and it reached the lowest at 7 days post-SE(There were 11.1±3.3 in hilus,2.8±0.9 in CA1region and 1.8±0.7 in CA1region,t=13.519,9.644 and 8.808,all P<0.01).In chronic phase,the number of SS neurons gradually recovered,and exceeded the control group in CA1 area at 60 days post-SE(12.8±1.5 vs 8.8±1.3,t=-4.506,P<0.01),however,the number of SS neurons in the hilus(25.5±4.6)and CA1 area(4.8±0.8)remained significantly less than normal levels(t value were 4.691 and 3.953.both P<0.01).Increased SS positive fibers were found in the lacunosum-molecular (1m)layer and outer molecular layer of dentate gyrus after 30 days post-SE,and numerous SS positive fibers were seen threnghout the layers of area CA1 at 60 days post-SE.Double immunofluuorescence revealed that a few SS positive interneurons and fibers were also labeled by FJB in area CA1 at 7 days post-SE and in CA domain/hilus at 60 days post-SE.Conclusions SS intemeurons loss plays an important role in the development of temporal lobe epilepsy.The loss is partially caIlsed by the degeneration and death of neurons;SS positive neurophils increase within area CA1 in chronic phase may play a significant role in the generation and compensation of temporal lobe epilepsy. 相似文献