神经肽-免疫反应性及其mRNA在点火中的表达:边缘癫痫发生的功能意义。

C Schwarzer, G Sperk, R Samanin, M Rizzi, M Gariboldi, A Vezzani
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引用次数: 0

摘要

近年来的研究表明,前脑神经元中神经肽的表达是对生理活动变化的反应。这在海马体中尤其正确,在海马体中,各种神经肽的表达在不同的神经元群中发生变化,以响应癫痫活动。本研究旨在综述和整合关于点燃和其他边缘癫痫模型海马形成神经肽系统的病理变化和功能改变的信息。这将通过提出一项研究来完成,我们研究了在海马点燃期间和之后大鼠海马主要神经元中生长抑素、神经肽Y (NPY)、神经激肽B (NKB)和胆囊收缩素八肽(CCK)表达的变化。NPY-IR在惊厥前第2期和第2天在颗粒细胞/苔藓纤维中短暂表达,但在连续三次强直阵挛发作(第5期)后1周不表达。在引燃后1周,NKB-IR的增加更为明显。在这些时间间隔内,颗粒细胞中只有NKB mRNA的表达增强。在第2和第5阶段,生长抑素-和NPY-IR及其mRNA水平在深门区和多态细胞层的中间神经元及其向齿状回外分子层的推测投射中显著升高。NKB-和CCK-IR及其mrna在点燃的两个阶段均在篮细胞中高表达。海马腹侧齿状回内分子层IR升高。尽管在第5阶段,受刺激和对侧海马的尼塞尔染色细胞减少了24%,但门部的含肽神经元似乎保存得很好。在海马中,生长抑素和NPY-IR在空洞层分子中增强,而CCK-IR纤维及其mRNA在锥体细胞层中特异性表达。耻骨下生长抑素、NKB和CCK-IR细胞数量增加。这些变化的强度在第2或第5阶段点燃后2天相似。点火完成后1周观察到的效果不明显。这些结果,在文献数据的框架中,表明在边缘癫痫发生期间,在不同的神经肽含神经元中发生持久的功能变化。这可能对突触传递有深远的影响,并有助于调节海马的兴奋性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Neuropeptides-immunoreactivity and their mRNA expression in kindling: functional implications for limbic epileptogenesis.

Recent studies have demonstrated that neuropeptide expression in forebrain neurons is responsive to changes in physiological activity. This is particularly true in the hippocampus where the expression of various neuropeptides has been reported to change in distinct neuronal populations in response to seizure activity. The aim of this work is to review and integrated the information on the pathological changes and functional modifications in neuropeptide systems of the hippocampal formation in kindling and other models of limbic epilepsy. This will be done by presenting a study in which we investigated the changes in the expression of somatostatin, neuropeptide Y (NPY), neurokinin B (NKB) and cholecystokinin-octapeptide (CCK) in the rat hippocampal principal neurons during and after kindling of the hippocampus using immunocytochemistry and in situ hybridization analysis of mRNA. NPY-IR was transiently expressed in the granule cells/mossy fibres after the preconvulsive stage 2 and 2 days but not 1 week after three consecutive tonic-clonic seizures (stage 5). A more pronounced increase was observed in NKB-IR lasting 1 week after kindling acquisition. Only the NKB mRNA expression was enhanced in granule cells at these intervals. At stages 2 and 5, somatostatin- and NPY-IR and their mRNA levels were markedly increased in interneurons in the deep hilus and in the polymorphic cell layer and their presumed projections to the outer molecular layer of the dentate gyrus. NKB- and CCK-IR and their mRNAs were highly expressed in basket cells at both stages of kindling. Their IR was increased in the inner molecular layer of the dentate gyrus in the ventral hippocampus. Peptide-containing neurons in the hilus appeared well preserved in spite of a reduction of Nissl stained cells by 24 % in the stimulated and contralateral hippocampus at stage 5. In the hippocampus proper, somatostatin and NPY-IR were enhanced in the stratum lacunosum molecular while CCK-IR fibres and its mRNA were particularly expressed in the pyramidal cell layer. The number of Somatostatin-, NKB- and CCK-IR cells was increased in the subiculum. The intensity of these changes was similar 2 days after stages 2 or 5 of kindling. Less pronounced effects were observed 1 week after kindling completion. These results, in the frame of the literature data, suggest that lasting functional changes occur in distinct neuropeptide-containing neurons during limbic epileptogenesis. This may have profound effects on synaptic transmission and contribute to modulate hippocampal excitability.

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