帕金森病大鼠模型脑内移植后基因工程细胞释放多巴和多巴胺的行为影响。

Journal de physiologie Pub Date : 1991-01-01
P Horellou, C Lundberg, B Le Bourdellès, K Wictorin, P Brundin, P Kalén, A Björklund, J Mallet
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引用次数: 0

摘要

突触与旁分泌多巴胺传递对纹状体内移植后功能影响的相对重要性尚未完全确定。在本研究中,我们将重组逆转录病毒感染并在无酪氨酸培养基中选择后表达I型人酪氨酸羟化酶的细胞系移植到失神经纹状体,以分析细胞外多巴胺水平恢复的程度以及多巴胺弥漫性释放对帕金森病大鼠模型运动障碍的影响。在培养皿中,修饰的成纤维细胞(NIH.3T3)组成性地释放多巴胺,而修饰的内分泌细胞(RIN)则有调节地储存和释放多巴胺。有趣的是,在去神经纹状体中,移植的修饰成纤维细胞产生多巴,多巴被宿主纹状体组织有效地转化为多巴胺。在移植纹状体中,成纤维细胞和内分泌细胞都恢复了低于正常水平的多巴胺弥散释放,高浓度钾分别显著影响和刺激了多巴胺的释放,这与移植细胞的体外特性有关。改良细胞的纹状体内移植物部分逆转阿苯吗啡诱导的运动不对称,而非安非他明诱导的运动不对称。我们讨论这些结果在帕金森病背景下的含义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Behavioural effects of genetically engineered cells releasing dopa and dopamine after intracerebral grafting in a rat model of Parkinson's disease.

The relative importance of synaptic versus paracrine dopamine transmission for the occurrence of functional effects following intrastriatal grafting is not fully established. In the present study we grafted cell lines, expressing the form I of human tyrosine hydroxylase after infection with a recombinant retrovirus and selection in tyrosine-free-medium, to the denervated striatum in order to analyse the extent to which extracellular dopamine levels can be restored and the effect of a diffuse release of dopamine on motor impairement in a rat model of Parkinson's disease. In petri dish, the modified fibroblast cells (NIH.3T3) release DOPA constitutively whereas the modified endocrine cells (RIN) store and release dopamine in a regulated way. Interestingly, in denervated striatum, grafts of modified fibroblast cells produce DOPA which was efficiently converted into dopamine by the host striatal tissue. In the grafted striatum, both fibroblast and endocrine cells restore subnormal levels of diffuse release of dopamine which is notably unaffected and stimulated, respectively, by high concentration of potassium, in connection with the in vitro properties of the grafted cells. The intrastriatal grafts of modified cells partially reversed the apomorphine-induced but not the amphetamine-induced motor asymmetry. We discuss the implications of these results in the context of Parkinson disease.

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