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上行性中脑多巴胺能轴突需要下行性 GAD65 轴突束来正常寻路。

Ascending midbrain dopaminergic axons require descending GAD65 axon fascicles for normal pathfinding.

机构信息

Departamento de Neurobiología del Desarrollo y Neurofisiología, Instituto de Neurobiología, Universidad Nacional Autónoma de México Querétaro, México.

Department of Biology, University of Nevada Reno, NV, USA.

出版信息

Front Neuroanat. 2014 Jun 5;8:43. doi: 10.3389/fnana.2014.00043. eCollection 2014.

DOI:10.3389/fnana.2014.00043
PMID:24926237
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4046268/
Abstract

The Nigrostriatal pathway (NSP) is formed by dopaminergic axons that project from the ventral midbrain to the dorsolateral striatum as part of the medial forebrain bundle. Previous studies have implicated chemotropic proteins in the formation of the NSP during development but little is known of the role of substrate-anchored signals in this process. We observed in mouse and rat embryos that midbrain dopaminergic axons ascend in close apposition to descending GAD65-positive axon bundles throughout their trajectory to the striatum. To test whether such interaction is important for dopaminergic axon pathfinding, we analyzed transgenic mouse embryos in which the GAD65 axon bundle was reduced by the conditional expression of the diphtheria toxin. In these embryos we observed dopaminergic misprojection into the hypothalamic region and abnormal projection in the striatum. In addition, analysis of Robo1/2 and Slit1/2 knockout embryos revealed that the previously described dopaminergic misprojection in these embryos is accompanied by severe alterations in the GAD65 axon scaffold. Additional studies with cultured dopaminergic neurons and whole embryos suggest that NCAM and Robo proteins are involved in the interaction of GAD65 and dopaminergic axons. These results indicate that the fasciculation between descending GAD65 axon bundles and ascending dopaminergic axons is required for the stereotypical NSP formation during brain development and that known guidance cues may determine this projection indirectly by instructing the pathfinding of the axons that are part of the GAD65 axon scaffold.

摘要

黑质纹状体通路(NSP)由多巴胺能轴突组成,这些轴突作为内侧前脑束的一部分,从腹侧中脑投射到背外侧纹状体。先前的研究表明,趋化蛋白在发育过程中参与了 NSP 的形成,但对于基质锚定信号在这个过程中的作用知之甚少。我们在小鼠和大鼠胚胎中观察到,中脑多巴胺能轴突在其到纹状体的整个轨迹中与下行 GAD65 阳性轴突束紧密并置。为了测试这种相互作用是否对多巴胺能轴突寻路很重要,我们分析了转基因小鼠胚胎,其中 GAD65 轴突束通过白喉毒素的条件表达减少。在这些胚胎中,我们观察到多巴胺能轴突异常投射到下丘脑区域和纹状体的异常投射。此外,对 Robo1/2 和 Slit1/2 敲除胚胎的分析表明,这些胚胎中先前描述的多巴胺能轴突异常投射伴随着 GAD65 轴突支架的严重改变。对培养的多巴胺能神经元和整个胚胎的进一步研究表明,NCAM 和 Robo 蛋白参与了 GAD65 和多巴胺能轴突的相互作用。这些结果表明,在大脑发育过程中,下降的 GAD65 轴突束和上升的多巴胺能轴突之间的聚集对于典型的 NSP 形成是必需的,并且已知的导向线索可能通过指示构成 GAD65 轴突支架的轴突的寻路来间接确定这种投射。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8502/4046268/881242b7a764/fnana-08-00043-g0008.jpg
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