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多巴胺 D1 受体调节纹状体直接通路和间接通路神经元的棘突。

Dopamine D1 Receptors Regulate Spines in Striatal Direct-Pathway and Indirect-Pathway Neurons.

机构信息

Cajal Institute, Spanish National Research Council (CSIC), Madrid, Spain.

Network Center for Biomedical Research in Neurodegenerative Diseases (CIBERNED), Carlos III Institute of Health (ISCIII), Madrid, Spain.

出版信息

Mov Disord. 2020 Oct;35(10):1810-1821. doi: 10.1002/mds.28174. Epub 2020 Jul 9.

DOI:10.1002/mds.28174
PMID:32643147
Abstract

BACKGROUND

Dopamine transmission is involved in the maintenance of the structural plasticity of direct-pathway and indirect-pathway striatal projection neurons (d-SPNs and i-SPNs, respectively). The lack of dopamine in Parkinson's disease produces synaptic remodeling in both types of SPNs, reducing the length of the dendritic arbor and spine density and increasing the intrinsic excitability. Meanwhile, the elevation of dopamine levels by levodopa recovers these alterations selectively in i-SPNs. However, little is known about the specific role of the D1 receptor (D1R) in these alterations.

METHODS

To explore the specific role of D1R in the synaptic remodeling of SPNs, we used knockout D1R mice (D1R ) and wild-type mice crossed with drd2-enhanced green fluorescent protein (eGFP) to identify d-SPNs and i-SPNs. Corticostriatal slices were used for reconstruction of the dendritic arbors after Lucifer yellow intracellular injection and for whole-cell recordings in naïve and parkinsonian mice treated with saline or levodopa.

RESULTS

The genetic inactivation of D1R reduces the length of the dendritic tree and the spine density in all SPNs, although more so in d-SPNs, which also increases their spiking. In parkinsonian D1R mice, the spine density decreases in i-SPNs, and this spine loss recovers after chronic levodopa.

CONCLUSIONS

D1R is essential for the maintenance of spine plasticity in d-SPNs but also affects i-SPNs, indicating an important crosstalk between these 2 types of neurons. © 2020 International Parkinson and Movement Disorder Society.

摘要

背景

多巴胺传递参与维持直接通路和间接通路纹状体投射神经元(分别为 d-SPN 和 i-SPN)的结构可塑性。帕金森病中多巴胺的缺乏会导致这两种 SPN 的突触重塑,减少树突棘的长度和密度,增加内在兴奋性。同时,左旋多巴增加多巴胺水平选择性地恢复 i-SPN 中的这些改变。然而,关于 D1 受体(D1R)在这些改变中的具体作用知之甚少。

方法

为了探讨 D1R 在 SPN 突触重塑中的特定作用,我们使用了 D1R 敲除小鼠(D1R )和与 drd2 增强型绿色荧光蛋白(eGFP)杂交的野生型小鼠来识别 d-SPN 和 i-SPN。在给予生理盐水或左旋多巴的帕金森病小鼠中,使用皮质纹状体切片进行 Lucifer yellow 细胞内注射后的树突棘重建和在体全细胞记录。

结果

D1R 的基因失活减少了所有 SPN 的树突棘长度和密度,但 d-SPN 更为明显,其放电也增加。在帕金森病 D1R 小鼠中,i-SPN 的棘密度降低,这种棘突丢失在慢性左旋多巴治疗后恢复。

结论

D1R 对于 d-SPN 中棘突可塑性的维持是必不可少的,但也会影响 i-SPN,表明这两种神经元之间存在重要的串扰。© 2020 国际帕金森病和运动障碍学会。

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