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纹状体星形胶质细胞的化学遗传学调控改善小鼠帕金森病运动障碍

Chemogenetic Control of Striatal Astrocytes Improves Parkinsonian Motor Deficits in Mice.

作者信息

Evans Wesley R, Baskar Sindhuja S, Vellore Angelica, Costa Ana Raquel Castro E, Jacob Cynthia, Ravoori Sanya, Arigbe Abimbola, Huda Rafiq

机构信息

WM Keck Center for Collaborative Neuroscience, Department of Cell Biology and Neuroscience, Rutgers University, Piscataway, New Jersey, USA.

出版信息

Glia. 2025 Jun;73(6):1188-1202. doi: 10.1002/glia.24679. Epub 2025 Feb 4.

DOI:10.1002/glia.24679
PMID:39902809
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12012328/
Abstract

Parkinson's disease (PD) is characterized by the degeneration of dopaminergic nigrostriatal inputs, which causes striatal network dysfunction and leads to pronounced motor deficits. Recent evidence highlights astrocytes as a potential local source for striatal neuromodulation. There is substantial evidence for norepinephrine-mediated recruitment of cortical astrocyte activity during movement and locomotion. However, it is unclear how astrocytes in the striatum, a region devoid of norepinephrine neuromodulatory inputs, respond during locomotion. Moreover, it remains unknown how dopamine loss affects striatal astrocyte activity and whether astrocyte activity regulates behavioral deficits in PD. We addressed these questions by performing astrocyte-specific calcium recordings and manipulations using in vivo fiber photometry and chemogenetics. We find that locomotion elicits astrocyte calcium activity over a slower timescale than neurons. Acute pharmacological blockade of dopamine receptors only moderately reduced locomotion-related astrocyte activity. Yet, unilateral dopamine depletion significantly attenuated astrocyte calcium responses. Chemogenetic stimulation of G-coupled receptors partially improved this functional astrocyte deficit in dopamine-lesioned mice. In parallel, chemogenetic manipulation restored asymmetrical motor deficits and moderately improved open-field exploratory behavior. Together, our results establish a novel role for functional striatal astrocyte signaling in modulating motor function in PD and highlight non-neuronal targets for potential PD therapeutics.

摘要

帕金森病(PD)的特征是多巴胺能黑质纹状体传入纤维发生退化,这会导致纹状体网络功能障碍并引发明显的运动缺陷。最近的证据表明,星形胶质细胞是纹状体神经调节的潜在局部来源。有大量证据表明,去甲肾上腺素在运动和移动过程中介导了皮质星形胶质细胞活动的募集。然而,尚不清楚纹状体中缺乏去甲肾上腺素神经调节输入的星形胶质细胞在运动过程中如何做出反应。此外,多巴胺缺失如何影响纹状体星形胶质细胞活动以及星形胶质细胞活动是否调节帕金森病中的行为缺陷仍不清楚。我们通过使用体内光纤光度法和化学遗传学进行星形胶质细胞特异性钙记录和操作来解决这些问题。我们发现,与神经元相比,运动在更长的时间尺度上引发星形胶质细胞钙活动。多巴胺受体的急性药理学阻断仅适度降低了与运动相关的星形胶质细胞活动。然而,单侧多巴胺耗竭显著减弱了星形胶质细胞钙反应。对G偶联受体的化学遗传学刺激部分改善了多巴胺损伤小鼠中这种功能性星形胶质细胞缺陷。同时,化学遗传学操作恢复了不对称运动缺陷并适度改善了旷场探索行为。总之,我们的结果确立了功能性纹状体星形胶质细胞信号在调节帕金森病运动功能中的新作用,并突出了潜在帕金森病治疗的非神经元靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/28cb/12012328/a033d677ed11/GLIA-73-1188-g007.jpg
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