α-突触核蛋白寡聚体可增强神经炎性 NF-κB 活性并诱导星形胶质细胞中的 Cav3.2 钙信号转导。

IF 10.8 1区 医学 Q1 NEUROSCIENCES Translational Neurodegeneration Pub Date : 2024-02-21 DOI:10.1186/s40035-024-00401-4
Emmanouela Leandrou, Ioanna Chalatsa, Dimitrios Anagnostou, Christina Machalia, Maria Semitekolou, Vicky Filippa, Manousos Makridakis, Antonia Vlahou, Ema Anastasiadou, Kostas Vekrellis, Evangelia Emmanouilidou
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引用次数: 0

摘要

背景:现在人们意识到,帕金森病(PD)的病理范围超出了黑质,影响到中枢和周围神经系统,并表现出各种非运动症状,这些症状往往出现在运动特征之前。活化的小胶质细胞和星形胶质细胞诱发的神经炎症被认为是这些表现的基础。α-突触核蛋白聚集与帕金森病的持续神经炎症有关,会加重神经元变性;然而,目前仍缺乏有关激活小胶质细胞和/或星形胶质细胞的α-突触核蛋白构象的结构特性以及相关分子途径的关键信息:为了研究α-突触核蛋白构象在神经炎症的发展和维持中的作用,我们使用了原代静止小胶质细胞和星形胶质细胞、帕金森病患者的死后脑组织以及A53T α-突触核蛋白转基因小鼠,这些小鼠在没有细胞死亡的情况下再现了帕金森病相关炎症反应的关键特征,即促炎细胞因子和补体蛋白水平的升高。生化和组学技术包括RNAseq和分泌组学分析,结合单个星形胶质细胞的三维重建和活体钙成像,用于揭示体内和体外α-突触核蛋白寡聚体存在时神经胶质反应的分子机制:我们发现,抗 SDS 超磷酸化 α-突触核蛋白寡聚体(而非单体)的存在与持续的炎症反应相关,如内源性抗体和细胞因子水平升高以及微胶质细胞活化。在帕金森病患者的尸检人脑样本中也发现了类似的α-突触核蛋白低聚物,但对照组没有发现。详细分析显示,Iba1Low/CD68Low 小胶质细胞减少,星形胶质细胞的数量和形态发生了显著变化,包括过程回缩。我们的数据表明,p38/ATF2 信号通路主要在小胶质细胞中被激活,而在 A53T 小鼠的星形胶质细胞中,NF-κB 通路被持续诱导。持续的NF-κB活性引发了星形胶质细胞T型Cav3.2 Ca2+通道的上调,改变了星形胶质细胞的分泌组并促进了IGFBPL1的分泌,IGFBPL1是一种具有抗炎和神经保护潜力的IGF-1结合蛋白:我们的研究证实了神经元产生的α-突触核蛋白寡聚体与体内持续神经炎症之间的因果关系,并绘制了刺激小胶质细胞和星形胶质细胞的信号通路。该研究还强调了星形胶质细胞 Cav3.2 通道的招募是一种潜在的神经保护介质,可抵御α-突触核蛋白诱导的神经炎症。
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α-Synuclein oligomers potentiate neuroinflammatory NF-κB activity and induce Cav3.2 calcium signaling in astrocytes.

Background: It is now realized that Parkinson's disease (PD) pathology extends beyond the substantia nigra, affecting both central and peripheral nervous systems, and exhibits a variety of non-motor symptoms often preceding motor features. Neuroinflammation induced by activated microglia and astrocytes is thought to underlie these manifestations. α-Synuclein aggregation has been linked with sustained neuroinflammation in PD, aggravating neuronal degeneration; however, there is still a lack of critical information about the structural identity of the α-synuclein conformers that activate microglia and/or astrocytes and the molecular pathways involved.

Methods: To investigate the role of α-synuclein conformers in the development and maintenance of neuroinflammation, we used primary quiescent microglia and astrocytes, post-mortem brain tissues from PD patients and A53T α-synuclein transgenic mice that recapitulate key features of PD-related inflammatory responses in the absence of cell death, i.e., increased levels of pro-inflammatory cytokines and complement proteins. Biochemical and -omics techniques including RNAseq and secretomic analyses, combined with 3D reconstruction of individual astrocytes and live calcium imaging, were used to uncover the molecular mechanisms underlying glial responses in the presence of α-synuclein oligomers in vivo and in vitro.

Results: We found that the presence of SDS-resistant hyper-phosphorylated α-synuclein oligomers, but not monomers, was correlated with sustained inflammatory responses, such as elevated levels of endogenous antibodies and cytokines and microglial activation. Similar oligomeric α-synuclein species were found in post-mortem human brain samples of PD patients but not control individuals. Detailed analysis revealed a decrease in Iba1Low/CD68Low microglia and robust alterations in astrocyte number and morphology including process retraction. Our data indicated an activation of the p38/ATF2 signaling pathway mostly in microglia and a sustained induction of the NF-κB pathway in astrocytes of A53T mice. The sustained NF-κB activity triggered the upregulation of astrocytic T-type Cav3.2 Ca2+ channels, altering the astrocytic secretome and promoting the secretion of IGFBPL1, an IGF-1 binding protein with anti-inflammatory and neuroprotective potential.

Conclusions: Our work supports a causative link between the neuron-produced α-synuclein oligomers and sustained neuroinflammation in vivo and maps the signaling pathways that are stimulated in microglia and astrocytes. It also highlights the recruitment of astrocytic Cav3.2 channels as a potential neuroprotective mediator against the α-synuclein-induced neuroinflammation.

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来源期刊
Translational Neurodegeneration
Translational Neurodegeneration Neuroscience-Cognitive Neuroscience
CiteScore
19.50
自引率
0.80%
发文量
44
审稿时长
10 weeks
期刊介绍: Translational Neurodegeneration, an open-access, peer-reviewed journal, addresses all aspects of neurodegenerative diseases. It serves as a prominent platform for research, therapeutics, and education, fostering discussions and insights across basic, translational, and clinical research domains. Covering Parkinson's disease, Alzheimer's disease, and other neurodegenerative conditions, it welcomes contributions on epidemiology, pathogenesis, diagnosis, prevention, drug development, rehabilitation, and drug delivery. Scientists, clinicians, and physician-scientists are encouraged to share their work in this specialized journal tailored to their fields.
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