星形胶质细胞在反应性和疾病中的老化机制

IF 14.9 1区医学 Q1 NEUROSCIENCES

Molecular Neurodegeneration Pub Date : 2025-02-21 DOI:10.1186/s13024-025-00810-7

Holly K. Gildea, Shane A. Liddelow

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引用次数: 0

摘要

正常的衰老会改变大脑的功能和表型。然而，目前还不清楚星形胶质细胞是如何受到衰老的影响的，也不清楚它们是如何随着生物体衰老而导致神经元功能障碍和疾病风险的。在这里，我们研究了正常衰老过程中星形胶质细胞的转录、细胞生物学和功能差异。基线的星形胶质细胞是异质的，对环境有反应，是脑微环境和神经元功能的关键调节因子。随着年龄的增长，星形胶质细胞进入不同的免疫相关和衰老相关状态，这些状态与细胞器功能障碍和稳态维持丧失有关，包括细胞自主和非细胞自主。这些受干扰的状态与年龄相关的功能障碍和神经退行性疾病的发生越来越相关，这表明星形胶质细胞衰老是未来预防疾病操作的一个引人注目的目标。

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Mechanisms of astrocyte aging in reactivity and disease

Normal aging alters brain functions and phenotypes. However, it is not well understood how astrocytes are impacted by aging, nor how they contribute to neuronal dysfunction and disease risk as organisms age. Here, we examine the transcriptional, cell biology, and functional differences in astrocytes across normal aging. Astrocytes at baseline are heterogenous, responsive to their environments, and critical regulators of brain microenvironments and neuronal function. With increasing age, astrocytes adopt different immune-related and senescence-associated states, which relate to organelle dysfunction and loss of homeostasis maintenance, both cell autonomously and non-cell autonomously. These perturbed states are increasingly associated with age-related dysfunction and the onset of neurodegeneration, suggesting that astrocyte aging is a compelling target for future manipulation in the prevention of disease.

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来源期刊

Molecular Neurodegeneration 医学-神经科学

CiteScore

23.00

自引率

4.60%

发文量

审稿时长

6-12 weeks

期刊介绍： Molecular Neurodegeneration, an open-access, peer-reviewed journal, comprehensively covers neurodegeneration research at the molecular and cellular levels. Neurodegenerative diseases, such as Alzheimer's, Parkinson's, Huntington's, and prion diseases, fall under its purview. These disorders, often linked to advanced aging and characterized by varying degrees of dementia, pose a significant public health concern with the growing aging population. Recent strides in understanding the molecular and cellular mechanisms of these neurodegenerative disorders offer valuable insights into their pathogenesis.