小胶质细胞的结构和功能体内成像及其在健康和疾病中的应用进展。

Q3 Neuroscience Advances in neurobiology Pub Date : 2024-01-01 DOI:10.1007/978-3-031-55529-9_5
Alexis Crockett, Martin Fuhrmann, Olga Garaschuk, Dimitrios Davalos
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引用次数: 0

摘要

小胶质细胞是中枢神经系统(CNS)抵御损伤或疾病的第一道防线。长期以来,人们一直认为小胶质细胞处于休眠/静止状态,只对损伤或疾病做出反应。随着现代成像技术的发展,这种观点发生了巨大变化,现代成像技术可以研究小胶质细胞在完整大脑中的行为,揭示其反应的动态性质。在过去二十年里,使用多光子显微镜进行的体内成像揭示了小胶质细胞在发育中、成年、老年、受伤和患病的中枢神经系统中的许多新功能。作为大脑中最活跃的细胞,小胶质细胞不断接触所有结构和细胞类型,如胶质细胞和血管细胞、神经元细胞体、轴突、树突和树突棘,被认为在整个生命过程中扮演着构建神经元网络的核心角色。在创伤后、神经退行性疾病或神经炎症性疾病中,小胶质细胞的反应从保护性到有害性不等,这突出表明有必要更好地了解它们在不同病理条件下的不同作用和状态。在本章中,我们将介绍多光子显微镜,并讨论结构和功能成像技术的最新进展,这些技术扩展了我们的工具箱,使我们能以新的方式深入研究小胶质细胞的状态和行为。我们还讨论了可用于小胶质细胞体内成像研究的相关小鼠模型,并回顾了此类研究如何不断完善我们对小胶质细胞在健康和患病中枢神经系统中多方面作用的认识。
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Progress in Structural and Functional In Vivo Imaging of Microglia and Their Application in Health and Disease.

The first line of defense for the central nervous system (CNS) against injury or disease is provided by microglia. Microglia were long believed to stay in a dormant/resting state, reacting only to injury or disease. This view changed dramatically with the development of modern imaging techniques that allowed the study of microglial behavior in the intact brain over time, to reveal the dynamic nature of their responses. Over the past two decades, in vivo imaging using multiphoton microscopy has revealed numerous new functions of microglia in the developing, adult, aged, injured, and diseased CNS. As the most dynamic cells in the brain, microglia continuously contact all structures and cell types, such as glial and vascular cells, neuronal cell bodies, axons, dendrites, and dendritic spines, and are believed to play a central role in sculpting neuronal networks throughout life. Following trauma, or in neurodegenerative or neuroinflammatory diseases, microglial responses range from protective to harmful, underscoring the need to better understand their diverse roles and states in different pathological conditions. In this chapter, we introduce multiphoton microscopy and discuss recent advances in structural and functional imaging technologies that have expanded our toolbox to study microglial states and behaviors in new ways and depths. We also discuss relevant mouse models available for in vivo imaging studies of microglia and review how such studies are constantly refining our understanding of the multifaceted role of microglia in the healthy and diseased CNS.

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来源期刊
Advances in neurobiology
Advances in neurobiology Neuroscience-Neurology
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2.80
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