Circadian Control of Glial Cell Homeodynamics.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2022-12-01 DOI:10.1177/07487304221120966
Daniela Rojo, Anna Badner, Erin M Gibson
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引用次数: 1

Abstract

The molecular mechanisms that maintain circadian rhythms in mammalian as well as non-mammalian systems are well documented in neuronal populations but comparatively understudied in glia. Glia are highly dynamic in form and function, and the circadian clock provides broad dynamic ranges for the maintenance of this homeostasis, thus glia are key to understanding the role of circadian biology in brain function. Here, we highlight the implications of the molecular circadian clock on the homeodynamic nature of glia, underscoring the current gap in understanding the role of the circadian system in oligodendroglia lineage cells and subsequent myelination. Through this perspective, we will focus on the intersection of circadian and glial biology and how it interfaces with global circadian rhythm maintenance associated with normative and aberrant brain function.

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神经胶质细胞动态的昼夜节律控制。
在哺乳动物和非哺乳动物系统中,维持昼夜节律的分子机制在神经元群体中得到了很好的记录,但在胶质细胞中研究相对较少。神经胶质细胞在形态和功能上都是高度动态的,而生物钟为维持这种内稳态提供了广泛的动态范围,因此神经胶质细胞是理解昼夜节律生物学在脑功能中的作用的关键。在这里,我们强调了分子昼夜节律钟对胶质细胞动态特性的影响,强调了目前在理解昼夜节律系统在少突胶质细胞谱系细胞和随后的髓鞘形成中的作用方面的差距。通过这一视角,我们将重点关注昼夜节律和神经胶质生物学的交叉,以及它如何与与正常和异常脑功能相关的全球昼夜节律维持相关联。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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