空间微重力下细胞力学感知-传导的研究进展

Ran Tian; Xintong Wu; Lianwen Sun

doi:10.16156/j.1004-7220.2024.03.002

空间微重力下细胞力学感知-传导的研究进展

Ran Tian
, Xintong Wu
, Lianwen Sun^*

^*此作品的通讯作者

生物与医学工程学院

Beihang University

科研成果: 期刊稿件 › 文献综述 › 同行评审

摘要

On the earth, the majority of cellular functions are regulated by mechanical loads. The effects of cell response to mechanical loads under microgravity on the adaptive changes of physiological functions in space cannot be ignored. The cytoskeleton is widely considered as one of the key structures through which cells sense gravity variation and respond to mechanical loads. In this review, the research progress on the changes and mechanisms of the ‘cytoskeleton-LINC complex-nuclear lamina’ pathway in cellular mechanoperception and mechanotransmission under microgravity is summarized, and the future research is prospected.

投稿的翻译标题	Research Progress of Cellular Mechanoperception & Mechanotransmission under Space Microgravity
源语言	繁体中文
页（从-至）	387-392
页数	6
期刊	Yiyong Shengwu Lixue/Journal of Medical Biomechanics
卷	39
期	3
DOI	https://doi.org/10.16156/j.1004-7220.2024.03.002
出版状态	已出版 - 6月 2024

关键词

cytoskeleton
mechanoperception
mechanotransmission
space microgravity

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10.16156/j.1004-7220.2024.03.002

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AU - Wu, Xintong

AU - Sun, Lianwen

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N2 - On the earth, the majority of cellular functions are regulated by mechanical loads. The effects of cell response to mechanical loads under microgravity on the adaptive changes of physiological functions in space cannot be ignored. The cytoskeleton is widely considered as one of the key structures through which cells sense gravity variation and respond to mechanical loads. In this review, the research progress on the changes and mechanisms of the ‘cytoskeleton-LINC complex-nuclear lamina’ pathway in cellular mechanoperception and mechanotransmission under microgravity is summarized, and the future research is prospected.

AB - On the earth, the majority of cellular functions are regulated by mechanical loads. The effects of cell response to mechanical loads under microgravity on the adaptive changes of physiological functions in space cannot be ignored. The cytoskeleton is widely considered as one of the key structures through which cells sense gravity variation and respond to mechanical loads. In this review, the research progress on the changes and mechanisms of the ‘cytoskeleton-LINC complex-nuclear lamina’ pathway in cellular mechanoperception and mechanotransmission under microgravity is summarized, and the future research is prospected.

KW - cytoskeleton

KW - mechanoperception

KW - mechanotransmission

KW - space microgravity

UR - https://www.scopus.com/pages/publications/85199458822

U2 - 10.16156/j.1004-7220.2024.03.002

DO - 10.16156/j.1004-7220.2024.03.002

M3 - 文献综述

AN - SCOPUS:85199458822

SN - 1004-7220

VL - 39

SP - 387

EP - 392

JO - Yiyong Shengwu Lixue/Journal of Medical Biomechanics

JF - Yiyong Shengwu Lixue/Journal of Medical Biomechanics

IS - 3

ER -

空间微重力下细胞力学感知-传导的研究进展

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