Mechanics of the cell: Interaction mechanisms and mechanobiological models.

4区 生物学 Q4 Biochemistry, Genetics and Molecular Biology
Current topics in membranes Pub Date : 2020-01-01 Epub Date: 2020-10-02 DOI:10.1016/bs.ctm.2020.09.001
Caleb Liebman, Andrew McColloch, Manoochehr Rabiei, Alan Bowling, Michael Cho
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引用次数: 6

Abstract

The importance of cell mechanics has long been recognized for the cell development and function. Biomechanics plays an important role in cell metabolism, regulation of mechanotransduction pathways and also modulation of nuclear response. The mechanical properties of the cell are likely determined by, among many others, the cytoskeleton elasticity, membrane tension and cell-substrate adhesion. This coordinated but complex mechanical interplay is required however, for the cell to respond to and influence in a reciprocal manner the chemical and mechanical signals from the extracellular matrix (ECM). In an effort to better and more fully understand the cell mechanics, the role of nuclear mechanics has emerged as an important contributor to the overall cellular mechanics. It is not too difficult to appreciate the physical connection between the nucleus and the cytoskeleton network that may be connected to the ECM through the cell membrane. Transmission of forces from ECM through this connection is essential for a wide range of cellular behaviors and functions such as cytoskeletal reorganization, nuclear movement, cell migration and differentiation. Unlike the cellular mechanics that can be measured using a number of biophysical techniques that were developed in the past few decades, it still remains a daunting challenge to probe the nuclear mechanics directly. In this paper, we therefore aim to provide informative description of the cell membrane and cytoskeleton mechanics, followed by unique computational modeling efforts to elucidate the nucleus-cytoskeleton coupling. Advances in our knowledge of complete cellular biomechanics and mechanotransduction may lead to clinical relevance and applications in mechano-diseases such as atherosclerosis, stem cell-based therapies, and the development of tissue engineered products.

细胞力学:相互作用机制和力学生物学模型。
细胞力学对细胞发育和功能的重要性早已被认识到。生物力学在细胞代谢、机械转导途径调控和核反应调控中起着重要作用。细胞的机械性能可能是由细胞骨架弹性、膜张力和细胞-底物粘附等因素决定的。然而,这种协调但复杂的机械相互作用是细胞对来自细胞外基质(ECM)的化学和机械信号作出反应和相互影响所必需的。为了更好和更全面地理解细胞力学,核力学的作用已经成为整个细胞力学的重要组成部分。不难理解细胞核和细胞骨架网络之间的物理联系,细胞骨架网络可能通过细胞膜连接到ECM。通过这种连接传递来自ECM的力对于细胞骨架重组、核运动、细胞迁移和分化等广泛的细胞行为和功能至关重要。与过去几十年来发展起来的一些生物物理技术可以测量的细胞力学不同,直接探测核力学仍然是一个艰巨的挑战。因此,在本文中,我们的目标是提供细胞膜和细胞骨架力学的信息描述,然后通过独特的计算建模努力来阐明核-细胞骨架耦合。我们在完整细胞生物力学和力学转导方面的知识的进步可能会导致临床相关性和应用于机械疾病,如动脉粥样硬化、干细胞治疗和组织工程产品的开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Current topics in membranes
Current topics in membranes 生物-生化与分子生物学
CiteScore
3.50
自引率
0.00%
发文量
10
审稿时长
>12 weeks
期刊介绍: Current Topics in Membranes provides a systematic, comprehensive, and rigorous approach to specific topics relevant to the study of cellular membranes. Each volume is a guest edited compendium of membrane biology.
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