Integrating Chemistry and Mechanics: The Forces Driving Axon Growth.

IF 11.4 1区 生物学 Q1 CELL BIOLOGY
Kristian Franze
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引用次数: 44

Abstract

The brain is our most complex organ. During development, neurons extend axons, which may grow over long distances along well-defined pathways to connect to distant targets. Our current understanding of axon pathfinding is largely based on chemical signaling by attractive and repulsive guidance cues. These cues instruct motile growth cones, the leading tips of growing axons, where to turn and where to stop. However, it is not chemical signals that cause motion-motion is driven by forces. Yet our current understanding of the mechanical regulation of axon growth is very limited. In this review, I discuss the origin of the cellular forces controlling axon growth and pathfinding, and how mechanical signals encountered by growing axons may be integrated with chemical signals. This mechanochemical cross talk is an important but often overlooked aspect of cell motility that has major implications for many physiological and pathological processes involving neuronal growth.

整合化学和力学:驱动轴突生长的力量。
大脑是我们最复杂的器官。在发育过程中,神经元延伸轴突,轴突可以沿着明确的路径生长很长一段距离,连接到远处的目标。我们目前对轴突寻路的理解主要是基于吸引和排斥引导线索的化学信号。这些信号指示活动的生长锥,即轴突生长的尖端,在哪里转弯,在哪里停止。然而,不是化学信号引起运动——运动是由力驱动的。然而,我们目前对轴突生长的机械调节的理解非常有限。在这篇综述中,我讨论了控制轴突生长和寻路的细胞力的起源,以及生长轴突遇到的机械信号如何与化学信号相结合。这种机械化学串扰是细胞运动的一个重要但经常被忽视的方面,它对涉及神经元生长的许多生理和病理过程具有重要影响。
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来源期刊
CiteScore
19.50
自引率
0.00%
发文量
21
期刊介绍: The Annual Review of Cell and Developmental Biology, established in 1985, comprehensively addresses major advancements in cell and developmental biology. Encompassing the structure, function, and organization of cells, as well as the development and evolution of cells in relation to both single and multicellular organisms, the journal explores models and tools of molecular biology. As of the current volume, the journal has transitioned from gated to open access through Annual Reviews' Subscribe to Open program, making all articles published under a CC BY license.
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