β-血影蛋白和tau蛋白中的基因缺陷通过扭矩-张力耦合使轴突对运动诱导的损伤敏感。

Genetic defects in β-spectrin and tau sensitize axons to movement-induced damage via torque-tension coupling.

作者信息

Krieg Michael, Stühmer Jan, Cueva Juan G, Fetter Richard, Spilker Kerri, Cremers Daniel, Shen Kang, Dunn Alexander R, Goodman Miriam B

机构信息

Department of Molecular and Cellular Physiology, Stanford University, Stanford, United States.

Department of Chemical Engineering, Stanford University, Stanford, United States.

出版信息

Elife. 2017 Jan 18;6:e20172. doi: 10.7554/eLife.20172.

DOI:10.7554/eLife.20172

PMID:28098556

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5298879/

Abstract

Our bodies are in constant motion and so are the neurons that invade each tissue. Motion-induced neuron deformation and damage are associated with several neurodegenerative conditions. Here, we investigated the question of how the neuronal cytoskeleton protects axons and dendrites from mechanical stress, exploiting mutations in UNC-70 β-spectrin, PTL-1 tau/MAP2-like and MEC-7 β-tubulin proteins in We found that mechanical stress induces supercoils and plectonemes in the sensory axons of spectrin and tau double mutants. Biophysical measurements, super-resolution, and electron microscopy, as well as numerical simulations of neurons as discrete, elastic rods provide evidence that a balance of torque, tension, and elasticity stabilizes neurons against mechanical deformation. We conclude that the spectrin and microtubule cytoskeletons work in combination to protect axons and dendrites from mechanical stress and propose that defects in β-spectrin and tau may sensitize neurons to damage.

摘要

我们的身体处于持续运动中，侵入每个组织的神经元也是如此。运动引起的神经元变形和损伤与多种神经退行性疾病有关。在这里，我们利用线虫中UNC-70β-血影蛋白、PTL-1 tau/MAP2样蛋白和MEC-7β-微管蛋白的突变，研究了神经元细胞骨架如何保护轴突和树突免受机械应力的问题。我们发现，机械应力会在血影蛋白和tau双突变体的感觉轴突中诱导超螺旋和麻花状结构。生物物理测量、超分辨率和电子显微镜，以及将神经元模拟为离散弹性杆的数值模拟，都提供了证据，表明扭矩、张力和弹性的平衡可使神经元稳定，防止其发生机械变形。我们得出结论，血影蛋白和微管细胞骨架共同作用，保护轴突和树突免受机械应力，并提出β-血影蛋白和tau的缺陷可能会使神经元对损伤敏感。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/413f/5298879/30dad8e044d1/elife-20172-fig1.jpg

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β-血影蛋白和tau蛋白中的基因缺陷通过扭矩-张力耦合使轴突对运动诱导的损伤敏感。

Genetic defects in β-spectrin and tau sensitize axons to movement-induced damage via torque-tension coupling.

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