机械转化
粘弹性
细胞外基质
应力松弛
弹性(物理)
机械生物学
材料科学
牵引(地质)
弹性模量
放松(心理学)
生物物理学
纳米技术
细胞生物学
生物
复合材料
神经科学
古生物学
蠕动
作者
Ovijit Chaudhuri,Luo Gu,Max Darnell,Darinka D. Klumpers,Sidi A. Bencherif,James C. Weaver,Nathaniel Huebsch,David Mooney
摘要
Studies of cellular mechanotransduction have converged upon the idea that cells sense extracellular matrix (ECM) elasticity by gauging resistance to the traction forces they exert on the ECM. However, these studies typically utilize purely elastic materials as substrates, whereas physiological ECMs are viscoelastic, and exhibit stress relaxation, so that cellular traction forces exerted by cells remodel the ECM. Here we investigate the influence of ECM stress relaxation on cell behaviour through computational modelling and cellular experiments. Surprisingly, both our computational model and experiments find that spreading for cells cultured on soft substrates that exhibit stress relaxation is greater than cells spreading on elastic substrates of the same modulus, but similar to that of cells spreading on stiffer elastic substrates. These findings challenge the current view of how cells sense and respond to the ECM.
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