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Dynamic Quantitative Visualization of Single Cell Alignment and Migration and Matrix Remodeling in 3-D Collagen Hydrogels under Mechanical Force

机译：三维胶原水凝胶在机械力下的单细胞对准和迁移和基质重塑的动态定量可视化

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摘要

We developed a live imaging system enabling dynamic visualization of single cell alignment induced by external mechanical force in a 3-D collagen matrix. The alignment dynamics and migration of smooth muscle cells (SMCs) were studied by time lapse differential interference contrast and /or phase contrast microscopy. Fluorescent and reflection confocal microcopy were used to study the SMC morphology and the microscale collagen matrix remodeling induced by SMCs. A custom developed program was used to quantify the cell migration and matrix remodeling. Our system enables cell concentration-independent alignment eliminating cell-to-cell interference and enables dynamic cell tracking, high magnification observation and rapid cell alignment accomplished in a few hours compared to days in traditional models. We observed that cells sense and response to the mechanical signal before cell spreading. Under mechanical stretch the migration directionality index of SMCs is 46.3% more than those cells without external stretch; the dynamic direction of cell protrusion is aligned to that of the mechanical force; SMCs showed directional matrix remodeling and the alignment index calculated from the matrix in front of cell protrusions is about 3 fold of that adjacent to cell bodies. Our results indicate that the mechanism of cell alignment is directional cell protrusion. Mechano-sensing, directionality in cell protrusion dynamics, cell migration and matrix remodeling are highly integrated. Our system provides a platform for studying the role of mechanical force on the cell matrix interactions and thus find strategies to optimize selected properties of engineered tissues.

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期刊名称 other
作者
Yonggang Pang; Xiaoli Wang; Dongkeun Lee; Howard P. Greisler;
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作者单位

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年(卷),期 -1(32),15
年度 -1
页码 3776–3783
总页数 17
原文格式 PDF
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中图分类
关键词
Molecular imaging Cell signaling ECM Confocal microscopy Collagen Smooth muscle cell;

机译：分子成像;细胞信号传导;ECM;共聚焦显微镜;胶原蛋白;平滑肌细胞;

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专利

1. Dynamic quantitative visualization of single cell alignment and migration and matrix remodeling in 3-D collagen hydrogels under mechanical force. [J] . Pang Y, Wang X, Lee D, Biomaterials . 2011,第15期

机译：动态定量可视化在机械力作用下3-D胶原水凝胶中单细胞排列和迁移以及基质重塑。
2. Quantitative analysis of 3D extracellular matrix remodelling by pancreatic stellate cells Quantitative analysis of 3D extracellular matrix remodelling by pancreatic stellate cells Quantitative analysis of 3D extracellular matrix remodelling by pancreatic stellate cells [J] . Ernesto Cortes, Benjamin K. Robinson, Alistair J. Rice, Biology Open . 2016,第6期

机译：胰腺星状细胞对3D细胞外基质重塑的定量分析胰腺星状细胞对3D细胞外基质重塑的定量分析
3. Quantitative analysis of 3D extracellular matrix remodelling by pancreatic stellate cells Quantitative analysis of 3D extracellular matrix remodelling by pancreatic stellate cells Quantitative analysis of 3D extracellular matrix remodelling by pancreatic stellate cells [J] . Ernesto Cortes, Benjamin K. Robinson, Alistair J. Rice, Biology Open . 2016,第6期

机译：胰腺星状细胞对3D细胞外基质重塑的定量分析胰腺星状细胞对3D细胞外基质重塑的定量分析
4. The effects of frequency on matrix remodeling induced in dynamically strained collagen-based cellularised scaffolds [C] . Lucie Levesque, Caroline Loy, Audrey Laine, World biomaterials congress . 2016

机译：频率对动态应变胶原基细胞化支架诱导的基质重塑的影响
5. Fabrication and Mechanical Characterization of Microstructurally-Complex Collagen Hydrogels for In Vitro Studies of Cancer Interactions with Extracellular Matrix [D] . Yousof, Manal Ali. 2018

机译：微结构复杂的胶原蛋白水凝胶的制备和力学表征，用于体外与细胞外基质相互作用的癌症研究
6. Quantitative Assessment of Local Collagen Matrix Remodeling in 3-D Culture: The Role of Rho Kinase [O] . Areum Kim, Neema Lakshman, W.Matthew Petroll -1

机译：定量评估3-D文化中的局部胶原基质重塑：Rho激酶的作用。
7. Dynamic quantitative visualization of single cell alignment and migration and matrix remodeling in 3-D collagen hydrogels under mechanical force [O] . Yonggang Pang, Xiaoli Wang, Dongkeun Lee, 2011

机译：三维胶原水凝胶在机械力下的单细胞对准和迁移和基质重塑的动态定量可视化

Dynamic Quantitative Visualization of Single Cell Alignment and Migration and Matrix Remodeling in 3-D Collagen Hydrogels under Mechanical Force

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