在切应力下，肽微图案对内皮细胞肌动蛋白重排以实现细胞取向的影响。

Impact of peptide micropatterning on endothelial cell actin remodeling for cell alignment under shear stress.

机构信息

Bioingénierie Tissulaire, Université Bordeaux, U1026, F-33000 Bordeaux, France.

出版信息

Macromol Biosci. 2012 Dec;12(12):1648-59. doi: 10.1002/mabi.201200167. Epub 2012 Nov 21.

DOI:10.1002/mabi.201200167

Abstract

HSVEC behavior under physiological shear stress in vitro is investigated on PET surfaces micropatterned with both RGDS and WQPPRARI peptides. This technique allows (i) creating geometries on surface to guide cell orientation under shear stress and (ii) controlling surface chemical composition in order to modulate cell behavior. Under shear stress, endothelial cells adhere on patterned PET surfaces and present a more rapid orientation in flow direction in comparison to cells cultured on homogeneous surfaces. Micropatterned surfaces presenting a large surface area ratio of RGDS/WQPPRARI peptides induce fibrillar adhesion, while surfaces presenting an equal RGDS/WQPPRARI peptides surface area ratio preferentially induce focal adhesion.

摘要

在体外生理切应力下，研究了 RGDS 和 WQPPRARI 肽双图案化 PET 表面上 HSVEC 的行为。该技术允许：（i）在表面上创建几何形状以在切应力下引导细胞取向；（ii）控制表面化学成分以调节细胞行为。在切应力下，内皮细胞在图案化的 PET 表面上黏附，并与在均质表面上培养的细胞相比，更快地朝向流动方向取向。呈现出 RGDS/WQPPRARI 肽大的表面面积比的微图案化表面诱导纤维状黏附，而呈现出相等 RGDS/WQPPRARI 肽表面面积比的表面则优先诱导局灶黏附。

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在切应力下，肽微图案对内皮细胞肌动蛋白重排以实现细胞取向的影响。

Impact of peptide micropatterning on endothelial cell actin remodeling for cell alignment under shear stress.

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在切应力下，肽微图案对内皮细胞肌动蛋白重排以实现细胞取向的影响。

Impact of peptide micropatterning on endothelial cell actin remodeling for cell alignment under shear stress.

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