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用于增强细胞迁移和黏附的三维多蛋白微结构的制备

Fabrication of three-dimensional multi-protein microstructures for cell migration and adhesion enhancement.

作者信息

Da Sie Yong, Li Yi-Cheng, Chang Nan-Shan, Campagnola Paul J, Chen Shean-Jen

机构信息

Department of Engineering Science, National Cheng Kung University, Tainan 701, Taiwan.

Department of Photonics, National Cheng Kung University, Tainan 701, Taiwan.

出版信息

Biomed Opt Express. 2015 Jan 12;6(2):480-90. doi: 10.1364/BOE.6.000480. eCollection 2015 Feb 1.

Abstract

In this study, three-dimensional (3D) multi-component microstructures were precisely fabricated via multiphoton excited photochemistry using a femtosecond laser direct-writing system with proposed repetition positioning and vector scanning techniques. Extracellular matrix (ECM) proteins, such as fibronectin (FN), are difficult to stack and form 3D structures larger than several-hundred microns in height due to the nature of their protein structure. Herein, to fabricate complex 3D microstructures with FN, a 3D scaffold was designed and formed from bovine serum albumin (BSA), after which human FN was inserted at specific locations on the BSA scaffold; in this manner, the fabricated ECM microstructure can guide cells in a 3D environment. A human breast cancer cell line, MDA-MB-231, was used to investigate the behavior of cell migration and adhesion on the fabricated human FN and BSA protein structures. Experimental results indicate that many cells are not able to attach or climb on a 3D structure's inclined plane without FN support; hence, the influence of cell growth in a 3D context with FN should being taken into consideration. This 3D multi-protein fabrication technique holds potential for cell studies in designed complex 3D ECM scaffolds.

摘要

在本研究中,利用具有所提出的重复定位和矢量扫描技术的飞秒激光直写系统,通过多光子激发光化学精确制造了三维(3D)多组分微观结构。细胞外基质(ECM)蛋白,如纤连蛋白(FN),由于其蛋白质结构的性质,难以堆叠并形成高度大于几百微米的3D结构。在此,为了用FN制造复杂的3D微观结构,设计并由牛血清白蛋白(BSA)形成了一个3D支架,之后将人FN插入到BSA支架上的特定位置;通过这种方式,制造的ECM微观结构可以在3D环境中引导细胞。使用人乳腺癌细胞系MDA-MB-231来研究细胞在制造的人FN和BSA蛋白质结构上的迁移和粘附行为。实验结果表明,许多细胞在没有FN支持的情况下无法附着或爬上3D结构的倾斜平面;因此,应考虑FN在3D环境中对细胞生长的影响。这种3D多蛋白制造技术在设计的复杂3D ECM支架中的细胞研究方面具有潜力。

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