Evaluation of in vitro fibroblast migration by electrospun triple-layered PU-CA/gelatin.PRGF/PU-CA scaffold using an AAVS1 targeted EGFP reporter cell line

BioImpacts : BI Pub Date : 2021-08-30 DOI:10.34172/bi.2021.43

F. Shams, H. Moravvej, S. Hosseinzadeh, B. Kazemi, Masoumrh Rajabibazl, A. Rahimpour

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引用次数: 3

Abstract

Introduction: Migration of fibroblast cells in wound areas is a critical aspect of the wound healing process. Employment of enhanced green fluorescent protein (EGFP) labeled fibroblast cells facilitates real-time monitoring and functional evaluation of these cells in both in vitro and in vivo settings. Plasma rich in growth factor (PRGF) is a potent accelerator of wound healing; therefore, in this study, a novel method to fabricate an electrospun bioactive scaffold containing PRGF was employed to induce in vitro cell proliferation and migration. Methods: First, the EGFP reporter gene was integrated into the AAVS1 locus of fibroblast cells using CRISPR/Cas9 system. Then, PRGF was obtained from platelet-rich plasma, and a multi-layered scaffold was fabricated using polyurethane-cellulose acetate (PU-CA) fibers as the outer layers and PRGF-containing gelatin fibers were located in the internal layer like a central strip. Scanning electron microscopy (SEM), tensile, water contact angle, and FTIR tests were performed to assess the characteristics of the scaffolds. The EGFP targeted cells were cultured on scaffolds with or without PRGF to investigate their viability, toxicity, and migration pattern in response to the release profile. Results: Fluorescence images showed that the number of migrating cells on scaffold containing PRGF was more significant than PU-CA scaffold up to day 6. Increased expression of SGPL1, DDR2, and VEGF genes was also observed on the scaffold containing PRGF compared to PU-CA using real-time polymerase chain reaction (PCR) analysis with around 3-, 2-, and 2-fold enhancement, respectively. Conclusion: The current scaffold provides the appropriate template for cell attachment and migration. In addition, the present results highlight the potential of reporter gene targeting for the in vitro analysis of biological processes such as migration.

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电纺丝三层PU-CA/明胶对成纤维细胞体外迁移的影响。使用AAVS1靶向EGFP报告细胞系的PRGF/PU-CA支架

创面成纤维细胞的迁移是创面愈合过程的一个关键方面。使用增强型绿色荧光蛋白(EGFP)标记的成纤维细胞有助于在体外和体内对这些细胞进行实时监测和功能评估。血浆中富含生长因子(PRGF)是一种有效的伤口愈合加速器;因此，本研究采用一种新的方法制备含有PRGF的电纺丝生物活性支架，以诱导体外细胞增殖和迁移。方法:首先，利用CRISPR/Cas9系统将EGFP报告基因整合到成纤维细胞AAVS1位点;然后，从富含血小板的血浆中获得PRGF，并以聚氨酯-醋酸纤维素(PU-CA)纤维为外层，含PRGF的明胶纤维位于内层，形成中心条状的多层支架。通过扫描电镜(SEM)、拉伸、水接触角和红外光谱(FTIR)测试来评估支架的特性。EGFP靶向细胞在有或不含PRGF的支架上培养，研究其活性、毒性和迁移模式对释放谱的响应。结果:荧光图像显示，到第6天，PRGF支架上的迁移细胞数量明显多于PU-CA支架。通过实时聚合酶链反应(real-time polymerase chain reaction, PCR)分析，在含有PRGF的支架上，与PU-CA相比，SGPL1、DDR2和VEGF基因的表达也增加了，分别增加了约3倍、2倍和2倍。结论:现有支架为细胞附着和迁移提供了合适的模板。此外，目前的结果强调了报告基因靶向在生物过程(如迁移)的体外分析中的潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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