Fetal dermal fibroblasts retain a hyperactive migratory and contractile phenotype under 2-and 3-dimensional constraints compared to normal adult fibroblasts.

Vlad C Sandulache, Aron Parekh, Joseph E Dohar, Patricia A Hebda
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引用次数: 29

Abstract

Fetal dermal fibroblasts participate in a dramatically different wound healing process compared to their adult counterparts, and it is thought that their intrinsic phenotype contributes to the unique properties of fetal repair. In particular, fibroblast migratory and contractile properties have been shown to be important in the development or lack of fibrosis/scarring. Despite extensive study to date, and multiple experimental techniques utilized by various laboratories, the precise differences between fetal and adult dermal fibroblasts remain unclear. We characterized the migratory and contractile dynamics of fetal dermal fibroblasts at the individual cell and population levels under both 2-dimensional (2D) and 3-dimensional (3D) constraints. Data indicate that (1) individual fetal fibroblasts attach and locomote quicker than adult fibroblasts, resulting in faster migration at the population level; (2) use of a 2D bioactive matrix (collagen) dramatically speeds up the transition from attachment to locomotion; and (3) fetal fibroblasts compact 2D collagen matrices faster than adult fibroblasts. These characteristics are maintained inside of a novel 3D construct, which approximates some in vivo tissue repair dynamics. Specifically, fetal fibroblasts invade this construct faster than adult fibroblasts, likely through more dynamic interactions with surrounding collagen fibers. In conclusion, the hyperactive migratory and contractile dynamics of fetal fibroblasts are qualitatively and quantitatively conserved despite transitions from individual cells to whole populations and from 2D to 3D constraints. We conclude that fetal fibroblasts display a robust phenotype, which is only partially altered by changes in substrate and geometric constraints. This phenotype likely is important in dictating the dynamics of fetal tissue repair.

与正常成人成纤维细胞相比,胎儿真皮成纤维细胞在二维和三维约束下保持着过度活跃的迁移和收缩表型。
与成人皮肤成纤维细胞相比,胎儿皮肤成纤维细胞参与了一个截然不同的伤口愈合过程,人们认为它们的内在表型有助于胎儿修复的独特特性。特别是,成纤维细胞的迁移和收缩特性已被证明在纤维化/疤痕的发展或缺乏中是重要的。尽管迄今为止进行了广泛的研究,各种实验室使用了多种实验技术,但胎儿和成人真皮成纤维细胞之间的确切差异仍不清楚。我们在二维(2D)和三维(3D)约束下,在单个细胞和群体水平上表征了胎儿真皮成纤维细胞的迁移和收缩动力学。数据表明:(1)个体胎儿成纤维细胞比成人成纤维细胞附着和移动更快,导致群体水平上的迁移更快;(2)二维生物活性基质(胶原蛋白)的使用显著加快了从附着到运动的转变;(3)胎儿成纤维细胞致密2D胶原基质的速度比成人成纤维细胞快。这些特征保持在一个新的3D结构内部,它近似于一些体内组织修复动力学。具体来说,胎儿成纤维细胞比成人成纤维细胞侵入这种结构的速度更快,可能是通过与周围胶原纤维更动态的相互作用。总之,尽管从单个细胞到整个群体以及从2D到3D的限制,胎儿成纤维细胞的过度活跃的迁移和收缩动力学在质量和数量上是保守的。我们得出结论,胎儿成纤维细胞显示出强大的表型,这只是部分改变底物和几何约束的变化。这种表型在决定胎儿组织修复的动力学方面可能是重要的。
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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Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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