仅在胶原蛋白层上生成人表皮结构。

Federica Riva, Andrea Casasco, Emanuele Nespoli, Antonia Icaro Cornaglia, Marco Casasco, Angela Faga, Silvia Scevola, Giuliano Mazzini, Alberto Calligaro
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引用次数: 16

摘要

由于工程组织是为人类临床应用而设计的,一个主要问题是用于体外培养干细胞的同种异体分子对共培养物和组织的污染。通常用于体外产生表皮等量物的方案需要使用辐照的小鼠成纤维细胞作为角化细胞的喂养层。在这项研究中,我们报告了一种简单的程序,从成人皮肤中分离出人角质形成细胞,仅在胶原蛋白层上产生表皮结构。在该模型中,没有使用人或小鼠饲养层来扩增细胞生长,将分离的角质形成细胞以高密度直接接种在含有低钙浓度的上皮生长培养基中的胶原包被瓶或盖上。在胶原层上生长的上皮细胞菌落的形态学、免疫化学和细胞动力学特征是角质形成细胞的典型特征,与在饲养层上生长的角质形成细胞的研究结果相似。角质形成细胞的分层产生了三维合成结构,显示出与天然表皮相当的组织结构。上皮细胞表达角质形成细胞终末分化的特异性标记物,包括天合蛋白和聚丝蛋白。然而,细胞层数比天然皮肤少,电镜分析显示,与天然表皮相比,这些层的整体组织较差,包括连接复合物、基底膜和角化的形成。在皮肤组织发生过程中缺乏上皮-间充质相互作用可能是表皮结构不完全成熟的原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Generation of human epidermal constructs on a collagen layer alone.

Because engineered tissues are designed for clinical applications in humans, a major problem is the contamination of cocultures and tissues by allogenic molecules used to grow stem cells in vitro. The protocols that are commonly applied to generate epidermal equivalents in vitro require the use of irradiated murine fibroblasts as a feeder layer for keratinocytes. In this study, we report a simple procedure for growing human keratinocytes, isolated from adult skin, to generate an epidermal construct on a collagen layer alone. In this model, no human or murine feeder layers were used to amplify cell growth, and isolated keratinocytes were seeded directly at high cell density on the collagen-coated flasks or coverslips in an epithelial growth medium containing low calcium concentration. Morphological, immunochemical, and cytokinetic features of epithelial colonies grown on the collagen layer were typical of keratinocytes and were comparable with those reported for keratinocytes grown on a feeder layer. The stratification of keratinocytes generated 3-dimensional synthetic constructs displaying a tissue architecture comparable with that of natural epidermis. Epithelial cells expressed specific markers of keratinocyte terminal differentiation, including involucrin and filaggrin. Nevertheless, the number of cell layers was lower than in natural skin, and electron microscopical analysis revealed that the overall organization of these layers was poor compared with natural epidermis, including the formation of junctional complexes, basement membrane, and keratinization. The lack of epithelial-mesenchymal interactions that occur during skin histogenesis may account for such an incomplete maturation of epidermal constructs.

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来源期刊
Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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