转化生长因子-β诱导的成纤维细胞转变：组织瓣膜工程中肌成纤维细胞获取的模型

Transforming growth factor-beta-induced transition of fibroblasts: a model for myofibroblast procurement in tissue valve engineering.

作者信息

Narine Kishan, DeWever Olivier, Cathenis Koen, Mareel Marc, Van Belleghem Yves, Van Nooten Guido

机构信息

Department of Cardiac Surgery, University Hospital Ghent, Ghent, Belgium.

出版信息

J Heart Valve Dis. 2004 Mar;13(2):281-9; discussion 289.

PMID:15086268

Abstract

BACKGROUND AND AIM OF THE STUDY

The selection of a suitable cell type for scaffold seeding, its isolation and adequate expansion in vitro remains a major challenge in tissue valve engineering. The study aim was to establish a model for efficient procurement of myofibroblasts for in-vitro seeding using fibroblasts as progenitor cells.

METHODS

Dermal and arterial mesenchymal cells from human (hDMC1.1 and hAMC1.1) and sheep (sDMC1.1 and sAMC1.1) were isolated by sequential culture. Cell isolates were characterized by stringent criteria based on morphology, immunocytochemistry using antibodies to vimentin, cytokeratin, prolyl 4-hydroxylase, smooth muscle alpha-actin (alpha-SMA) and smooth muscle myosin, and by Western blotting for alpha-SMA and N-cadherin. Cultures with less than 10-20% alpha-SMA-positive cells were considered to be fibroblastic. Cells were subsequently transdifferentiated with the cytokine transforming growth factor-beta1 (TGF-beta1) during five days, and then evaluated morphotypically, by immunocytochemistry, and by Western blotting. The metabolic and functional properties of TGF-beta1-treated and untreated colonies were compared by measuring the expression of extracellular proteins (collagen type 1 and tenascin-C) and by a collagen matrix contraction assay.

RESULTS

TGF-beta1 successfully transformed both human and sheep fibroblasts to metabolically active and functional myofibroblasts based on stringent criteria for myofibroblast characterization. Alpha-SMA positivity of 100% was obtained in all cases (hDMC1.1, hAMC1.1, sDMC1.1, and sAMC1.1) after transformation compared to less than 50% in the non-transformed state (hAMC1.1, 17%; hDMC1.1, 10%; sAMC1.1, 43%; and sDMC1.1, 30%). This observation was further supported by increased contractility and an up-regulation of extracellular protein production in transdifferentiated cells.

CONCLUSION

Untreated arterial cell isolates were, at best, less than 50% alpha-SMA-positive. By allowing procurement of high densities of myofibroblasts in a relatively short time, the model was seen to be a potentially useful tool in tissue valve engineering, at least in investigations using autologous cells in the sheep model.

摘要

研究背景与目的

为组织工程瓣膜选择合适的用于接种支架的细胞类型，并对其进行体外分离与充分扩增，仍是一个重大挑战。本研究的目的是建立一种以成纤维细胞作为祖细胞高效获取肌成纤维细胞用于体外接种的模型。

方法

通过序贯培养法分离人（hDMC1.1和hAMC1.1）及绵羊（sDMC1.1和sAMC1.1）的真皮和动脉间充质细胞。根据形态学、使用波形蛋白、细胞角蛋白、脯氨酰4 - 羟化酶、平滑肌α - 肌动蛋白（α - SMA）和平滑肌肌球蛋白抗体的免疫细胞化学，以及针对α - SMA和N - 钙黏蛋白的蛋白质印迹法，依据严格标准对分离出的细胞进行鉴定。α - SMA阳性细胞比例低于10% - 20%的培养物被视为成纤维细胞。随后，细胞在5天内用细胞因子转化生长因子 - β1（TGF - β1）进行转分化，然后通过形态学评估、免疫细胞化学和蛋白质印迹法进行评价。通过测量细胞外蛋白（I型胶原蛋白和腱生蛋白 - C）的表达以及胶原蛋白基质收缩试验，比较经TGF - β1处理和未处理的细胞集落的代谢和功能特性。

结果

基于对肌成纤维细胞鉴定的严格标准，TGF - β1成功地将人和绵羊的成纤维细胞转化为具有代谢活性和功能的肌成纤维细胞。转化后，所有样本（hDMC1.1、hAMC1.1、sDMC1.1和sAMC1.1）的α - SMA阳性率均达到100%，而未转化状态下（hAMC1.1为17%；hDMC1.1为10%；sAMC1.1为43%；sDMC1.1为30%）低于50%。转分化细胞收缩能力增强和细胞外蛋白产生上调进一步支持了这一观察结果。