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KMID : 1377020220190040717
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Tissue Engineering and Regenerative Medicine
2022 Volume.19 No. 4 p.717 ~ p.726
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Mast Cells Tryptase Promotes Intestinal Fibrosis in Natural Decellularized Intestinal Scaffolds
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Wan Jian
Wu Tianqi
Liu Ying
Yang Muqing
Fichna Jakub
Guo Yibing
Yin Lu
Chen Chunqiu
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Abstract
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Background: Standard two-dimensional (2D) culture has confirmed the mechanism of mast cells (MCs) in the pathogenesis of inflammatory bowel disease (IBD), but the regulation of signaling responses of MCs may well differ in three-dimensional (3D) microenvironments. The aim of the study was to develop a 3D culture model based on decellularized intestinal scaffolds (DIS) and verify how MCs influenced fibroblasts phenotype in the 3D model.
Methods: DIS were achieved using the detergent technique and extracellular matrix (ECM) components were verified by histologic analysis, quantification and scanning electron microscope. After human colon fibroblasts recellularized into the scaffolds and activated by MCs tryptase and TGF¥â1, the changes in genes and signaling pathways during fibroblasts activation in 3D were studied and compared with the changes in 2D cell culture on plastic plates.
Results: Decellularization process effectively removed native cell debris while retaining natural ECM components and structure. The engrafted fibroblasts could penetrate into the scaffolds and maintain its phenotype. No matter whether fibroblasts were cultured in 2D or 3D, MCs tryptase and transforming growth factor ¥â1 (TGF-¥â1) could promote the differentiation of fibroblasts into fibrotic-phenotype myofibroblasts through Akt and Smad2/3 signaling pathways. Furthermore, the pro-collagen1¥á1 and fibronectin synthesis of myofibroblasts in 3D was higher than in 2D culture.
Conclusion: Our results demonstrated that the DIS can be used as a bioactive microenvironment for the study of intestinal fibrosis, providing an innovative platform for future intestinal disease modeling and screening of genes and signaling pathways.
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KEYWORD
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Tissue engineering, Decellularization, 3D model, Intestinal fibrosis, Mast cell
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