Zhao Long, Huang Linxuan, Yu Shuyi, Zheng Junheng, Wang Hua, Zhang Yan
Key Laboratory of Gene Engineering of the Ministry of Education, State Key Laboratory of Biocontrol, School of Life Sciences, Sun Yat-sen University, Guangzhou Higher Education Mega Center, Guangzhou 510006, PR China.
Department of Oral and Maxillofacial Surgery, Guanghua School of Stomotology, Hospital of Stomotology, Sun Yat-sen University, PR China.
Acta Biomater. 2017 Aug;58:122-135. doi: 10.1016/j.actbio.2017.05.062. Epub 2017 Jun 7.
The decellularization of tissues or organs provides an efficient strategy for preparing functional scaffolds for tissue engineering. The microstructures of native extracellular matrices and biochemical compositions retained in the decellularized matrices provide tissue-specific microenvironments for anchoring cells. Here, we report the tongue extracellular matrix (TEM), which showed favorable cytocompatibility for normal tongue-derived cells and tongue squamous cell carcinoma (TSCC) cells under static or stirring culture conditions. Our results show that TEM retained tongue-specific integrated microstructures and abundant matrix components, which offer mechanical support and spatial signals for regulating cell behavior and function. Reconstructed TSCC by TEM presented characteristics resembling clinical TSCC histopathology, suggesting the possibility for TSCC research. In addition, TEM might be capable of guiding tongue-derived cells to the niche, benefiting cell survival, proliferation and differentiation.
In this study, we prepared decellularized tongue extracellular matrix (TEM) and evaluated the possibility for tongue squamous cell carcinoma (TSCC) research and tongue regeneration. TEM has six irreplaceable advantages: (1) tongue-specific intricate structures of TEM, which offer mechanical support for the cells; (2) abundant matrix components and spatial signals benefiting for cell attachment, survival, differentiation, and long-term viability of the highly functional phenotypes of tongue cells or TSCC cells; (3) reconstructed TSCC by TEM exhibited tumor heterogeneity, extremely resembling clinical TSCC histopathology; (4) ideal model to evaluate TSCC movement mode; (5) guiding tongue-derived cells to the site-appropriate niche; and (6) the possibility for static or stirred cell culture. These properties might be considered in TSCC research or tongue regeneration.
组织或器官的去细胞化提供了一种制备组织工程功能支架的有效策略。去细胞化基质中保留的天然细胞外基质的微观结构和生化成分,为细胞锚定提供了组织特异性微环境。在此,我们报道了舌细胞外基质(TEM),其在静态或搅拌培养条件下对正常舌源细胞和舌鳞状细胞癌(TSCC)细胞显示出良好的细胞相容性。我们的结果表明,TEM保留了舌特异性的完整微观结构和丰富的基质成分,为调节细胞行为和功能提供了机械支持和空间信号。TEM重建的TSCC呈现出类似于临床TSCC组织病理学的特征,提示了TSCC研究的可能性。此外,TEM可能能够引导舌源细胞到达特定位置,有利于细胞存活、增殖和分化。
在本研究中,我们制备了去细胞化舌细胞外基质(TEM),并评估了其用于舌鳞状细胞癌(TSCC)研究和舌再生的可能性。TEM具有六个不可替代的优势:(1)TEM具有舌特异性的复杂结构,为细胞提供机械支持;(2)丰富的基质成分和空间信号有利于舌细胞或TSCC细胞的高功能表型的细胞附着、存活、分化和长期活力;(3)TEM重建的TSCC表现出肿瘤异质性,极其类似于临床TSCC组织病理学;(4)评估TSCC运动模式的理想模型;(5)引导舌源细胞到达合适的位置;(6)静态或搅拌细胞培养的可能性。这些特性可能在TSCC研究或舌再生中予以考虑。
