The synergistic regulation of chondrogenesis by collagen-based hydrogels and cell co-culture

软骨发生 自愈水凝胶 间充质干细胞 软骨 组织工程 细胞生物学 生物医学工程 材料科学 体内 三维细胞培养 脚手架 细胞培养 体外 化学 生物物理学 解剖 生物化学 生物 生物技术 医学 高分子化学 遗传学
作者
Qingli Liu,Wenling Dai,Yongli Gao,Longpeng Dong,Hengxing Jia,Shikui Li,Likun Guo,Yujiang Fan,Xingdong Zhang
出处
期刊:Acta Biomaterialia [Elsevier BV]
卷期号:154: 194-211 被引量:22
标识
DOI:10.1016/j.actbio.2022.10.017
摘要

The suitable seeding cells and scaffolds are very important for tissue engineering to create functional cartilage. Although the physicochemical properties of scaffold and co-culture system of mesenchymal stem cells (MSCs) and chondrocytes could affect functional properties of engineered cartilage tissues respectively, the combined effects of them on chondrogenesis is currently unknown. Herein, methacrylated collagen (CMA30 and CMA80) hydrogels with different degradation rate and stiffness were prepared. The MSCs and chondrocytes were co-cultured or monocultured in collagen, CMA30 and CMA80 hydrogels in vitro or in vivo. The results demonstrated that cell spreading and proliferation was regulated by degradation rate and stiffness of hydrogels. Compared to single MSCs culture, co-culture cells in all collagen-based hydrogels significantly improved chondrogenesis. CMA30 hydrogel with moderate degradation rate and low storage modulus was the most effective for co-culture system to promote chondrogenesis compared to Col and CMA80 hydrogel in vitro culture, while there was no obvious difference between CMA30 and CMA80 hydrogel in vivo. Furthermore, the intercellular substance exchange was very important for co-culture system to maintain the positive effect on chondrogenesis. Overall, the current study highlights the synergistic effects of the physicochemical properties of collagen-based hydrogel and co-culture system on cartilage formation. Scaffolds and cells play a key role in cartilage tissue engineering. The combined effects of physicochemical properties of collagen hydrogels and co-culture system (MSCs and chondrocytes) on chondrogenesis is unknown. In contrast to the studies that investigated the effect of single factor (scaffolds or cells) on cartilage formation, this manuscript explored the synergistic regulation of both scaffold properties and biological factors on chondrogenesis, and provided a promising strategy for cartilage tissue engineering.
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