Department of Bioengineering, National University of Singapore, Singapore 117576.
Biomacromolecules. 2012 Sep 10;13(9):2692-703. doi: 10.1021/bm300651q. Epub 2012 Aug 10.
The ligament-bone interface is a complex structure that comprises ligament, fibrocartilage, and bone. We hypothesize that mesenchymal stem cells cocultured in between ligament and bone cells, on a hybrid silk scaffold with sections suitable for each cell type, would differentiate into fibrocartilage. The section of scaffold for osteoblast seeding was coated with hydroxyapatite. A trilineage coculture system (osteoblasts-BMSCs-fibroblasts) on a hybrid silk scaffold was established. RT-PCR results and immunohistochemistry results demonstrated that BMSCs cocultured between fibroblasts and osteoblasts had differentiated into the fibrocartilaginous lineage. The morphological change was also observed by SEM observation. A gradual transition from the uncalcified to the calcified region was formed in the cocultured BMSCs from the region that directly interacted with fibroblasts to the region that directly interacted with osteoblasts. The role of transforming growth factor β3 (TGF-β3) in this trilineage coculture model was also investigated by supplementing the coculture system with 10 ng/mL TGF-β3. The TGF-treated group showed similar results of fibrocartilaginous differentiation of BMSCs with coculture group without TGF-β3 supplement. However, no calcium deposition was found in the cocultured BMSCs in the TGF-treated group. This may indicate TGF-β3 delayed the mineralization process of chondrocytes.
韧带-骨界面是一种复杂的结构,包括韧带、纤维软骨和骨。我们假设,在适合每种细胞类型的混合丝支架上,将间充质干细胞共培养在韧带细胞和骨细胞之间,它们会分化为纤维软骨。用于成骨细胞接种的支架部分涂有羟基磷灰石。建立了一种三系共培养系统(成骨细胞-BMSC-成纤维细胞)在混合丝支架上。RT-PCR 结果和免疫组织化学结果表明,共培养在成纤维细胞和成骨细胞之间的 BMSC 已分化为纤维软骨谱系。SEM 观察也观察到了形态变化。在共培养的 BMSC 中,从与成纤维细胞直接相互作用的区域到与成骨细胞直接相互作用的区域,逐渐从未钙化区域过渡到钙化区域。还通过在共培养系统中补充 10ng/ml TGF-β3 来研究转化生长因子β3(TGF-β3)在这种三系共培养模型中的作用。TGF 处理组显示出与未添加 TGF-β3 的共培养组相似的 BMSC 纤维软骨分化结果。然而,在 TGF 处理组中,共培养的 BMSC 中没有发现钙沉积。这可能表明 TGF-β3 延迟了软骨细胞的矿化过程。
