Department of Orthopedic Surgery, the Second Affiliated Hospital, Zhejiang University School of Medicine, Hangzhou, 310000, China.
Orthopedics Research Institute of Zhejiang University, Hangzhou, 310000, China.
ACS Appl Mater Interfaces. 2023 Jan 25;15(3):4652-4667. doi: 10.1021/acsami.2c16584. Epub 2023 Jan 12.
Tendon injuries are some of the most commonly diagnosed musculoskeletal diseases. Tendon regeneration is sensitive to the topology of the substitute as it affects the cellular microenvironment and homeostasis. To bionic in vivo three-dimensional (3D) aligned microenvironment, an ordered 3D sandwich model was used to investigate the cell response in the tendon. First, high-resolution 3D printing provided parallel-grooved topographical cues on the hydrogel surface. Then the cells were seeded on its surface to acquire a 2D model. Afterward, an additional hydrogel coating layer was applied to the cells to create the 3D model. The interaction between cells and order structures in three-dimensions is yet to be explored. The study found that the tendon stem/progenitor cells (TSPCs) still maintain their ordering growth in the 3D model as in the 2D model. The study also found that the 3D-aligned TSPCs exhibited enhanced tenogenic differentiation through the PI3K-AKT signaling pathway and presented a less inflammatory phenotype than those in the 2D model. The in vivo implantation of such a 3D-aligned TSPC composite promoted tendon regeneration and mitigated heterotopic ossification in an Achilles defect model. These findings demonstrated that 3D-aligned TSPCs within a biomimetic topology environment are promising for functional tendon regeneration.
肌腱损伤是最常见的肌肉骨骼疾病之一。肌腱再生对替代物的拓扑结构很敏感,因为它会影响细胞的微环境和内稳态。为了仿生体内三维(3D)排列的微环境,采用有序的 3D 三明治模型来研究肌腱中的细胞反应。首先,高分辨率 3D 打印在水凝胶表面提供了平行槽状的形貌线索。然后将细胞接种在其表面以获得 2D 模型。之后,将额外的水凝胶涂层施加到细胞上以创建 3D 模型。细胞与三维有序结构之间的相互作用仍有待探索。研究发现,肌腱干/祖细胞(TSPCs)在 3D 模型中仍保持其有序生长,就像在 2D 模型中一样。研究还发现,3D 排列的 TSPCs 通过 PI3K-AKT 信号通路表现出增强的腱形成分化,并表现出比 2D 模型中更少的炎症表型。在跟腱缺损模型中植入这种 3D 排列的 TSPC 复合材料可促进肌腱再生并减轻异位骨化。这些发现表明,在仿生拓扑环境中排列的 3D TSPC 有望实现功能性肌腱再生。
