人肌肉来源细胞能够进行肌腱分化并促进肌腱修复。

Human Muscle-Derived Cells Are Capable of Tenogenic Differentiation and Contribution to Tendon Repair.

作者信息

Shao Xiexiang, Lin Xingzuan, Zhu Siyuan, Zhou Hao, Lu Zhenfei, Zhang Yuanyuan, Wang Jianhua

机构信息

Department of Orthopaedic Surgery, Xin Hua Hospital Affiliated to Shanghai Jiao Tong University School of Medicine, Shanghai, China.

Department of Sports Medicine, Wuxi Hospital of Traditional Chinese Medicine, Wuxi, China.

出版信息

Am J Sports Med. 2023 Mar;51(3):786-797. doi: 10.1177/03635465221147486. Epub 2023 Feb 3.

DOI:10.1177/03635465221147486

PMID:36734484

Abstract

BACKGROUND

It has been reported that the harvested hamstring tendon for autograft could be regenerated with well-oriented fibers and uniformly distributed spindle-shaped cells after removal. However, which cell type might participate in the repair process remains unknown.

PURPOSE

To investigate the tenogenic differentiation potential of human muscle-derived cells (MDCs) both in vitro and in vivo.

STUDY DESIGN

Controlled laboratory study.

METHODS

Primary human MDCs and tenocytes were isolated from discarded materials during a peroneus longus tendon-harvesting procedure. Expression of tenogenic genes were evaluated and compared among MDCs, MDCs with tenogenic induction, and tenocytes. RNA sequencing was performed to evaluate the expression profile of differentiated MDCs. Human MDCs were implanted in a tendon injury model to investigate the in vivo tenogenic differentiation potential. Histologic and functional analyses were performed to evaluate the function of MDCs for tendon repair.

RESULTS

The relative expression levels (in fold change) of tenogenic genes , , , , and in MDCs were significantly upregulated 11.5 ± 1.3, 957.1 ± 63.7, 19.1 ± 2.8, 61.9 ± 4.8, and 10.2 ± 2.8 after tenogenic induction, respectively. The expression profile of tenogenically differentiated MDCs was much closer to primary tenocytes. Activation of TGF-β/Smad3 signaling significantly promoted the tenogenic differentiation ability of MDCs. Transplanted human MDCs were identified in regenerated tendon and expressed tenogenic genes. As for biomechanical properties, the failure loads in the Matrigel, transplantation, and uninjured groups were 7.2 ± 0.5, 11.6 ± 0.3, and 13.9 ± 0.7 N, while the stiffness values were 4.4 ± 1.3 × 10, 7.6 ± 0.8 × 10, and 10.9 ± 1.1 × 10 N/m. Plantarflexion force, histologic morphology, and motor function were also significantly improved after MDC transplantation in a tendon injury model.

CONCLUSION

There exist cells with tenogenic differentiation potential in human skeletal muscles. Activation of TGF-β/Smad3 signaling plays an important role in tenogenic differentiation for human MDCs. Human MDCs contribute to structural and functional repair for the injured tendon. MDCs are a potential cell source to participate in the repair process after tendon injury.

CLINICAL RELEVANCE

The MDCs could be a promising cell source to repair tendon injury.

摘要

背景

据报道，自体移植获取的腘绳肌腱在取出后可通过纤维排列良好且梭形细胞分布均匀的方式实现再生。然而，哪种细胞类型可能参与修复过程仍不清楚。

目的

研究人肌肉来源细胞（MDCs）在体外和体内的成腱分化潜能。

研究设计

对照实验室研究。

方法

在腓骨长肌腱取材过程中，从废弃组织中分离出原代人MDCs和肌腱细胞。评估并比较MDCs、经成腱诱导的MDCs和肌腱细胞中成腱基因的表达。进行RNA测序以评估分化后的MDCs的表达谱。将人MDCs植入肌腱损伤模型中，研究其体内成腱分化潜能。进行组织学和功能分析以评估MDCs对肌腱修复的作用。

结果

成腱诱导后，MDCs中成腱基因、、、和的相对表达水平（倍数变化）分别显著上调至11.5±1.3、957.1±63.7、19.1±2.8、61.9±4.8和10.2±2.8。成腱分化的MDCs的表达谱与原代肌腱细胞更为接近。TGF-β/Smad3信号通路的激活显著促进了MDCs的成腱分化能力。在再生肌腱中鉴定出移植的人MDCs，且其表达成腱基因。至于生物力学性能，基质胶组、移植组和未损伤组的破坏载荷分别为7.2±0.5、11.6±0.3和13.9±0.7 N，而刚度值分别为4.4±1.3×10、7.6±0.8×10和10.9±1.1×10 N/m。在肌腱损伤模型中，MDCs移植后跖屈力、组织学形态和运动功能也得到显著改善。