Laboratory for Tissue Engineering and Regenerative Medicine, Department of Plastic and Hand Surgery, University Hospital of Erlangen, Friedrich-Alexander-University Erlangen-Nürnberg (FAU), Erlangen, Germany.
Department of Thyroid and Breast Surgery, Affiliated Hospital of North Sichuan Medical College, Nanchong, China.
Tissue Eng Part A. 2024 Mar;30(5-6):244-256. doi: 10.1089/ten.TEA.2023.0215. Epub 2024 Jan 11.
In skeletal muscle tissue engineering, innervation and vascularization play an essential role in the establishment of functional skeletal muscle. For adequate three-dimensional assembly, biocompatible aligned nanofibers are beneficial as matrices for cell seeding. The aim of this study was to analyze the impact of Schwann cells (SC) on myoblast (Mb) and adipogenic mesenchymal stromal cell (ADSC) cocultures on poly-ɛ-caprolactone (PCL)-collagen I-nanofibers . Human Mb/ADSC cocultures, as well as Mb/ADSC/SC cocultures, were seeded onto PCL-collagen I-nanofiber scaffolds and implanted into the innervated arteriovenous loop model (EPI loop model) of immunodeficient rats for 4 weeks. Histological staining and gene expression were used to compare their capacity for vascularization, immunological response, myogenic differentiation, and innervation. After 4 weeks, both Mb/ADSC and Mb/ADSC/SC coculture systems showed similar amounts and distribution of vascularization, as well as immunological activity. Myogenic differentiation could be observed in both groups through histological staining (desmin, myosin heavy chain) and gene expression (, , ) without significant difference between groups. Expression of and also implied neuromuscular junction formation. Our study suggests that the addition of SC did not significantly impact myogenesis and innervation in this model. The implanted motor nerve branch may have played a more significant role than the presence of SC.
在骨骼肌组织工程中,神经支配和血管生成对于功能性骨骼肌的建立起着至关重要的作用。为了进行充分的三维组装,作为细胞接种的基质,生物相容性的定向纳米纤维是有益的。本研究旨在分析施万细胞(SC)对肌母细胞(Mb)和脂肪间充质基质细胞(ADSC)共培养物在聚-ε-己内酯(PCL)-胶原蛋白 I-纳米纤维上的影响。将人 Mb/ADSC 共培养物以及 Mb/ADSC/SC 共培养物接种到 PCL-胶原蛋白 I-纳米纤维支架上,并植入免疫缺陷大鼠的神经支配动静脉环模型(EPI 环模型)中 4 周。通过组织学染色和基因表达来比较它们的血管生成、免疫反应、成肌分化和神经支配能力。4 周后,Mb/ADSC 和 Mb/ADSC/SC 共培养体系均显示出相似数量和分布的血管生成以及免疫活性。通过组织学染色(结蛋白、肌球蛋白重链)和基因表达(、、)可以观察到两组均有肌生成分化,且组间无显著差异。和的表达也暗示了运动终板的形成。我们的研究表明,在该模型中,添加 SC 对成肌和神经支配没有显著影响。植入的运动神经分支可能比 SC 的存在发挥了更重要的作用。
