Musculoskeletal Biology Research Group, School of Sport, Exercise and Health Sciences, Loughborough University, Loughborough, Leicestershire LE113TU, UK.
Biomaterials. 2013 Jul;34(23):5759-65. doi: 10.1016/j.biomaterials.2013.04.002. Epub 2013 May 1.
Tissue engineered skeletal muscle has great utility in experimental studies of physiology, clinical testing and its potential for transplantation to replace damaged tissue. Despite recent work in rodent tissue or cell lines, there is a paucity of literature concerned with the culture of human muscle derived cells (MDCs) in engineered constructs. Here we aimed to tissue engineer for the first time in the literature human skeletal muscle in self-assembling fibrin hydrogels and determine the effect of MDC seeding density and myogenic proportion on the structure and maturation of the constructs. Constructs seeded with 4 × 10(5) MDCs assembled to a greater extent than those at 1 × 10(5) or 2 × 10(5), and immunostaining revealed a higher fusion index and a higher density of myotubes within the constructs, showing greater structural semblance to in vivo tissue. These constructs primarily expressed perinatal and slow type I myosin heavy chain mRNA after 21 days in culture. In subsequent experiments MACS(®) technology was used to separate myogenic and non-myogenic cells from their heterogeneous parent population and these cells were seeded at varying myogenic (desmin +) proportions in fibrin based constructs. Only in the constructs seeded with 75% desmin + cells was there evidence of striations when immunostained for slow myosin heavy chain compared with constructs seeded with 10 or 50% desmin + cells. Overall, this work reveals the importance of cell number and myogenic proportions in tissue engineering human skeletal muscle with structural resemblance to in vivo tissue.
组织工程化骨骼肌在生理学实验研究、临床测试及其潜在的用于替代受损组织的移植中具有巨大的应用价值。尽管最近在啮齿动物组织或细胞系中进行了研究,但关于在工程化构建体中培养人源性肌肉衍生细胞(MDC)的文献却很少。在这里,我们首次旨在首次在文献中使用自组装纤维蛋白水凝胶构建组织工程化的人骨骼肌,并确定 MDC 接种密度和生肌比例对构建体结构和成熟的影响。接种 4×10(5)个 MDC 的构建体比接种 1×10(5)个或 2×10(5)个的构建体组装程度更高,免疫染色显示构建体中的融合指数更高,肌管密度更高,与体内组织具有更大的结构相似性。这些构建体在培养 21 天后主要表达围产期和慢型 I 肌球蛋白重链 mRNA。在随后的实验中,MACS(®)技术被用于从其异质亲本群体中分离生肌细胞和非生肌细胞,并将这些细胞以不同的生肌(结蛋白+)比例接种在纤维蛋白基构建体中。只有在接种了 75%结蛋白+细胞的构建体中,当用慢肌球蛋白重链进行免疫染色时,才会有条纹的证据,而在接种了 10%或 50%结蛋白+细胞的构建体中则没有。总的来说,这项工作揭示了细胞数量和生肌比例在组织工程化具有体内组织结构相似性的人骨骼肌中的重要性。
