Keire Paul, Shearer Andrew, Shefer Gabi, Yablonka-Reuveni Zipora
Department of Biological Structure, School of Medicine, University of Washington, Seattle, WA, USA.
Methods Mol Biol. 2013;946:431-68. doi: 10.1007/978-1-62703-128-8_28.
Multinucleated myofibers are the functional contractile units of skeletal muscle. In adult muscle, mononuclear satellite cells, located between the basal lamina and the plasmalemma of the myofiber, are the primary myogenic stem cells. This chapter describes protocols for isolation, culturing, and immunostaining of myofibers from mouse skeletal muscle. Myofibers are isolated intact and retain their associated satellite cells. The first protocol discusses myofiber isolation from the flexor digitorum brevis (FDB) muscle. These short myofibers are cultured in dishes coated with PureCol collagen (formerly known as Vitrogen) using a serum replacement medium. Employing such culture conditions, satellite cells remain associated with the myofibers, undergoing proliferation and differentiation on the myofiber surface. The second protocol discusses the isolation of longer myofibers from the extensor digitorum longus (EDL) muscle. Different from the FDB preparation, where multiple myofibers are processed together, the longer EDL myofibers are typically processed and cultured individually in dishes coated with Matrigel using a growth factor rich medium. Under these conditions, satellite cells initially remain associated with the parent myofiber and later migrate away, giving rise to proliferating and differentiating progeny. Myofibers from other types of muscles, such as diaphragm, masseter, and extraocular muscles can also be isolated and analyzed using protocols described herein. Overall, cultures of isolated myofibers provide essential tools for studying the interplay between the parent myofiber and its associated satellite cells. The current chapter provides background, procedural, and reagent updates, and step-by-step images of FDB and EDL muscle isolations, not included in our 2005 publication in this series.
多核肌纤维是骨骼肌的功能性收缩单位。在成体肌肉中,位于肌纤维基膜和质膜之间的单核卫星细胞是主要的成肌干细胞。本章描述了从小鼠骨骼肌中分离、培养和免疫染色肌纤维的方法。肌纤维被完整分离并保留其相关的卫星细胞。第一个方法讨论了从趾短屈肌(FDB)中分离肌纤维。这些短肌纤维在涂有PureCol胶原蛋白(原称Vitrogen)的培养皿中,使用血清替代培养基进行培养。采用这样的培养条件,卫星细胞会与肌纤维保持关联,并在肌纤维表面进行增殖和分化。第二个方法讨论了从趾长伸肌(EDL)中分离更长的肌纤维。与将多个肌纤维一起处理的FDB制备方法不同,更长的EDL肌纤维通常在涂有基质胶的培养皿中,使用富含生长因子的培养基单独进行处理和培养。在这些条件下,卫星细胞最初会与亲代肌纤维保持关联,随后迁移离开,产生增殖和分化的后代。来自其他类型肌肉(如膈肌、咬肌和眼外肌)的肌纤维也可以使用本文所述的方法进行分离和分析。总体而言,分离的肌纤维培养物为研究亲代肌纤维与其相关卫星细胞之间的相互作用提供了重要工具。本章提供了背景、操作和试剂更新内容,以及FDB和EDL肌肉分离的分步图像,这些内容未包含在我们2005年在本系列中的出版物中。