Takekura H, Sun X, Franzini-Armstrong C
Department of Cell and Developmental Biology, University of Pennsylvania School of Medicine, Philadelphia 19104-6058.
J Muscle Res Cell Motil. 1994 Apr;15(2):102-18. doi: 10.1007/BF00130422.
The development of calcium release units and of transverse tubules has been studied in skeletal muscle fibres from embryonal and newborn chicken. Three constituents of calcium release units: the tetrads, the feet and an internal protein directly associated with junctional surface of the sarcoplasmic reticulum are visualized by various electron microscope techniques. Evidence in the literature indicates that the three components correspond to the voltage sensors, the sarcoplasmic reticulum calcium release channels and the calcium binding protein calsequestrin respectively. We recognize two stages at which important events in membrane morphogenesis occur. The first stage coincides with early myofibrillogenesis (starting at approximately embryonal day E5.5), and it involves the assembly of calcium release units at the periphery of the muscle fibre in which feet and the internal protein are identified. Groups of tetrads also are present at very early stages and their disposition indicates a relation to the feet of peripheral couplings. Thus three major components of the excitation-contraction coupling pathway are in place as soon as myofibrils develop. The density of groups of tetrads in the surface membrane of primary and secondary fibres is similar, despite differences in developmental stages. The second stage involves the formation of a complex transverse tubule network and of internal sarcoplasmic reticulum-transverse tubule junctions, while peripheral couplings disappear. This stage starts abruptly (between E15 and E16) and simultaneously in primary and secondary fibres. It coincides with the myotube-to-myofibre transition. The two stages are separated by a relatively long intervening period (between E9 and E16). During the latter part of this period some primitive transverse tubules appear, and form junctions with the sarcoplasmic reticulum, but they remain strictly located at the periphery of the fibre and are not numerous. Finally, after the second stage there is a prolonged (up to 4 weeks) period of maturation, during which density of free sarcoplasmic reticulum increases, triads acquire a location at the A-I junction and fibre type differences appear. We conclude that a system for calcium uptake, storage and release exists at the periphery of the myotube during early myogenesis. The complexity of the system and its ability to deliver calcium through the entire fibre develop in parallel to the formation of myofibrils.
对胚胎期和新生期雏鸡骨骼肌纤维中钙释放单元和横小管的发育进行了研究。通过各种电子显微镜技术,可以观察到钙释放单元的三个组成部分:四联体、足突以及一种直接与肌浆网连接表面相关的内部蛋白质。文献中的证据表明,这三个组分分别对应电压传感器、肌浆网钙释放通道和钙结合蛋白钙网蛋白。我们认识到在膜形态发生过程中有两个重要事件发生的阶段。第一阶段与早期肌原纤维形成同时出现(大约从胚胎期第5.5天开始),它涉及在肌纤维周边组装钙释放单元,其中可识别出足突和内部蛋白质。四联体组在非常早期阶段也已存在,它们的排列表明与周边连接的足突有关。因此,一旦肌原纤维发育,兴奋 - 收缩偶联途径的三个主要组分就已就位。尽管发育阶段不同,但初级和次级纤维表面膜中四联体组的密度相似。第二阶段涉及复杂的横小管网络和内部肌浆网 - 横小管连接的形成,而周边连接消失。这个阶段在初级和次级纤维中突然开始(在胚胎期第15天和第16天之间)。它与肌管向肌纤维的转变同时发生。这两个阶段被一个相对较长的中间期(在胚胎期第9天和第16天之间)隔开。在这个时期的后期,一些原始的横小管出现,并与肌浆网形成连接,但它们严格位于纤维周边且数量不多。最后,在第二阶段之后有一个延长的(长达4周)成熟阶段,在此期间游离肌浆网的密度增加,三联体在A - I连接处定位,并且出现纤维类型差异。我们得出结论,在早期肌发生过程中,肌管周边存在一个钙摄取、储存和释放系统。该系统的复杂性及其通过整个纤维传递钙的能力与肌原纤维的形成并行发展。
