多浪绵羊骨骼肌卫星细胞的分离培养、鉴定及成肌诱导分化

为了在体外细胞水平模拟多浪绵羊肌肉生长发育过程,本研究以多浪绵羊为试验动物,采用胶原酶和胰酶两步酶消化法分离多浪绵羊骨骼肌卫星细胞（satellite cells,SCs）,并利用差速贴壁的方法纯化分离得到的SCs。利用免疫荧光技术检测SCs标记基因Desmin、Pax7和MyoD1的表达情况,鉴定分离得到的SCs。采用血清撤离的方法诱导SCs向成肌方向分化。通过显微镜观察和成肌分化标记基因肌球蛋白重链（myosin heavy chain,MHC）的免疫荧光,检测肌管的形成情况。通过对SCs标记基因Desmin、Pax7和MyoD1的免疫荧光鉴定,确认本研究成功分离得到多浪绵羊SCs。采用血清撤离的方法诱导SCs成肌分化,显微镜观察和MHC免疫荧光可以明显观察和检测到肌管的形成。本研究对多浪绵羊SCs成功地进行了分离和鉴定,并建立了体外培养条件下多浪绵羊SCs的成肌诱导分化。     

冷环境中解偶联蛋白对动物体温的调节作用

解偶联蛋白属线粒体内膜载体蛋白,存在动物体的棕色脂肪组织（brown adipose tissue,BAT）、白色脂肪组织（white adipose tissue,WAT）、骨胳肌以及各种器官中。这些组织器官是哺乳动物及禽类非颤抖产热（NST）及其它产热作用的主要点位,对动物的体温维持和能量平衡调节起重要作用。     

Preliminary experiments on mechanical stretch-induced activation of skeletal muscle satellite cells in vivo

We have shown in vitro that mechanical stretch triggers activation of quiescent satellite cells of skeletal muscle to enter the cell cycle through an intracellular cascade of events including nitric oxide (NO) synthesis that results in the release of hepatocyte growth factor (HGF) from its extracellular association and its subsequent presentation to signaling receptors. In order to explore the activation mechanism in vivo, stretch experiments were conducted in the living animal using our suspension model developed. This system used the weight of the hind portion of rats to stretch the inside muscles of the left hind limb suspended for a period of 0.5–2.0 h. At the end of the stretch period, the rats received an intraperitoneal injection of bromodeoxyuridine followed by immunocytochemistry for its incorporation as an index of satellite cell activation in vivo. Depending on the period of stretch, bromodeoxyuridine labeling was increased significantly over the contralateral unstretched leg or control muscle from untreated rats. A stretched muscle extract prepared from the 2 h stretched tissue by incubating it in PBS, showed the active form of HGF as revealed by immunoblotting and it could stimulate the activation of unstretched satellite cells. Also, administering NO synthase inhibitor L‐NAME prior to muscle stretch abolished the stretch activation of satellite cells. Therefore, the results from these experiments demonstrate that stretching muscle triggers NO synthesis and HGF release, which could activate satellite cells in vivo.     

亮氨酸调节动物骨骼肌蛋白质分解的研究进展

随着对亮氨酸调节试验动物(如鼠)生理功能研究的深入,学者们发现,亮氨酸对于骨骼肌蛋白质沉积的影响不仅是其可以提高骨骼肌蛋白质的合成,还由于其可以减少骨骼肌蛋白质的分解,而这一过程中,亮氨酸对于骨骼肌细胞内蛋白质降解的多条途径都存在抑制作用。本文综述了亮氨酸对动物(如鼠)骨骼肌及其细胞内蛋白质分解的调节作用,并分析讨论了这一过程当中亮氨酸的相关作用机制。     

骨骼肌电穿孔转基因技术研究进展

目前,在大动物模型试验中,骨骼肌电穿孔转基因技术已被广泛用于转染一些功能基因,并能显著提高非病毒载体基因的转染效率。笔者就电穿孔促进基因通过细胞膜的可能机理及影响骨骼肌电穿孔转基因效率的关键因素（如物种、细胞直径、场强、脉冲参数、电极和电脉冲仪等）进行了综述。     

Effect of dietary fish oil intake on ubiquitin ligase expression during muscle atrophy induced by sciatic nerve denervation in mice

Dietary fish oil intake improves muscle atrophy in several atrophy models however the effect on denervation‐induced muscle atrophy is not clear. Thus, the aim of this study was to investigate the effects of dietary fish oil intake on muscle atrophy and the expression of muscle atrophy markers induced by sciatic nerve denervation in mice. We performed histological and quantitative mRNA expression analysis of muscle atrophy markers in mice fed with fish oil with sciatic nerve denervation. Histological analysis indicated that dietary fish oil intake slightly prevented the decrease of muscle fiber diameter induced by denervation treatment. In addition, dietary fish oil intake suppressed the MuRF1 (tripartite motif‐containing 63) expression up‐regulated by denervation treatment, and this was due to decreased tumor necrosis factor‐alpha (TNF‐α) production in skeletal muscle. We concluded that dietary fish oil intake suppressed MuRF1 expression by decreasing TNF‐α production during muscle atrophy induced by sciatic nerve denervation in mice.     

Research Progress of Epigenetics Modification in the Process of Skeletal Muscle Cell Proliferation and Differentiation

Skeletal muscle is the most abundant tissue and the main component of muscle in animals.The process of skeletal muscle cell's proliferation and differentiation is the basis of muscle development and it's directly affects the meat production performance of domestic animals.It has been found that epigenetic modification plays an important role in regulating the proliferation and differentiation of skeletal muscle cells.In this study,the effects of epigenetics on skeletal muscle in terms of the effects of DNA methylation on the proliferation and differentiation of skeletal muscle cells,the selection and expression of factors regulated by histone acetylation,the regulation of non-coding RNA,and the effects of chromosome remodeling.Research progress in the process of muscle cell proliferation and differentiation,briefly describes the effects of different modification methods and factors on the two processes of skeletal muscle proliferation and differentiation.At the same time,the methods and means used by predecessor in the study of skeletal muscle proliferation and differentiation were reviewed,and then the role of apparent regulatory factors in skeletal muscle growth was analyzed.The purpose was to further explain the important role of epigenetic modification in the proliferation and differentiation of skeletal muscle,enhanced the understanding of the regulation of skeletal muscle proliferation and differentiation,provided a reference path for integration with animal production,and also provided skeletal muscle.Molecular regulation of such as growth and development provided more reference materials.     

The Expression of Long Noncoding RNA (H19) in Mouse Skeletal Muscle Development

This experiment was intend to study the changes of long non-coding RNA (H19) expression levels in skeletal muscle development and regeneration,and lay the foundation of its mechanism reach in skeletal muscle development.C2C12 cell line and ICR mice were used as experimental material,bioinformatics assay was used to exploit its non-coding character and low conservatism in different species,and the expressions of H19 in C2C12 cell differentiation,skeletal muscle development and the phase of muscle regeneration were detected by quantitative Real-time PCR (qRT-PCR).The results showed that,H19 expression levels in postnatal mouse skeletal muscle decreased with increasing age;during C2C12 cell differentiation,H19 mRNA increased gradually,and then maintained a high level;The expression of H19 was maintained at a high level through days 4 to 6 after injury.In consideration of its express character in C2C12 cell differentiation and skeletal muscle damage repair model,H19 may play an important role in promoting myogenesis and skeletal muscle regeneration.