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肌肉发育和功能的分子机制

Molecular Mechanisms in Muscle Development and Function
课程网址: http://videolectures.net/promogram_matej_podbregar_eng/  
主讲教师: Tomaž Marš; Vita Čebašek; Matej Podbregar
开课单位: 卢布尔雅那大学
开课时间: 2013-08-14
课程语种: 英语
中文简介:
该计划加入了两个研究小组:“骨骼肌:其结构和功能”和“体外条件下的人体肌肉”。A组提出的方案是对正常和患病肌肉进行形态学、形态学和免疫组化分析。它包括三个研究方向:骨骼肌的形态和组织化学特征:我们将继续研究大哺乳动物骨骼肌中肌球蛋白重链亚型(myhc)及其转录物的形态和表达模式。我们将分析不同年龄段的人眼外肌,以证明人眼外肌不会老化。特别强调每根肌肉纤维的毛细血管密度。二。急性肌病变化的分子机制,伴随着临界条件。最近的研究表明,在脓毒性休克等应激条件下,骨骼肌纤维在不同类型的细胞因子触发的信号传导过程中起着积极的作用。在我们的初步研究中,我们证明了在TNF-A治疗后,从培养的人体骨骼肌纤维中释放出IL-6。这些研究将在该项目的这一部分继续进行。三、人体骨骼肌纤维胰岛素抵抗的分子机制。胰岛素抵抗是2型糖尿病患者高血糖的主要原因,因此被深入研究。体外调节人体肌肉的实验模型允许研究胰岛素诱导的胞吐作用的分子机制,而胰岛素诱导的胞吐作用在胰岛素抵抗的肌肉纤维中受损。我们将与病理生理研究所的研究小组合作,该研究小组完全具备了跟踪胞吐过程的能力,研究胰岛素诱导的葡萄糖转运蛋白4(GLUT4)携带囊泡向II易位的分子机制。骨骼肌在生理、实验和病理条件下的可塑性,我们之前的研究已经深入研究了骨骼肌的可塑性,无论是在实验模型上,如异时同种移植,大鼠慢、快肌肉的异位移植,以及轴索切开术和轴索炎。此外,还将研究人体肌肉在静止状态和危重疾病肌病时的可塑性。我们将特别关注神经支配、脊髓灰质炎和甲状腺激素的改变对肌球蛋白重链亚型及其转录物表达的影响,以及对肌源性因子和毛细血管供应的影响。我们的一部分研究将致力于调查正常和营养不良肌肉的生物物理学特征,并对肌强直性营养不良患者的肌肉进行形态计量学分析。第三部分:肢带肌营养不良的流行病学。我们将继续研究年“肢带肌营养不良”的流行病学。斯洛文尼亚。B组提出的研究计划侧重于人体骨骼肌纤维发育和功能各个方面的分子机制。在大多数研究中,我们将采用体外系统,其中人体肌肉纤维由从胚胎大鼠脊髓外植体延伸出来的运动神经元支配。主要研究方向如下:一、基因沉默调控神经肌肉连接(NMJ)突触发生和功能的分子机制;我们将研究参与NMJ形成和维持的特定蛋白的作用和表达。我们的这部分研究将集中在Agrin、Ache和Buche,它们都是NMJ的重要的基础层结合成分。本部分包括对交流电机结构-功能关系研究的延续。
课程简介: The program joins two research groups: 'Skeletal muscle: its structure and function'and 'Human muscle under the in vitro conditions'. The program proposed by group A is dealing with the morphological, morphometric and immunohistochemical analysis of normal and diseased muscles. It consists of three research directions: I. Morphological and histochemical characteristics of skeletal muscles: We shall continue investigating the morphology and the expression pattern of myosin heavy chain isoforms (MyHC) and their transcripts in skeletal muscles of bigger mammals. Human extraocular muscles will be analysed in different age periods to prove that human EOM do not age. Special emphasis will be given to the capillary density per muscle fibre. II. Molecular mechanisms underlying the acute myopathic changes, accompanying critical conditions. Recent investigations revealed active role of the skeletal muscle fibre in the signalling processes, triggered by different types of cytokines under the stress conditions like septic shock. In our preliminary studies we demonstrated release of IL-6 from the cultured human skeletal muscle fibre after the treatments with TNF-a. These investigation will be continued in this part of the program. III. Molecular mechanisms responsible for the insulin resistance in the human skeletal muscle fibre. Insulin resistance is the major cause of hyperglycemia in type 2 diabetics and is therefore intensively investigated. The experimental model of the in vitro innervated human muscle allows studies of the molecular mechanisms underlying insulin-induced exocytosis, which is impaired in the insulin-resistant muscle fibres. In collaboration with the research group at the Institute of Pathophysiology, which is fully equipped to follow the processes of exocytosis, we shall investigate molecular mechanisms underlying the insulin-induced translocation of the glucose transporters 4 (GLUT4) bearing vesicles to the II. Plasticity of skeletal muscle in physiological, experimental and pathological conditions Plasticity of skeletal muscles that has been thoroughly studied in our previous research will further be investigated either on experimental models, like heterochronous isotransplantation, heterotopic transplantation of the rat slow and fast muscles as well as axotonotomy and axonotmesis. Additionally, plasticity will be studied in human muscles in inactivity and in the critical illness myopathy. Special attention will be paid to the influence of the changed innervation, chorticosteroid and thyroid hormones on the expression of the myosin heavy chain isoforms and their transcripts as well as to the myogenic factors and to the changed capillary supply. A part of our research will be devoted to the investigation of the biophysical characteristics of normal and dystrophic muscles and to the morphometric analysis of the muscles in patients with the myotonic dystrophy III Epidemiology of the limb-girdle muscular dystrophy We shall continue to study the epidemiology of the 'limb-girdle dystrophy' in Slovenia. The research program proposed by group B is focused on the molecular mechanisms underlying various aspects of the development and function of the human skeletal muscle fibre. In most studies we will employ the in vitro system in which human muscle fibre is innervated by the motor neuron extending from the explant of the embryonic rat spinal cord. The main research directions will be the following: I. Molecular mechanism regulating synaptogenesis and function of the neuromuscular junction (NMJ) By "gene silencing" we will investigate the roles and expression of specific proteins participating in the formation and maintenance of the NMJ. This part of our research will be focused on agrin, AChE and BuChE, which are all important, basal lamina bound constituents of the NMJ. This part of our program includes continuation of our previous research on the structure - function relationship of the AC...
关 键 词: 骨骼肌; 分子机制; 肌肉纤维; 可塑性
课程来源: 视频讲座网
最后编审: 2020-06-02:张荧(课程编辑志愿者)
阅读次数: 51

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