Investigating the angiogenic role of Murine Double Minute-2 in contractile muscle cells

研究小鼠 Double Minute-2 在收缩肌细胞中的血管生成作用

• 批准号: RGPIN-2017-05675
• 负责人: BIROT, Olivier
• 金额: $ 2.04万
• 依托单位: York University
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2018
• 资助国家: 加拿大
• 起止时间: 2018-01-01 至 2019-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=645519
• 关键词: Investigating; angiogenic; role; Murine; Double

Capillaries are our smallest blood vessels. They are the site of exchanges between blood and cells. In skeletal muscles, capillaries play a crucial role in providing oxygen and nutrients to the active muscle cells. Angiogenesis is the very complex process of formation of new capillaries. Physical exercise is a well-known stimulus for skeletal muscle angiogenesis. One single bout of exercise stimulates the expression of signal molecules that regulate the process of muscle angiogenesis. In particular, these molecules act on endothelial cells, the cells forming the wall of the capillaries. In order to get more capillaries, these cells need to be activated so they can proliferate, migrate, and assembly together into new vessels. If the exercise stimulus is repeated daily over a few weeks, like during prolonged exercise training, new functional capillaries will be formed in skeletal muscle, and the muscle function, especially in response to exercise, will be improved. ******Research in my laboratory aims to identify and to understand the cellular and molecular mechanisms that regulate angiogenesis in skeletal muscle.******With my previous NSERC Discovery Grant, we have demonstrated that a molecule named Murine Minute Double-2 (Mdm2) was a key regulator of muscle angiogenesis during exercise. We have observed that exercise strongly activates Mdm2 in skeletal muscle. At the level of the muscle tissue, we have shown that activated Mdm2 was stimulating the expression of several molecules known to activate endothelial cells during exercise. Using endothelial cell culture in vitro, we have then discovered that activated Mdm2 was strongly stimulating the migration of these cells, which is a crucial step in the assembly of endothelial cells to form new capillaries. This research was conducted at the muscle tissue level and in cultured endothelial cells. In the the research program proposed here, our goal will be to focus on the role that Mdm2 could play on angiogenesis specifically at the level of contractile muscle cells. We think that exercise could stimulate Mdm2 activation in muscle cells, leading to the production and release of signal molecules that will in turn act on the neighbouring endothelial cells to stimulate the formation of new capillaries. ******This will be achieved through three independent research aims.******Aim #1. To characterize in vivo in muscle tissue and in vitro in cultured muscle cells the effect of exercise on Mdm2 and its activated form. ******Aim #2. To investigate in vitro in cultured muscle cells what is the mechanism of action of Mdm2 and its activated form.******Aim #3. To investigate in vivo in muscle tissue, specifically at the level of muscle cells taken into the whole muscle context, what is the mechanism of action of Mdm2 and its activated form.******Our research program will provide new knowledge in the field of muscle physiology and Mdm2 biology. It will also contribute to the formation of Highly Qualified Personal in Canada.

毛细血管是我们最小的血管。它们是血液和细胞之间交换的场所。在骨骼肌中，毛细血管在为活跃的肌肉细胞提供氧气和营养方面起着至关重要的作用。血管生成是形成新毛细血管的非常复杂的过程。体育锻炼是骨骼肌血管生成的一种众所周知的刺激。一次运动就能刺激调节肌肉血管生成过程的信号分子的表达。特别地，这些分子作用于内皮细胞，即形成毛细血管壁的细胞。为了获得更多的毛细血管，这些细胞需要被激活，以便它们可以增殖，迁移和组装成新的血管。如果在几周内每天重复运动刺激，如在长时间的运动训练期间，骨骼肌中将形成新的功能性毛细血管，肌肉功能，特别是对运动的反应，将得到改善。* * 我实验室的研究旨在确定和理解调节骨骼肌血管生成的细胞和分子机制。在我之前的NSERC发现基金中，我们已经证明了一种名为Mdm-2的分子是运动过程中肌肉血管生成的关键调节因子。我们已经观察到，运动强烈激活骨骼肌中的Mdm 2。在肌肉组织的水平上，我们已经表明，激活的Mdm 2刺激了几种已知在运动过程中激活内皮细胞的分子的表达。使用体外内皮细胞培养，我们发现激活的Mdm 2强烈刺激这些细胞的迁移，这是内皮细胞组装形成新毛细血管的关键步骤。本研究在肌肉组织水平和培养的内皮细胞中进行。在这里提出的研究计划中，我们的目标将集中在Mdm 2在血管生成中的作用，特别是在收缩肌细胞水平上。我们认为运动可以刺激肌肉细胞中的Mdm 2激活，导致信号分子的产生和释放，这些信号分子反过来作用于邻近的内皮细胞，刺激新毛细血管的形成。 * * 这将通过三个独立的研究目标来实现。目标1。在体内肌肉组织和体外培养的肌肉细胞中表征运动对Mdm 2及其活化形式的影响。 目标二在体外培养的肌肉细胞中研究Mdm 2及其活化形式的作用机制。**目标3。在肌肉组织中，特别是在整个肌肉背景下的肌肉细胞水平上，研究Mdm 2及其活化形式的作用机制。我们的研究计划将提供肌肉生理学和Mdm 2生物学领域的新知识。这也将有助于在加拿大形成高素质的个人。