The Growth Hormone/IGF-1 Axis in Skeletal Muscle

骨骼肌中的生长激素/IGF-1 轴

• 批准号: 8481184
• 负责人: Thomas L Clemens
• 金额: $ 33.33万
• 依托单位: JOHNS HOPKINS UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-06-28 至 2015-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8481184
• 关键词: Ablation; Aging; Animals; Area; Binding; Body Composition; Body fat; Data; Development; Endocrine; Energy Metabolism; Exercise; Fatty acid glycerol esters; Fiber; Generations; Genetic; Giant Cells; Growth; Growth Factor; Growth Hormone Signaling Pathway; Hormonal; Hormones; Human; Human body; In Vitro; Individual; Insulin-Like Growth Factor I; Measurement; Measures; Mechanics; Mediating; Mediator of activation protein; Modeling; Mus; Muscle; Muscle Cells; Muscle Development; Muscle Fibers; Muscle function; Mutant Strains Mice; Myoblasts; Natural regeneration; Pathway interactions; Peripheral; Phenotype; Physiological; Process; Production; Proliferating; Role; Series; Signal Transduction; Skeletal Muscle; Somatomedins; Somatotropin; Testing; Therapeutic Uses; Time; Tissues; Weight; Work; base; effective therapy; growth hormone deficiency; improved; in vivo; mouse model; muscle form; muscle hypertrophy; muscle regeneration; muscle strength; postnatal; public health relevance; receptor; response; sarcopenia; transcription factor

DESCRIPTION (provided by applicant): Mammalian skeletal muscle develops and regenerates through a process in which individual myoblasts fuse with one another to create a multinucleated syncytium. Growth hormone (GH) has long been recognized as a critical anabolic factor required for normal muscle development and regeneration. GH treatment improves muscle strength and reduces body fat in humans and animals. Moreover, increases in muscle mass and strength produced with exercise are accompanied by profound increases in the activity of the growth hormone (GH)/insulin-like growth factor 1 (IGF-1) axis. Conversely, the physiological changes that the human body undergoes with aging including sarcopenia resemble those observed in GH deficiency. However, the mechanisms through which GH produces its effects on skeletal muscle are still poorly understood. In skeletal muscle and other target tissues, GH can function independent of IGF-1 by activating signaling of its cognate receptor (GHR). Alternatively, GH can function indirectly through stimulating production of IGF-1. In this mode, IGF-1 binds to the IGF-1 type I receptor (IGF-1R) causing activation of downstream pathways which also induce anabolic activity in skeletal muscle. The close relationship between GH and IGF-1 has made it virtually impossible to distinguish actions of each of these growth factors in target tissues. Recently, we have devised a genetic approach in mice which enables selective disruption of individual components of the GH/IGF-1 axis. Using this strategy we demonstrated that GHR is absolutely required for normal skeletal muscle development and provide new evidence that GH increases muscle tissue mass by enhancing myoblast fusion. Moreover, in this proposal, we present new data which suggests that GH actions in skeletal muscle may generate additional hormonal signals that enable cross talk between muscle and fat to orchestrate global energy expenditure and regulate body composition. In this project, we will (1) define essential actions of GH in skeletal muscle and (2) identify the mode of GH action in skeletal muscle and determine its relationship to IGF-1. These aims employ complementary genetic mouse models and their myoblasts to identify the mechanisms and of action of GH in skeletal muscle and distinguish effects of GH from those mediated by IGF-1.

描述（由申请方提供）：哺乳动物骨骼肌通过单个成肌细胞相互融合形成多核合胞体的过程发育和再生。生长激素（GH）长期以来被认为是正常肌肉发育和再生所需的关键合成代谢因子。生长激素治疗改善肌肉力量，减少人体和动物体内脂肪。此外，运动产生的肌肉质量和力量的增加伴随着生长激素（GH）/胰岛素样生长因子1（IGF-1）轴活性的显著增加。相反，人体随着年龄的增长而经历的生理变化，包括肌肉减少症，类似于生长激素缺乏症中观察到的变化。然而，生长激素对骨骼肌产生作用的机制仍然知之甚少。在骨骼肌和其他靶组织中，GH可以通过激活其同源受体（GHR）的信号传导而独立于IGF-1发挥作用。另外，GH可以通过刺激IGF-1的产生间接发挥作用。在这种模式下，IGF-1与IGF-1 I型受体（IGF-1 R）结合，引起下游途径的激活，这也诱导骨骼肌中的合成代谢活性。GH和IGF-1之间的密切关系使得几乎不可能区分这些生长因子中的每一种在靶组织中的作用。最近，我们已经设计了一种遗传方法，在小鼠中，使选择性中断的个别组成部分的GH/IGF-1轴。使用这种策略，我们证明了生长激素受体是绝对需要正常的骨骼肌发育，并提供了新的证据，生长激素增加肌肉组织质量，通过增强成肌细胞融合。此外，在这项提案中，我们提出了新的数据，表明骨骼肌中的GH作用可能会产生额外的激素信号，使肌肉和脂肪之间的串扰能够协调全球能量消耗和调节身体组成。在这个项目中，我们将（1）定义骨骼肌中GH的基本作用和（2）确定骨骼肌中GH的作用模式，并确定其与IGF-1的关系。这些目标采用互补遗传小鼠模型及其成肌细胞来确定GH在骨骼肌中的作用机制和作用，并将GH的作用与IGF-1介导的作用区分开来。