Overcoming Disuse Atrophy and Osteoporosis in Hibernating Mammals

克服冬眠哺乳动物的废用性萎缩和骨质疏松症

• 批准号: 8700761
• 负责人: Vadim Fedorov
• 金额: $ 19.8万
• 依托单位: UNIVERSITY OF ALASKA FAIRBANKS
• 依托单位国家: 美国
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-04-01 至 2016-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8700761
• 关键词: Animals; Base Pairing; Bed rest; Bioinformatics; Biological Preservation; Black Bear; Clinical; Data; Development; Distant; Disuse Atrophy; Drug Compounding; Foundations; Future; Gene Expression; Gene Expression Profile; Genes; Genetic Transcription; Genomics; Goals; Health; Hibernation; Human; Immobilization; Length; Mammals; Maps; Mechanics; Metabolic Pathway; Modeling; Molecular; Molecular Profiling; Muscle; Muscular Atrophy; Musculoskeletal; Osteoporosis; Pathway Analysis; Pathway interactions; Patients; Prevention; Process; Reading; Regulator Genes; Research; Resources; Sampling; Signal Pathway; Skeletal Muscle; Skeletal bone; Skeleton; Spermophilus; Technology; Testing; Tissue-Specific Gene Expression; Translating; Ursidae Family; arctic ground squirrel; attenuation; base; bone; bone disuse atrophy; bone loss; bone mass; cost effective; follow-up; genome sequencing; genome-wide; genome-wide analysis; improved; insight; knowledge base; muscle form; muscle strength; next generation sequencing; novel; overexpression; prevent; programs; public health relevance; research study; skeletal; therapeutic target; tool; transcriptome sequencing

DESCRIPTION (provided by applicant): Reduced skeletal loading leads to muscle atrophy and bone loss in humans and most mammals. Disuse muscle atrophy and osteoporosis represent significant clinical problem for patients during prolonged periods of immobilization and bed rest. Bears and ground squirrels are largely inactive during hibernation, but they show no loss in bone mass and less muscle atrophy than would be anticipated over such a prolonged period of physical inactivity. This suggests that hibernating mammals have unique natural adaptation to musculoskeletal disuse. Although preservation of bone mass and attenuation of muscle atrophy in hibernating bears and ground squirrels have been documented, molecular mechanisms underlying this important adaptation are not known. Our goal is to identify through transcriptional changes physiologically relevant candidate pathways and understand molecular mechanisms preventing disuse muscle atrophy and bone loss in hibernating mammals. Advantage of the next generation sequencing tools will be used to conduct large scale screens of transcriptional changes in bone and muscle comparing winter hibernating and summer active animals. Genome-wide transcriptional profiling will detect sufficiently large number of differentially expressed genes for comprehensive pathway analysis elucidating functional significance of transcriptional changes. Comparison of functional gene groups and pathways enriched by co regulated genes between two evolutionary distant species with different hibernation modes is expected to reveal general transcriptional program with untapped potential for development of improved treatment and prevention of disuse muscle atrophy and osteoporosis in non-hibernating mammals, including humans. .

描述（由申请人提供）：骨骼负荷降低导致人类和大多数哺乳动物的肌肉萎缩和骨丢失。废用性肌肉萎缩和骨质疏松症是长期卧床不动患者的重要临床问题。熊和地松鼠在冬眠期间基本上不活动，但它们的骨量没有损失，肌肉萎缩也比预期的要少。这表明，冬眠的哺乳动物有独特的自然适应肌肉骨骼废用。虽然保存的骨量和肌肉萎缩的衰减冬眠熊和地松鼠已被记录，分子机制，这一重要的适应还不清楚。我们的目标是通过转录变化识别生理相关的候选途径，并了解防止冬眠哺乳动物废用性肌肉萎缩和骨丢失的分子机制。下一代测序工具的优势将被用来进行大规模筛选的转录变化，在骨骼和肌肉比较冬季冬眠和夏季活动的动物。全基因组转录谱分析将检测足够多的差异表达基因，用于全面的途径分析，阐明转录变化的功能意义。通过比较两种不同冬眠模式的进化远缘物种的功能基因组和共调节基因富集的途径，有望揭示具有开发改进的治疗和预防非冬眠哺乳动物（包括人类）废用性肌肉萎缩和骨质疏松症的潜力的一般转录程序。.