Insight on the loading-mediated regulation of Runx1 in skeletal muscle

IF 5.3 2区 医学 Q1 PHYSIOLOGY Physiology Pub Date : 2023-05-01 DOI:10.1152/physiol.2023.38.s1.5733304
Pieter Koopmans, Ronald G. Jones, F. von Walden, I. Vechetti, Kevin A. Murach
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Abstract

Skeletal muscle adaptation during conditions of dynamic muscle loading such as resistance-type exercise occurs in conjunction with pronounced changes in gene expression. The objective of this study was to comprehensively evaluate gene expression at the onset of rapid muscle hypertrophy in mice. We analyzed the global, nascent, stable, and myonuclear transcriptome utilizing RNA-sequencing. C57BL6/J mice were treated with 5-ethenyl uridine at the end of 72 hours of synergist ablation mechanical overload of the plantaris muscle to assess transcriptional dynamics; sham mice served as controls. Mice with in vivo fluorescent myonuclear labeling were used to obtain RNA-sequencing in exclusively myonuclei from overloaded and sham mice. In these analyses, RUNX family transcription factor 1 ( Runx1, or Aml1) was significantly elevated in all conditions (adj. p<0.05x10-15) and was among the most induced genes across datasets. These findings allude to Runx1 as a highly regulated mediator of muscle hypertrophy that is enriched specifically in muscle fibers during loading. Myonucleus-specific global DNA methylome analysis also report exon and intron CpG hypomethylation in the Runx1 gene after overload. As gene body methylation can mediate alternative splicing, we subsequently hypothesized Runx1 may be subject to alternative splicing and conducted preliminary analyses of RNA splice isoforms present after acute overload. We found that a non-canonical isoform of Runx1 ( Runx1-202, coding for a 387 amino acid protein) was relatively more induced than the Runx1-201 transcript that codes for the full-length 465 amino acid protein (30- versus 17-fold induction, respectively), while Runx1 is essentially not expressed in sham muscle. Ongoing analysis will validate Runx1 splice variant expression during overload in muscle, the potential influence of DNA methylation, and the impact of the Runx1 short isoform on muscle hypertrophy. This work is supported by the National Institutes of Health under grant R00 AG063994 to Kevin A. Murach. This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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负载介导的Runx1在骨骼肌中的调控
在动态肌肉负荷条件下,如阻力型运动,骨骼肌的适应与基因表达的显著变化同时发生。本研究的目的是全面评估小鼠快速肌肉肥大发病时的基因表达。我们利用rna测序分析了全局的、新生的、稳定的和我的核转录组。C57BL6/J小鼠在增效剂消融72小时后给予5-乙基尿苷处理,以评估足底肌肉机械过载的转录动力学;假小鼠作为对照。采用体内肌核荧光标记的小鼠对超载小鼠和假小鼠的肌核进行特异性rna测序。在这些分析中,RUNX家族转录因子1 (Runx1,或Aml1)在所有条件下都显著升高(adj. p<0.05x10-15),并且是所有数据集中最受诱导的基因之一。这些发现暗示Runx1是一种高度调控的肌肉肥大介质,在负荷期间在肌肉纤维中特异性富集。myonuclear -specific global DNA甲基组分析也报道了Runx1基因过载后外显子和内含子CpG低甲基化。由于基因体甲基化可以介导选择性剪接,我们随后假设Runx1可能受到选择性剪接的影响,并对急性过载后存在的RNA剪接异构体进行了初步分析。我们发现Runx1的非规范异构体(Runx1-202,编码387个氨基酸的蛋白)比编码全长465个氨基酸蛋白的Runx1-201转录本(诱导率分别为30倍和17倍)相对更强,而Runx1在假肌中基本上不表达。正在进行的分析将验证Runx1剪接变异体在肌肉过载时的表达,DNA甲基化的潜在影响,以及Runx1短异构体对肌肉肥大的影响。这项工作由美国国立卫生研究院资助,拨款R00 AG063994给Kevin A. Murach。这是在2023年美国生理学峰会上发表的完整摘要,仅以HTML格式提供。此摘要没有附加版本或附加内容。生理学没有参与同行评议过程。
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来源期刊
Physiology
Physiology 医学-生理学
CiteScore
14.50
自引率
0.00%
发文量
37
期刊介绍: Physiology journal features meticulously crafted review articles penned by esteemed leaders in their respective fields. These articles undergo rigorous peer review and showcase the forefront of cutting-edge advances across various domains of physiology. Our Editorial Board, comprised of distinguished leaders in the broad spectrum of physiology, convenes annually to deliberate and recommend pioneering topics for review articles, as well as select the most suitable scientists to author these articles. Join us in exploring the forefront of physiological research and innovation.
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