H19X 编码的 miR-322(424)/miR-503 通过靶向翻译起始因子来调节肌肉质量。

H19X-encoded miR-322(424)/miR-503 regulates muscle mass by targeting translation initiation factors.

机构信息

Department of Biology and Biochemistry, University of Houston, Houston, TX, USA.

Department of Oncology, The First Affiliated Hospital of Xi'an Jiaotong University, Xi'an, Shaanxi Province, China.

出版信息

J Cachexia Sarcopenia Muscle. 2021 Dec;12(6):2174-2186. doi: 10.1002/jcsm.12827. Epub 2021 Oct 26.

DOI:10.1002/jcsm.12827

PMID:34704401

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8718088/

Abstract

BACKGROUND

Skeletal muscle atrophy is a debilitating complication of many chronic diseases, disuse conditions, and ageing. Genome-wide gene expression analyses have identified that elevated levels of microRNAs encoded by the H19X locus are among the most significant changes in skeletal muscles in a wide scope of human cachectic conditions. We have previously reported that the H19X locus is important for the establishment of striated muscle fate during embryogenesis. However, the role of H19X-encoded microRNAs in regulating skeletal mass in adults is unknown.

METHODS

We have created a transgenic mouse strain in which ectopic expression of miR-322/miR-503 is driven by the skeletal muscle-specific muscle creatine kinase promoter. We also used an H19X mutant mouse strain in which transcription from the locus is interrupted by a gene trap. Animal phenotypes were analysed by standard histological methods. Underlying mechanisms were explored by using transcriptome profiling and validated in the two animal models and cultured myotubes.

RESULTS

Our results demonstrate that the levels of H19X microRNAs are inversely related to postnatal skeletal muscle growth. Targeted overexpression of miR-322/miR-503 impeded skeletal muscle growth. The weight of gastrocnemius muscles of transgenic mice was only 54.5% of the counterparts of wild-type littermates. By contrast, interruption of transcription from the H19X locus stimulates postnatal muscle growth by 14.4-14.9% and attenuates the loss of skeletal muscle mass in response to starvation by 12.8-21.0%. Impeded muscle growth was not caused by impaired IGF1/AKT/mTOR signalling or a hyperactive ubiquitin-proteasome system, instead accompanied by markedly dropped abundance of translation initiation factors in transgenic mice. miR-322/miR-503 directly targets eIF4E, eIF4G1, eIF4B, eIF2B5, and eIF3M.

CONCLUSIONS

Our study illustrates a novel pathway wherein H19X microRNAs regulate skeletal muscle growth and atrophy through regulating the abundance of translation initiation factors, thereby protein synthesis. The study highlights how translation initiation factors lie at the crux of multiple signalling pathways that control skeletal muscle mass.

摘要

背景

骨骼肌萎缩是许多慢性疾病、废用性疾病和衰老的一种使人虚弱的并发症。全基因组基因表达分析表明，在广泛的人类消耗性疾病中，H19X 基因座编码的 microRNAs 水平升高是骨骼肌最重要的变化之一。我们之前曾报道过，H19X 基因座对于胚胎发生过程中横纹肌命运的建立很重要。然而，H19X 编码的 microRNAs 在调节成人骨骼肌质量中的作用尚不清楚。

方法

我们创建了一种转基因小鼠品系，其中 miR-322/miR-503 的异位表达由肌肉特异性肌酸激酶启动子驱动。我们还使用了一种 H19X 突变小鼠品系，其中该基因座的转录被基因陷阱打断。通过标准组织学方法分析动物表型。通过转录组谱分析和在两种动物模型及培养的肌管中验证来探索潜在机制。

结果

我们的结果表明，H19X microRNAs 的水平与出生后骨骼肌生长呈负相关。靶向过表达 miR-322/miR-503 会阻碍骨骼肌生长。转基因小鼠的比目鱼肌重量仅为野生型同窝仔鼠的 54.5%。相比之下，H19X 基因座转录的中断通过 14.4-14.9%刺激出生后肌肉生长，并通过 12.8-21.0%减轻饥饿引起的骨骼肌质量损失。肌肉生长受阻不是由 IGF1/AKT/mTOR 信号受损或泛素-蛋白酶体系统过度活跃引起的，而是伴随着转基因小鼠中翻译起始因子的丰度明显下降。miR-322/miR-503 直接靶向 eIF4E、eIF4G1、eIF4B、eIF2B5 和 eIF3M。

结论

本研究说明了一条新的途径，即 H19X microRNAs 通过调节翻译起始因子的丰度来调节骨骼肌的生长和萎缩，从而调节蛋白质合成。该研究强调了翻译起始因子如何处于控制骨骼肌质量的多个信号通路的核心。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d0dd/8718088/678683469dad/JCSM-12-2174-g002.jpg

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H19X 编码的 miR-322(424)/miR-503 通过靶向翻译起始因子来调节肌肉质量。

H19X-encoded miR-322(424)/miR-503 regulates muscle mass by targeting translation initiation factors.

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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