后肢卸载诱导的骨骼肌萎缩的全球可变剪接图谱
Global alternative splicing landscape of skeletal muscle atrophy induced by hindlimb unloading.
作者信息
Sun Junjie, Yang Hua, Yang Xiaoming, Chen Xin, Xu Hua, Shen Yuntian, Ding Fei, Gu Xiaosong, Zhu Jianwei, Sun Hualin
机构信息
Key Laboratory of Neuroregeneration of Jiangsu and Ministry of Education, NMPA Key Laboratory for Research and Evaluation of Tissue Engineering Technology Products, Jiangsu Clinical Medicine Center of Tissue Engineering and Nerve Injury Repair, Co-Innovation Center of Neuroregeneration, Nantong University, Nantong, China.
Department of Neurosurgery, People's Hospital of Binhai County, Yancheng, China.
出版信息
Ann Transl Med. 2021 Apr;9(8):643. doi: 10.21037/atm-20-5388.
BACKGROUND
Long-term exposure to microgravity will cause skeletal muscle atrophy, which can cause serious harm to astronauts in space travel. Therefore, it is important to explore skeletal muscle atrophy's molecular mechanism for its prevention and treatment. However, as an important regulatory approach of skeletal muscle physiology, the role of alternative splicing in skeletal muscle atrophy, especially skeletal muscle atrophy caused by disuse, is unclear.
METHODS
We established a rat hindlimb unloading model and performed RNA sequencing on soleus muscle, which was seriously atrophied during unloading. Several bioinformatics methods were used to identify alternative splicing events and determine their gene functions.
RESULTS
Many alternative splicing events were found to occur at different time points (12 h, 24 h, 36 h, 3 days, and 7 days) after hindlimb unloading. These differential alternative splicing events mainly occurred in the gene's coding domain sequence region, and 59% of the alternative splicing events caused open reading frameshift. Bioinformatics analysis results showed that genes with different alternative splicing events were enriched in multiple pathways related to muscle atrophy, including the insulin signaling pathway, endocytosis, mitophagy, and ubiquitin-proteasome pathway. Moreover, alternative splicing of several deubiquitinase genes persisted during skeletal muscle atrophy induced by unloading. Additionally, we identified 10 differentially expressed RNA binding proteins during skeletal muscle atrophy induced by unloading, mainly containing Xpo4, Eif4e2, P4ha1, Lrrfip1, Zc3h14, Emg1, Hnrnp h1, Mbnl2, RBfox1, and Mbnl1. Hnrnp h1 and Mbnl2 were significantly downregulated, and RBfox1 and Mbnl1 were significantly upregulated during skeletal muscle atrophy caused by unloading.
CONCLUSIONS
To the best of our knowledge, the present study is the first to propose alternative splicing alterations related to disuse-induced muscle atrophy, emphasizing that alternative splicing is a new focus of attention in the occurrence of muscle atrophy.
背景
长期暴露于微重力环境会导致骨骼肌萎缩,这会对太空旅行中的宇航员造成严重伤害。因此,探索骨骼肌萎缩的分子机制对于其预防和治疗具有重要意义。然而,作为骨骼肌生理学的一种重要调节方式,可变剪接在骨骼肌萎缩,尤其是废用性骨骼肌萎缩中的作用尚不清楚。
方法
我们建立了大鼠后肢卸载模型,并对卸载过程中严重萎缩的比目鱼肌进行了RNA测序。使用多种生物信息学方法来识别可变剪接事件并确定其基因功能。
结果
在后肢卸载后的不同时间点(12小时、24小时、36小时、3天和7天)发现了许多可变剪接事件。这些差异可变剪接事件主要发生在基因的编码域序列区域,59%的可变剪接事件导致开放阅读框移码。生物信息学分析结果表明,具有不同可变剪接事件的基因富集于多个与肌肉萎缩相关的途径,包括胰岛素信号通路、内吞作用、线粒体自噬和泛素-蛋白酶体途径。此外,在卸载诱导的骨骼肌萎缩过程中,几个去泛素化酶基因的可变剪接持续存在。此外,我们在卸载诱导的骨骼肌萎缩过程中鉴定出10种差异表达的RNA结合蛋白,主要包括Xpo4、Eif4e2、P4ha1、Lrrfip1、Zc3h14、Emg1、Hnrnp h1、Mbnl2、RBfox1和Mbnl1。在卸载引起的骨骼肌萎缩过程中,Hnrnp h1和Mbnl2显著下调,RBfox1和Mbnl1显著上调。
结论
据我们所知,本研究首次提出了与废用性肌肉萎缩相关的可变剪接改变,强调可变剪接是肌肉萎缩发生过程中一个新的关注焦点。
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