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本文引用的文献

1
Distinct signal transductions in fast- and slow- twitch muscles upon denervation.去神经支配后快肌和慢肌中不同的信号转导。
Physiol Rep. 2018 Feb;6(4). doi: 10.14814/phy2.13606.
2
mTOR as a Key Regulator in Maintaining Skeletal Muscle Mass.mTOR作为维持骨骼肌质量的关键调节因子。
Front Physiol. 2017 Oct 17;8:788. doi: 10.3389/fphys.2017.00788. eCollection 2017.
3
Ubiquitin C-Terminal Hydrolase L1 regulates myoblast proliferation and differentiation.泛素羧基末端水解酶L1调节成肌细胞的增殖和分化。
Biochem Biophys Res Commun. 2017 Oct 7;492(1):96-102. doi: 10.1016/j.bbrc.2017.08.027. Epub 2017 Aug 10.
4
Muscle Histology Characterization Using H&E Staining and Muscle Fiber Type Classification Using Immunofluorescence Staining.使用苏木精-伊红染色进行肌肉组织学特征分析以及使用免疫荧光染色进行肌纤维类型分类
Bio Protoc. 2017 May 20;7(10). doi: 10.21769/BioProtoc.2279.
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mTOR Signaling in Growth, Metabolism, and Disease.生长、代谢及疾病中的mTOR信号传导
Cell. 2017 Apr 6;169(2):361-371. doi: 10.1016/j.cell.2017.03.035.
6
Do's and don'ts in the preparation of muscle cryosections for histological analysis.用于组织学分析的肌肉冰冻切片制备的注意事项。
J Vis Exp. 2015 May 15(99):e52793. doi: 10.3791/52793.
7
Skeletal muscle atrophy: Potential therapeutic agents and their mechanisms of action.骨骼肌萎缩:潜在的治疗药物及其作用机制。
Pharmacol Res. 2015 Sep;99:86-100. doi: 10.1016/j.phrs.2015.05.010. Epub 2015 Jun 2.
8
Overexpression of ubiquitin carboxyl-terminal hydrolase L1 (UCHL1) delays Alzheimer's progression in vivo.泛素羧基末端水解酶L1(UCHL1)的过表达在体内可延缓阿尔茨海默病的进展。
Sci Rep. 2014 Dec 3;4:7298. doi: 10.1038/srep07298.
9
Increased levels of UCHL1 are a compensatory response to disrupted ubiquitin homeostasis in spinal muscular atrophy and do not represent a viable therapeutic target.UCHL1 水平升高是脊髓性肌萎缩症中泛素稳态失调的代偿反应,并不代表可行的治疗靶点。
Neuropathol Appl Neurobiol. 2014 Dec;40(7):873-87. doi: 10.1111/nan.12168.
10
Rapamycin reverses insulin resistance (IR) in high-glucose medium without causing IR in normoglycemic medium.雷帕霉素可逆转高糖培养基中的胰岛素抵抗(IR),而在正常血糖培养基中不会引起胰岛素抵抗。
Cell Death Dis. 2014 May 8;5(5):e1214. doi: 10.1038/cddis.2014.178.

UCHL1 调节骨骼肌中的肌纤维和 mTORC1 活性。

UCHL1 regulates muscle fibers and mTORC1 activity in skeletal muscle.

机构信息

Division of Basic Biomedical Sciences, Sanford School of Medicine, University of South Dakota, United States of America.

Division of Basic Biomedical Sciences, Sanford School of Medicine, University of South Dakota, United States of America.

出版信息

Life Sci. 2019 Sep 15;233:116699. doi: 10.1016/j.lfs.2019.116699. Epub 2019 Jul 26.

DOI:10.1016/j.lfs.2019.116699
PMID:31356902
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6718320/
Abstract

AIMS

Skeletal muscle wasting is associated with many chronic diseases. Effective prevention and treatment of muscle wasting remain as a challenging task due to incomplete understanding of mechanisms by which muscle mass is maintained and regulated. This study investigated the functional role of Ubiquitin C-terminal hydrolase L1 (UCHL1) in skeletal muscle.

MAIN METHODS

Mice with skeletal muscle specific gene knockout of UCHL1 and C2C12 myoblast cells with UCHL1 knockdown were used. Muscle fiber types and size were measured using tissue or cell staining. The mammalian target of rapamycin complex 1 (mTORC1) and mTORC2 activities were assessed with the phosphorylation of their downstream targets.

KEY FINDINGS

In mouse skeletal muscle, UCHL1 was primarily expressed in slow twitch muscle fibers. Mice with skeletal muscle specific knockout (skmKO) of UCHL1 exhibited enlarged muscle fiber sizes in slow twitch soleus but not fast twitch extensor digitorum longus (EDL) muscle. Meanwhile, UCHL1 skmKO enhanced mTORC1 activity and reduced mTORC2 activity in soleus but not in EDL. Consistently, in C2C12 cells, UCHL1 knockdown increased the myotube size, enhanced mTORC1 activity, and reduced mTORC2 activities as compared with control cells. UCHL1 knockdown did not change the major proteins of mTOR complex but decreased the protein turnover of PRAS40, an inhibitory factor of mTORC1.

SIGNIFICANCE

These data revealed a novel function of UCHL1 in regulation of mTORC1 activity and skeletal muscle growth in slow twitch skeletal muscle. Given the upregulation of UCHL1 in denervation and spinal muscle atrophy, our finding advances understanding of regulators that are involved in muscle wasting.

摘要

目的

骨骼肌萎缩与许多慢性疾病有关。由于对维持和调节肌肉质量的机制了解不完整,因此肌肉萎缩的有效预防和治疗仍然是一项具有挑战性的任务。本研究探讨了泛素 C 端水解酶 L1(UCHL1)在骨骼肌中的功能作用。

主要方法

使用骨骼肌特异性 UCHL1 基因敲除小鼠和 UCHL1 敲低的 C2C12 成肌细胞进行研究。使用组织或细胞染色测量肌纤维类型和大小。通过检测其下游靶标的磷酸化来评估哺乳动物雷帕霉素靶蛋白复合物 1(mTORC1)和 mTORC2 的活性。

主要发现

在小鼠骨骼肌中,UCHL1 主要在慢肌纤维中表达。骨骼肌特异性 UCHL1 敲除(skmKO)小鼠的慢肌比目鱼肌纤维增大,但快肌伸趾长肌(EDL)纤维不变。同时,UCHL1 skmKO 增强了比目鱼肌中的 mTORC1 活性,降低了 mTORC2 活性,但在 EDL 中没有。同样,在 C2C12 细胞中,与对照细胞相比,UCHL1 敲低增加了肌管大小,增强了 mTORC1 活性,降低了 mTORC2 活性。UCHL1 敲低并未改变 mTOR 复合物的主要蛋白,但降低了 mTORC1 的抑制因子 PRAS40 的蛋白周转率。

意义

这些数据揭示了 UCHL1 在调节慢肌骨骼肌中 mTORC1 活性和骨骼肌生长中的新功能。鉴于 UCHL1 在去神经和脊髓肌萎缩中的上调,我们的发现增进了对参与肌肉萎缩的调节因子的理解。