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Atrogin-1,一种在肌肉萎缩期间高度表达的肌肉特异性F-box蛋白。

Atrogin-1, a muscle-specific F-box protein highly expressed during muscle atrophy.

作者信息

Gomes M D, Lecker S H, Jagoe R T, Navon A, Goldberg A L

机构信息

Department of Cell Biology, Harvard Medical School, 240 Longwood Avenue, Boston, MA 02115, USA.

出版信息

Proc Natl Acad Sci U S A. 2001 Dec 4;98(25):14440-5. doi: 10.1073/pnas.251541198. Epub 2001 Nov 20.

DOI:10.1073/pnas.251541198
PMID:11717410
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC64700/
Abstract

Muscle wasting is a debilitating consequence of fasting, inactivity, cancer, and other systemic diseases that results primarily from accelerated protein degradation by the ubiquitin-proteasome pathway. To identify key factors in this process, we have used cDNA microarrays to compare normal and atrophying muscles and found a unique gene fragment that is induced more than ninefold in muscles of fasted mice. We cloned this gene, which is expressed specifically in striated muscles. Because this mRNA also markedly increases in muscles atrophying because of diabetes, cancer, and renal failure, we named it atrogin-1. It contains a functional F-box domain that binds to Skp1 and thereby to Roc1 and Cul1, the other components of SCF-type Ub-protein ligases (E3s), as well as a nuclear localization sequence and PDZ-binding domain. On fasting, atrogin-1 mRNA levels increase specifically in skeletal muscle and before atrophy occurs. Atrogin-1 is one of the few examples of an F-box protein or Ub-protein ligase (E3) expressed in a tissue-specific manner and appears to be a critical component in the enhanced proteolysis leading to muscle atrophy in diverse diseases.

摘要

肌肉萎缩是禁食、缺乏运动、癌症及其他全身性疾病导致的一种使人衰弱的后果,主要源于泛素-蛋白酶体途径加速蛋白质降解。为了确定这一过程中的关键因素,我们使用cDNA微阵列比较正常肌肉和萎缩肌肉,发现了一个独特的基因片段,在禁食小鼠的肌肉中其诱导表达增加了9倍多。我们克隆了这个基因,它在横纹肌中特异性表达。由于该mRNA在因糖尿病、癌症和肾衰竭而萎缩的肌肉中也显著增加,我们将其命名为atrogin-1。它包含一个功能性F-box结构域,可与Skp1结合,进而与SCF型泛素蛋白连接酶(E3)的其他组分Roc1和Cul1结合,还包含一个核定位序列和PDZ结合结构域。禁食时,atrogin-1 mRNA水平在骨骼肌中特异性升高,且在萎缩发生之前就升高。Atrogin-1是以组织特异性方式表达的F-box蛋白或泛素蛋白连接酶(E3)的少数例子之一,似乎是导致多种疾病中肌肉萎缩的蛋白水解增强过程中的关键组分。

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