长期饮酒扰乱雌性小鼠骨骼肌生物钟。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Abigail L Tice, Joseph A Laudato, Bradley S Gordon, Jennifer L Steiner
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引用次数: 4

摘要

骨骼肌内在核心时钟已成为代谢控制的关键特征,并影响肌肉生理学的几个方面。急性酒精中毒会扰乱核心分子钟,但慢性饮酒(比如导致酒精性肌病的酒精中毒)是否也是骨骼肌的授时因子仍不得而知。这项工作的目的是确定慢性饮酒是否会失调骨骼肌核心分子钟和时钟控制基因(CCGs)。C57BL/6Hsd雌性小鼠(14周龄)饲喂含对照(CON)或含酒精(EtOH)的液体饲料6周。CON和EtOH小鼠每4 h采集一次腓肠肌和血清,持续24 h。长期饮酒破坏了核心时钟的基因,包括抑制Bmal1、Per1、Per2和Cry2表达的节律高峰。参与Bmal1调控的基因包括Reverb α和Myod1也表现出较低的节律峰。CCGs、Dbp、Lpl、Hk2和Hadh也被酒精抑制。MYOD1、DBP和REVERBα的核表达模式被酒精改变,而BMAL1没有变化。总的来说,这些数据表明酒精破坏了骨骼肌核心时钟,但这些核心时钟的变化是酒精性肌病的病因还是结果,还需要未来的机制证实。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Chronic Alcohol Consumption Disrupts the Skeletal Muscle Circadian Clock in Female Mice.

The intrinsic skeletal muscle core clock has emerged as a key feature of metabolic control and influences several aspects of muscle physiology. Acute alcohol intoxication disrupts the core molecular clock, but whether chronic consumption, like that leading to alcoholic myopathy, is also a zeitgeber for skeletal muscle remains unknown. The purpose of this work was to determine whether chronic alcohol consumption dysregulates the skeletal muscle core molecular clock and clock-controlled genes (CCGs). C57BL/6Hsd female mice (14 weeks old) were fed a control (CON) or alcohol (EtOH) containing liquid diet for 6 weeks. Gastrocnemius muscles and serum were collected from CON and EtOH mice every 4-h for 24-h. Chronic alcohol consumption disrupted genes of the core clock including suppressing the rhythmic peak of expression of Bmal1, Per1, Per2, and Cry2. Genes involved in the regulation of Bmal1 also exhibited lower rhythmic peaks including Reverb α and Myod1. The CCGs, Dbp, Lpl, Hk2, and Hadh were also suppressed by alcohol. The nuclear expression patterns of MYOD1, DBP, and REVERBα were shifted by alcohol, while no change in BMAL1 was detected. Overall, these data indicate that alcohol disrupted the skeletal muscle core clock but whether these changes in the core clock are causative or a consequence of alcoholic myopathy requires future mechanistic confirmation.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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