耐力训练会降低啮齿动物骨骼肌中的核糖体密度，尽管会增加核糖体生物合成标志物。

Endurance training lowers ribosome density despite increasing ribosome biogenesis markers in rodent skeletal muscle.

作者信息

Romero Matthew A, Mobley C Brooks, Linden Melissa A, Meers Grace Margaret-Eleanor, Martin Jeffrey S, Young Kaelin C, Rector R Scott, Roberts Michael D

机构信息

School of Kinesiology, Auburn University, Auburn, AL, USA.

Medicine-Division of Gastroenterology and Hepatology, and Nutrition and Exercise Physiology, University of Missouri, Columbia, MO, USA.

出版信息

BMC Res Notes. 2017 Aug 11;10(1):399. doi: 10.1186/s13104-017-2736-0.

DOI:10.1186/s13104-017-2736-0

PMID:28800772

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5553677/

Abstract

OBJECTIVE

The purpose of this study was to examine if: (a) high sugar/high fat Western diet (WD)-feeding affects skeletal muscle ribosome biogenesis markers in hyperphagic, diabetic-prone Otsuka Long-Evans Tokushima Fatty (OLETF) rats, and (b) 12 weeks of treadmill training rescued potential detriments that WD feeding exerted on these markers.

METHODS

Eight week-old male OLETF rats were fed a low-fat control diet (O-CON, n = 10) or high/sucrose/cholesterol Western diet (WD). At weeks 20-32 of age, WD-fed rats were divided into WD sedentary (O-WD/SED, n = 16), or WD treadmill trained (5 days/week, 60 min/day) (O-WD/EX, n = 10) conditions.

RESULTS

Interestingly, total RNA (i.e., ribosome density) was 2.3-fold greater in O-WD/SED versus O-WD/EX rats (p = 0.003) despite levels of upstream binding factor protein, RNA polymerase I protein and pre-45S rRNA being greater in O-WD/EX rats. Ribophagy (USP10 and G3BP1) and TRAMP-exosome rRNA degradation pathway (EXOSC10 and SKIV2L2) proteins were assayed to determine if these pathways were involved with lower ribosome density in O-WD/EX rats. While USP10 was higher in O-CON versus O-WD/SED and O-WD/EX rats (p < 0.001 and p < 0.001, respectively), G3BP1, EXOSC10 and SKIV2L2 did not differ between groups. Nop56 and Ncl mRNAs, ribosome assembly markers, were highest in O-WD/EX rats. However, Fbl mRNA and 28S rRNA, downstream ribosome processing markers, were lowest in O-WD/EX rats. Collectively these data suggest that, in WD-fed rats, endurance training increases select skeletal muscle ribosome biogenesis markers. However, endurance training may reduce muscle ribosome density by interfering with rRNA processing and/or export through mechanisms independent of ribophagy or rRNA degradation.

摘要

目的

本研究旨在探讨：（a）高糖/高脂肪西式饮食（WD）喂养是否会影响易患糖尿病、食欲亢进的大冢长- Evans 德岛肥胖（OLETF）大鼠骨骼肌核糖体生物合成标志物；（b）12周的跑步机训练是否能挽救WD喂养对这些标志物产生的潜在损害。

方法

8周龄雄性OLETF大鼠分别喂食低脂对照饮食（O-CON，n = 10）或高糖/高胆固醇西式饮食（WD）。在20至32周龄时，WD喂养的大鼠被分为WD久坐组（O-WD/SED，n = 16）或WD跑步机训练组（每周5天，每天60分钟）（O-WD/EX，n = 10）。

结果

有趣的是，尽管O-WD/EX大鼠中上游结合因子蛋白、RNA聚合酶I蛋白和前45S rRNA水平较高，但O-WD/SED大鼠的总RNA（即核糖体密度）比O-WD/EX大鼠高2.3倍（p = 0.003）。检测了核糖体自噬（USP10和G3BP1）和TRAMP-外泌体rRNA降解途径（EXOSC10和SKIV2L2）蛋白，以确定这些途径是否与O-WD/EX大鼠中较低的核糖体密度有关。虽然O-CON大鼠中的USP10高于O-WD/SED和O-WD/EX大鼠（分别为p < 0.001和p < 0.001），但G3BP1、EXOSC10和SKIV2L2在各组之间没有差异。核糖体组装标志物Nop56和Ncl mRNA在O-WD/EX大鼠中最高。然而，核糖体下游加工标志物Fbl mRNA和28S rRNA在O-WD/EX大鼠中最低。总体而言，这些数据表明，在WD喂养的大鼠中，耐力训练会增加特定的骨骼肌核糖体生物合成标志物。然而，耐力训练可能通过独立于核糖体自噬或rRNA降解的机制干扰rRNA加工和/或输出，从而降低肌肉核糖体密度。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dc21/5553677/3bed00fb0619/13104_2017_2736_Fig1_HTML.jpg

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耐力训练会降低啮齿动物骨骼肌中的核糖体密度，尽管会增加核糖体生物合成标志物。

Endurance training lowers ribosome density despite increasing ribosome biogenesis markers in rodent skeletal muscle.

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