Effects of calorie restriction for 8 weeks on contractile function and mito-chondrial biosynthesis in different types of rat skeletal muscles
10.3969/j.issn.1000-4718.2015.02.001
- VernacularTitle:限食8周对大鼠不同类型骨骼肌收缩功能及线粒体生物合成的影响
- Author:
Ni QIU
;
Cong LI
;
Weijin FANG
;
Yulian HE
;
Xuemei WEI
;
Yan XIONG
- Publication Type:Journal Article
- Keywords:
Calorie restriction;
Soleus;
Extensor digitorum longus;
Skeletal muscle contractility;
Mitochon-drial biosynthesis
- From:Chinese Journal of Pathophysiology
2015;(2):193-200
- CountryChina
- Language:Chinese
-
Abstract:
AIM:To investigate the influence of calorie restriction ( CR) on contractility and mitochondrial bi-osynthesis in different types of rat skeletal muscles .METHODS:CR rat model was set up by feeding 60%normal food in-take of control rat every day for 8 weeks.Soleus (SOL) and extensor digitorum longus (EDL) were isolated under anesthe-sia.The twitch tension, titanic tension and fatigue resistance of SOL and EDL in response to electrical stimulation were measured to reflect the contractile function of the muscles .The copy number ratio of mitochondrial gene cytochrome C oxi-dase subunit I ( COX I) to nuclear gene β-actin was determined to evaluate the mitochondrial biosynthesis .ATP content was measured to mirror mitochondrial function .RESULTS:Compared with control group , CR for 8 weeks significantly in-creased twitch tension and titanic tension of both SOL and EDL , but only improved fatigue resistance in SOL .Markedly in-crease in ATP content in both skeletal muscles by CR intervention was observed , especially in SOL .Although CR activated AMP-activated protein kinase (AMPK) in both 2 muscles, up-regulation of mitochondrial biosynthesis and transcription of mitochondrial regulatory genes peroxisome proliferator-activated receptor γcoactivator 1α( PGC-1α) and nuclear respirato-ry factor ( NRF) was only observed in SOL .CONCLUSION:CR for 8 weeks enhanced the contractility of both rat SOL and EDL in response to electrical stimulation , especially in SOL composed of slow-twitch fibers.The mechanisms may be related to the activation of AMPK and the promotion of mitochondrial biosynthesis in SOL .
