This study was to performed to the effect of 8-week endurance exercise influences on body weight, glucose tolerance and ER-stress in soleus of 16weeks Rats fed High-Fat diet. Rats were randomly assigned to 3 group; (1)Sprague-Dawley Control diet (SD-Con/n=4), (2)High-Fat diet Control (HF-Con/n=4), (3)High-Fat diet Exercise (HF-Exe/n=4). Exercise group ran on the treadmill for 30min/day at the level of 21m/min for 5days/week during 8weeks. Results showed that body weight and glucose tolerance of the HF-Con group was remarkably increased(p<.05) compared to other groups. However, HF-Exe group significantly decreased body weight and glucose tolerance compared to HF-Con group. Moreover, level of GRP78, ATF6, PERK and IER1⍺, which are main proteins of ER-stress were significantly increased in HF-Con group higher than other group, whereas HF-Exe group significantly decreased the expression of GRP78, ATF6, PERK and IER1⍺. Taken together, these finding suggested that the reduction of the body weight, glucose tolerance and unfolded protein response by treadmill exercise may represent a positive adaptation protecting against high-fat diet-induced ER stress.
Purpose The purpose of this study was to investigate the effect of treadmill exercise and MitoQ treatment on NADPH oxidase, antioxidation and vascular function-related factors in aortic of D-galactose-induced aging rats. Methods To induce the animal model of aging, D-galactose was diluted in saline, and a dose of 100mg /kg was intraperitoneally injected into Sprague-Dawley rats once a day for a total of 10 weeks. Rats were divided into five groups: Control group (CON, n=9), D-galactose control group (DC, n=9), D-galactose+MitoQ group (DM, n=9), D-galactose+Exercise group (DE, n=9), D-galactose+MitoQ + Exercise group(DME, n=9), and treadmill exercise was conducted for 5 days/week during 8 weeks with gradual increase of intensity. MitoQ treatment was intraperitoneally injected at a concentration of 100μM/kg twice a week for 8 weeks during the research period. Results The result showed that treadmill exercise and MitoQ treatment decreased the expression of NADPH oxidase level and increased antioxidant enzyme such as SOD-2, catalase. It lead to positive effects such as increasing the level of eNOS, a protein involved in vascular function while decreasing the level of VCAM-1. In addition, as a result, it showed the structurally reduced intima-media thickness. Conclusions It can be concluded that treadmill exercise and MitoQ treatment are effective in ameliorating and treating vascular dysfunction resulting from aging.
