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BACKGROUND/OBJECTIVES@#To investigate the effect and regulatory mechanism of resveratrol supplementation on the mitochondrial energy metabolism of rats with exerciseinduced fatigue.MATERIALS/METHODS: Forty-eight Sprague-Dawley male rats were divided randomly into a blank control group (C), resveratrol group (R), exercise group (E), and exercise and resveratrol group (ER), with 12 rats in each group. Group ER and group E performed 6-wk swimming training with 5% wt-bearing, 60 min each time, 6 days a wk. Group ER was given resveratrol 50 mg/kg by gavage one hour after exercise; group R was only given resveratrol 50 mg/kg by gavage; group C and group E were fed normally. The same volume of solvent was given by gavage every day. @*RESULTS@#Resveratrol supplementation could reduce the plasma blood urea nitrogen content, creatine kinase activity, and malondialdehyde content in the skeletal muscle, increase the total superoxide dismutase activity in the skeletal muscle, and improve the fatigue state.Resveratrol supplementation could improve the activities of Ca2+ -Mg2+ -ATPase, Na+ -K+ -ATPase, succinate dehydrogenase, and citrate synthase in the skeletal muscle. Furthermore, resveratrol supplementation could up-regulate the sirtuin 1 (SIRT1)-proliferator-activated receptor gamma coactivator-1α (PGC-1α)-nuclear respiratory factor 1 pathway. @*CONCLUSIONS@#Resveratrol supplementation could promote mitochondrial biosynthesis via the SIRT1/PGC-1α pathway, increase the activity of the mitochondrial energy metabolismrelated enzymes, improve the antioxidant capacity of the body, and promote recovery from exercise-induced fatigue.
ABSTRACT
Objective To examine the separate or combined effects of aerobic exercise and AlaGln administration on patients with type 2 diabetes mellitus(T2DM).Methods T2DM was induced in rats by feeding a high-fat diet and injecting a low dose of streptozocin.Then they were trained for 8 weeks with or without administration of alanyl glutamine(Ala-Gln).At the end of training,the content of fasting serum glucose (FBG),insulin (INS),C-peptide and glucagon like peptide-1 (GLP-1) were measured and homeostasis model assessment of insulin resistance (HOMA-IR) was calculated.Results Compared with the normal rats,significant increase was observed in the FBG concentration(P<0.05)and HOMA-IR(P<0.05),but significant decrease in C-peptide(P<0.05) and GLP-1(P<0.01) of the type 2 diabetic rats.Aerobic exercise resulted in significant decrease in the FBG and HOMA-IR levels,but significant increase in the concentration of C-peptide(P<0.01).Ala-Gln administration reduced FBG (P<0.05),and promoted the concentrations of serum insulin (P<0.05),C-peptide (P<0.01) and GLP-1(P<0.05) significantly.The combination of aerobic exercise with Ala-Gln administration had a significant interaction on promoting serum insulin(P<0.05),but not on decreasing FBG and HOMA-IR,or increasing C-peptide and GLP-1.Conclusion The aerobic exercise or Ala-Gln administration can significantly lower blood glucose levels by improving the impaired insulin secretion in type 2 diabetic rats,and their combination has a synergistic effect on promoting insulin secretion.
ABSTRACT
Objective To explore the effect of hypoxic training on the barrier function of intestinal mucous membrane and underlying mechanism in rats.Methods Eighty 5-week-old male Sprague-Dawley rats were randomly divided into a control group,an exercise training group,a hypoxia control group and a hypoxia exercise group,each of 20.The altitude training was conducted through swimming training in artificial hypoxia environment.Two and 6 weeks after the intervention,the tissue structure and ultrastructure of small intestine mucosa were observed.The content of diamine oxidase (DAO)and D-lactate (D-LA),tumor necrosis factor-α (TNF-α)and nuclear factor κB (NF-κB)in plasma and the mRNA level of occludin in ileal tissue were measured.Results (1)Electron microscopy data showed that,after six weeks,compared with the control group,the microvilli of rats in the exercise training group were sparser and arranged irregularly.Furthermore,the gap between epithelial cells became wider.In addition,the number of mitochondria decreased significantly and cristae were vague.For the hypoxia control group,the microvilli shortened significantly and arranged irregularly.Moreover,the gap between cells became wider with partial denatured mitochondria.For the Hypoxia exercise group,the number of mucosal epithelium microvilli in the bowels reduced significantly and the microvilli shortened significantly.Similar to that of the hypoxia control group,the gap between epithelium cells growed wider.However,the cellular structure were fuzzier,and the denature of mitochondria worsened,with the cristae being vague even disappearing partially.(2)Two weeks of exercise training reduced the number of intestinal microvilli significantly (P<0.01),but increased the plasma level of the DAO and D-LA,as well as the expression level of NF-κB in intestinal tissue significantly (P<0.05).Hypoxic exposure significantly reduced the mRNA level of oceludin in small intestine (P<0.01),but significantly increased the plasma level of DAO and D-LA (P<0.05 vs.control)and the expression of TNF-α and NF-κB in small intestine (P<0.01).There was no significant interaction between two weeks of exercise training and hypoxia exposure either on the reduction of the number and height of intestinal microvilli,or the transcription level of occluding in small intestine,or the plasma level of DAO and D-LA,or the expression of TNF-α and NF-κB in small intestine (P>0.05).(3)Both exercise training for six weeks and hypoxia exposure significantly reduced the number and height of microvilli in small intestine (P<0.01)and the occludin level in small intestine,but significantly increased the plasma level of DAO and DLA (P<0.01),the expression of TNF-α (P<0.01,P<0.05)and NF-κB (P<0.01).Meanwhile there was significant interaction between six-week exercise training and hypoxia exposure on decreasing the number (P<0.01)and the height (P<0.05)of microvilli in small intestine.Conclusion (1)Both intensive training and hypoxia exposure can impair intestinal mucosal barrier function and the extent of damage is correlated with the duration of training and hypoxia exposure.(2)Hypoxic exposure and intensive training may reduce the expression of occludin mRNA through increasing the expression of TNF-α and NF-κB in the small intestine,which in turn increases intestinal permeability and intestinal mucosa inju