不同游泳运动对小鼠酒精性脂肪肝形成的改善作用*

目的: 探讨7周不同负荷游泳运动对酒精性脂肪肝小鼠肝脏脂质代谢的改善作用及微RNA-34a(miR-34a)与过氧化物酶体增殖物激活的受体α(PPARα)的调控关系。方法: 50只雄性KM小鼠,随机分成空白组(K,n=10)和酒精性脂肪肝组(AFLD,n=40),AFLD组通过50%乙醇的谷酒王0.2 ml/10 g WT灌服7周,每周休息1 d。成功构模后,分成模型组(M)、30 min游泳运动组(LE)、60 min游泳运动组(ME)、90 min负重游泳运动组(HE,尾部铅皮负重体重的5%),每组10只,每周干预6 d,共7周。结束后,提取血清和肝脏组织,测定小鼠肝脏指数、内脏脂肪比,肝细胞损伤指标谷丙转氨酶(ALT)、谷草转氨酶(AST)、γ-谷氨酰基转肽酶(γ-GT)、总胆固醇(TC)、甘油三酯(TG)、高/低密度脂蛋白胆固醇(H/LDL-C)含量;HE染色观察肝脏结构变化,Western blot检测肝组织PPARα 、FAS、TNF-α蛋白水平,mRNA表达谱测序分析后RT-PCR验证miR-34a、PPARα 、FAS、TNF-α、CPT-1 mRNA表达。结果: 相比K组,AFLD组肝索紊乱,出现灶性脂质真空化,脂滴空泡样变明显,胞核畸形异位;肝功能水平显著降低(P<0.01)。相比M组,ME、HE组肝功能改善显著,血清TG、TC、LDL-C水平下降,HDL-C水平上升(P<0.01或P<0.05),肝脏指数、内脏脂肪比降低(P<0.01),肝细胞灶性脂滴样变下降,肝索结构较清晰;且ME组干预效果更为显著,肝组织PPARα蛋白表达水平上升 、FAS、TNF-α蛋白表达水平下降(P<0.01或P<0.05);基于Illumina高通量测序及mRNA差异分析,PPARα通路中有38个差异表达基因,含9个上调基因,29个下调基因,涉及肝脏脂肪酸氧化、脂质代谢、凋亡抑制等。相比M组,LE、ME、HE组miR-34a、FAS、TNF-α基因水平降低,PPARα、CPT-1基因水平升高(P<0.01或P<0.05)。结论: 不同负荷游泳运动对AFLD小鼠肝功能具有改善作用,促进脂滴降解,调节肝脏脂质代谢,可能与miR-34a/PPARα的激活有关,且中等负荷游泳运动干预效果更佳。     

The effects of dietary manipulation upon the respiratory exchange ratio as a predictor of maximum oxygen uptake during fixed term maximal incremental exercise in man

This study examined the effects of dietary manipulation upon the respiratory exchange ratio (R = VCO2/VO2) as a predictor of maximum oxygen uptake (VO2max). Seven healthy males performed fixed term maximal incremental treadmill exercise after an overnight fast on three separate occasions. The first test took place after the subjects had consumed their normal mixed diet (45 +/- 5% carbohydrate (CHO] for a period of three days. This test protocol was then repeated after three days of a low CHO diet (3 +/- 2% CHO), and again after three days of a high CHO diet (61 +/- 5% CHO). Respiratory gases were continuously monitored during each test using an on-line system. No significant changes in mean exercise oxygen uptake (VO2), VO2max or maximum functional heart rate (FHRmax) were found between tests. Mean exercise carbon dioxide output (VCO2) and R were significantly lower than normal after the low CHO diet (both p less than 0.001) and significantly higher than normal after the high CHO diet (both p less than 0.05). Moreover, compared with the normal CHO diet, the R-time relationship during exercise was at all times significantly (p less than 0.001) shifted to the right after the low CHO diet, and shifted to the left, being significantly so (p less than 0.05) over the final 5 min of exercise, after the high CHO diet.(ABSTRACT TRUNCATED AT 250 WORDS)     

Exercise-induced activation of the branched-chain 2-oxo acid dehydrogenase in human muscle

The present study was conducted to investigate the metabolic regulation of the oxidation of branched-chain amino acids (BCAA) by exercise in human skeletal muscle. Five trained male volunteers were exercised on a cycle ergometer at 70% +/- 10% (mean +/- SD) of their maximal oxygen consumption (VO2max). Percutaneous quadriceps muscle biopsies were obtained under local anaesthesia at rest and after 30 and 120 min of exercise. In the muscle samples the active and total amount of the branched-chain 2-oxo acid dehydrogenase complex (BC-complex), the regulatory enzyme in the oxidative pathway of the BCAA, were measured. Glycogen content and activity of mitochondrial marker enzymes were also measured. Blood samples were obtained every 20 min for the measurement of metabolites. Heart rate and rated perceived exertion on the Borg scale were recorded every 10 min. At rest 4.0% +/- 2.5% of the BC complex was active, after 30 min of exercise 9.9% +/- 9.0% and after 120 min 17.5% +/- 8.5% (mean +/- SD). Exercise did not change the total activity. The largest activation was seen in two of the subjects who developed higher blood lactates early on during exercise and decreased their muscle glycogen more (indications of anaerobic metabolism). These data demonstrate that in trained individuals significant increases in the activity of the BC-complex occur only after prolonged intense exercise. In spite of the 4-fold activation, the data support the classical view that amino acids and protein do not contribute substantially as an energy source during exercise, since VO2 increased more than 20-fold.     

科素亚对长期大强度运动所致大鼠心脏纤维化的预防作用

目的:研究血管紧张素Ⅱ1型受体拮抗剂科素亚对长期大强度运动所致心脏纤维化的预防作用。方法:48只雄性Wistar大鼠随机分为4组:对照组,科素亚处理的对照组,运动组,运动+科素亚处理组。运动组大鼠给予16周大强度运动,科素亚处理的大鼠每天训练前口服科素亚每次(50毫克/公斤/天)。通过计算心系数和观察心脏的组织形态学评估和比较各组大鼠心脏肥大的程度,免疫印迹法检测和比较各组大鼠4个心腔内转化生长因子-β1、纤维连接蛋白1、基质金属蛋白酶-2、I型胶原蛋白和III型胶原蛋白的蛋白表达水平。结果:长期大强度运动可造成大鼠左心室心脏壁肥大和右心室胶原沉积,心房和右心室的主要纤维化生物标志物的蛋白表达水平显著增加。科素亚预处理能够减少主要纤维化生物标志物TGF-β1、FIBROECTIN-1、MMP-2、TIMP-1、COLLAGEN-I、COLLAGEN-III表达水平,但不能完全改变心脏重量与体重比值增大的状态。结论:科素亚可部分预防耐力运动训练所致的心脏纤维化,但不能彻底改善心脏肥大。     

The effect of ice-slushy consumption on plasma vasoactive intestinal peptide during prolonged exercise in the heat

The aim of this study was to determine the effect of exercise in the heat on thermoregulatory responses and plasma vasoactive intestinal peptide concentration (VIP) and whether it is modulated by ice-slushy consumption. Ten male participants cycled at 62% $\dot{V}{\mathrm{O}}_2$max for 90 min in 32 °C and 40% relative humidity. A thermoneutral (37 °C) or ice-slushy (−1 °C) sports drink was given at 3.5 ml kg⁻¹ body mass every 15 min during exercise. VIP and rectal temperature increased during exercise (mean±standard deviation: 4.6±4.4 pmol L⁻¹, P=0.005; and 1.3±0.4 °C, P<0.001 respectively) and were moderately associated (r=0.35, P=0.008). While rectal temperature and VIP were not different between trials, ice-slushy significantly reduced heat storage (P=0.010) and skin temperature (time×trial interaction P=0.038). It appears that VIP does not provide the signal linking cold beverage ingestion and lower skin temperature in the heat.     

Physical activity patterns during weight maintenance following a low-energy density dietary intervention

Objective: The objective was to determine the role of physical activity (PA) and energy intake on weight maintenance among former University of Alabama at Birmingham EatRight Weight Management Program participants. Research Methods and Procedures: Eighty‐nine former participants completed follow‐up visits ≥1 year after completing EatRight. BMI was calculated using measured height and weight. Diet intake was estimated from 4‐day food records. PA was assessed using a module from the Behavioral Risk Factor Surveillance System Survey. Cut‐off points were chosen based on the distribution of minutes of activity. For moderate and total activity, cut‐off points were 0, 1 to 30, 31 to 60, and >60 minutes. For vigorous activity, the categories were 0, 1 to 20, 21 to 30, and >30 minutes. General linear models determined the association of PA with change in weight at follow‐up controlling for gender and total energy intake (kcal/d). Results: At follow‐up, 80% (n = 71) of participants maintained (regained <5% of program end weight) their body weight and 20% had gained weight. Mean weight change was 1.0 ± 6.5 kg. Maintainers consumed 384 fewer kcal/d on average. Maintainers had a lower energy density dietary pattern (1.58 vs. 2.01 kcal/g, p < 0.01). There was no significant difference in PA min/d reported by maintainers and gainers. Discussion: Our results suggest that, despite being minimally active, weight‐reduced individuals can successfully maintain their newly achieved body weight with appropriate caloric intake. Adopting a lower calorie, low energy density dietary pattern may reduce the amount of PA that is truly necessary for weight maintenance.     

Role of oxidative stress in impaired insulin signaling associated with exercise-induced muscle damage

Skeletal muscle is a major tissue that utilizes blood glucose. A single bout of exercise improves glucose uptake in skeletal muscle through insulin-dependent and insulin-independent signal transduction mechanisms. However, glucose utilization is decreased in muscle damage induced by acute, unaccustomed, or eccentric exercise. The decrease in glucose utilization is caused by decreased insulin-stimulated glucose uptake in damaged muscles with inhibition of the membrane translocation of glucose transporter 4 through phosphatidyl 3-kinase/Akt signaling. In addition to inflammatory cytokines, reactive oxygen species including 4-hydroxy-2-nonenal and peroxynitrate can induce degradation or inactivation of signaling proteins through posttranslational modification, thereby resulting in a disturbance in insulin signal transduction. In contrast, treatment with factors that attenuate oxidative stress in damaged muscle suppresses the impairment of insulin sensitivity. Muscle-damaging exercise may thus lead to decreased endurance capacity and muscle fatigue in exercise, and it may decrease the efficiency of exercise therapy for metabolic improvement.     

Dyskinesia in Parkinson's disease: mechanisms and current non‐pharmacological interventions

Dopamine replacement therapy in Parkinson's disease is associated with several unwanted effects, of which dyskinesia is the most disabling. The development of new therapeutic interventions to reduce the impact of dyskinesia in Parkinson's disease is therefore a priority need. This review summarizes the key molecular mechanisms that underlie dyskinesia. The role of dopamine receptors and their associated signaling mechanisms including dopamine‐cAMP‐regulated neuronal phosphoprotein, extracellular signal‐regulated kinase, mammalian target of rapamycin, mitogen and stress‐activated kinase‐1 and Histone H3 are summarized, along with an evaluation of the role of cannabinoid and nicotinic acetylcholine receptors. The role of synaptic plasticity and animal behavioral results on dyskinesia are also evaluated. The most recent therapeutic advances to treat Parkinson's disease are discussed, with emphasis on the possibilities and limitations of non‐pharmacological interventions such as physical activity, deep brain stimulation, transcranial magnetic field stimulation and cell replacement therapy. The review suggests new prospects for the management of Parkinson's disease‐associated motor symptoms, especially the development of dyskinesia.

     

Effect of treadmill exercise on PI3K/AKT/mTOR,autophagy, and Tau hyperphosphorylation in the cerebral cortex of NSE/htau23 transgenic mice

Purpose

Neurofibrillary tangles, one of pathological features of Alzheimer’s disease, are produced by the hyperphosphorylation and aggregation of tau protein. This study aimed to investigate the effects of treadmill exercise on PI3K/AKT/mTOR signal transmission, autophagy, and cognitive ability that are involved in the hyperphosphorylation and aggregation of tau protein.

Methods

Experimental animals (NSE/htau23 mice) were divided into non-transgenic control group (Non-Tg-Control; CON; n = 7), transgenic control group (Tg-CON; n = 7), and transgenic exercise group (Tg-Treadmill Exercise; TE; n = 7). The Tg-TE group was subjected to treadmill exercise for 12 weeks. After the treadmill exercise was completed, the cognitive ability was determined by conducting underwater maze tests. Western blot was conducted to determine the phosphorylation status of PI3K/AKT/mTOR proteins and autophagy-related proteins (Beclin-1, p62, LC3-B); hyperphosphorylation and aggregation of tau protein (Ser199/202, Ser404, Thr231, PHF-1); and phosphorylation of GSK-3β, which is involved in the phosphorylation of tau protein in the cerebral cortex of experimental animals.

Results

In the Tg-TE group that was subjected to treadmill exercise for 12 weeks, abnormal mTOR phosphorylation of PI3K/AKT proteins was improved via increased phosphorylation and its activity was inhibited by increased GSK-3β phosphorylation compared with those in the Tg-CON group, which was used as the control group. In addition, the expression of Beclin-1 protein involved in autophagosome formation was increased in the Tg-TE group compared with that in the Tg-CON group, whereas that of p62 protein was reduced in the Tg-TE group compared with that in the Tg-CON group. Autophagy was activated owing to the increased expression of LC3-B that controls the completion of autophagosome formation. The hyperphosphorylation and aggregation (Ser199/202, Ser404, Thr231, PHF-1) of tau protein was found to be reduced in the Tg-TE group compared with that in the Tg-CON group. Furthermore, in the underwater maze test, the Tg-TE group showed a reduced escape time and distance compared with those of the Tg-CON group, suggesting that learning and cognitive ability were improved.

Conclusion

These findings suggest that aerobic exercise such as treadmill exercise might be an effective approach to ameliorate the pathological features (or neurofibrillary tangles) of Alzheimer’s disease.     

The relationship of aerobic capacity,anaerobic peak power and experience to performance in CrossFit exercise

CrossFit is becoming increasingly popular as a method to increase fitness and as a competitive sport in both the Unites States and Europe. However, little research on this mode of exercise has been performed to date. The purpose of the present investigation involving experienced CrossFit athletes and naïve healthy young men was to investigate the relationship of aerobic capacity and anaerobic power to performance in two representative CrossFit workouts: the first workout was 12 minutes in duration, and the second was based on the total time to complete the prescribed exercise. The participants were 32 healthy adult males, who were either naïve to CrossFit exercise or had competed in CrossFit competitions. Linear regression was undertaken to predict performance on the first workout (time) with age, group (naïve or CrossFit athlete), VO₂max and anaerobic power, which were all significant predictors (p < 0.05) in the model. The second workout (repetitions), when examined similarly using regression, only resulted in CrossFit experience as a significant predictor (p < 0.05). The results of the study suggest that a history of participation in CrossFit competition is a key component of performance in CrossFit workouts which are representative of those performed in CrossFit, and that, in at least one these workouts, aerobic capacity and anaerobic power are associated with success.