TCONS_00016478通过PGC1-α/ PPARγ信号通路影响实验性房颤兔心房肌能量代谢重构的机制

目的探讨长链非编码RNA(lncRNA)TCONS_00016478通过调控过氧化物酶增殖物激活受体γ辅助激活因子1α(PGC-1α)/过氧化物酶增殖物激活受体γ(PPARγ)信号通路影响实验性房颤兔心房肌能量代谢重构的机制。方法采用高通量二代测序技术检测房颤兔/非房颤兔右心房组织差异性表达lncRNAs,成年新西兰白兔18只,体质量2.0～2.5 kg,雌雄不拘,随机分为假手术组(行开胸术但不注射病毒)、阴性对照慢病毒组(右心房注射阴性对照慢病毒)和TCONS_00016478沉默慢病毒组(右心房注射TCONS_00016478沉默慢病毒),每组6只。感染病毒前及感染1周后分别使用心脏电生理仪行程序电刺激,检测心房有效不应期(AERP)与房颤诱发性。感染病毒1周后处死动物,取心房肌组织,采用qRT-PCR法检测RNA的表达,采用Western blotting法检测蛋白质的表达,采用PAS染色法和油红O染色法分别检测糖原和脂滴沉积。结果与感染病毒前相比,感染病毒1周后,TCONS_00016478沉默慢病毒组AERP缩短(80.667±1.453 vs 71.750±2.411,t=3.168,P=0.034);假手术组(80.083±1.044 vs 79.333±0.333,t=0.684,P=0.531)与阴性对照慢病毒组(81.083±2.599 vs 80.000±2.646,t=0.022,P=0.983)手术前后AERP差异无统计学意义。TCONS_00016478沉默慢病毒组病毒感染1周后,3只诱发房颤,假手术组和阴性对照慢病毒组均未诱发房颤。假手术组、阴性对照慢病毒组及TCONS_00016478沉默慢病毒组心房肌TCONS_00016478(F=126.042,P<0.001)、PGC-1α(F=43.998,P<0.001)、PPARγ(F=417.863,P<0.001)、葡萄糖转运蛋白-4(GLUT4)(F=98.043,P<0.001)及碱棕榈酰转移酶-1(CPT1)(F=105.096,P<0.001)基因表达量均差异有统计学意义。与假手术组相比,TCONS_00016478沉默慢病毒组心房肌TCONS_00016478在基因水平表达量降低(P<0.001),与能量代谢相关的蛋白质PGC-1α、PPARγ、GLUT4、CPT1在基因水平表达量降低(P<0.001),蛋白质水平表达量亦下降,差异有统计学意义(P<0.001);生物信息学分析表明,lncRNA TCONS_00016478及其靶基因PGC-1α与心肌能量代谢密切相关。心房肌细胞糖原和脂滴异常沉积。结论 TCONS_00016478通过调控PGC-1α/PPARγ信号通路影响心房肌能量代谢重构,进而调控房颤发生。

基于智能化技术的OA护膝治疗膝骨性关节炎

以高压低变频脉冲与经络理论相结合,采用动态干扰变频脉冲,研制了以PIC16F630单片机作为系统控制核心的OA护膝,以及基于肌电信号的膝骨性关节炎疗效评判,临床对比研究20例,认为采用OA护膝治疗可以提高肌能量,增强肌力,改善膝关节的功能和减轻症状。

一种用于实时提取动作信号的新方法

对于连续动作的肌电信号 ,从肌电能量的角度提出了一种简单易行的方法 ,将肌电信号自动分割成有动作信号段和无动作信号段 ,为相应的后续处理提供了方便 ,避免了对无动作的信号进行辨识识别运算 ,对提高多自由度肌电假肢的动作识别率有着应用意义。通过对实际连续肌电信号中动作信号的实时提取 。

Energy expenditure and muscular activation patterns through active sitting on compliant surfaces

Purpose: To test the effectiveness of sitting surfaces with varied amounts of stability on muscle activity and energy expenditure.Methods: Using a within-participants repeated measures design, 11 healthy young-adult females(age = 20.0 ± 1.8 years) were measured using indirect calorimetry to assess energy expenditure, and electromyography to assess muscular activation in trunk and leg musculature under 3different sitting surfaces: flat-firm surface, air-filled cushion, and a stability ball. Data were analyzed using repeated measures analysis of variance with follow-up pairwise contrasts used to determine the specific effects of sitting surface on muscle activation and energy expenditure.Results: Significantly greater energy expenditure was recorded for the stability ball(p = 0.01) and the cushion(p = 0.03) over the flat surface(10.4% and 9.6% greater, respectively), with no differences between the ball and the cushion. Both the ball and the cushion produced higher tibialis anterior activation over the flat surface(1.09 and 0.63 root-mean-square millivolts(RMSmv), respectively), while the stability ball produced higher soleus activity over both cushion and flat surfaces(3.97 and 4.24 RMSmv, respectively). Additionally, the cushion elicited higher adductor longus activity over the ball and flat surfaces(1.76 and 1.81 RMSmv, respectively), but no trunk musculature differences were revealed.Conclusion: Compliant surfaces resulted in higher levels of muscular activation in the lower extremities facilitating increased caloric expenditure.Given the increasing trends in sedentary careers and the increases in obesity, this is an important finding to validate the merits of active sitting facilitating increased caloric expenditure and muscle activation.

American ginseng supplementation attenuates creatine kinase level induced by submaximal exercise in human beings

AIM: To investigate whether American ginseng (AG, Panax quinquefolium) supplementation was able to improve endurance exercise performance.METHODS: Thirteen physically active male college students were divided into two groups (AG or placebo)and received supplementation for 4 wk, before the exhaustive running exercise. Treadmill speed was increased to a pace equivalent to 80% VO2max of the subject. A 4-wk washout period followed before the subjects crossed over and received the alternate supplement for the next 4 wk.They then completed a second exhaustive running exercise. The physiological variables that were examined included time to exhaustion and oxygen pulse. Moreover,the plasma creatine kinase (CK) and lactate were measured prior to the exercise, at 15 and 30 min during exercise,immediately after exercise, and 20, 40, 60, and 120 min after exercise.RESULTS: The major finding of this investigation was that the production plasma CK during the exercise significantly decreased for group AG than for group P. Secondary physiological finding was that 80% VO2max running was not improved over a 4-wk AG supplementation regimen.CONCLUSION: Supplementation with AG for 4 wk prior to an exhaustive aerobic treadmill running reduced the leakage of CK during exercise, but did not enhance aerobic work capacity. The reduction of plasma CK may be due to the fact that AG is effective for the decrease of skeletal muscle cell membrane damage, induced by exercise during the high-intensity treadmill run.

Proteome Profiles of Longissimus and Biceps Femoris Porcine Muscles Related to Exercise and Resting

Exercise affects muscle metabolism and composition in the untrained muscles. The proteome of muscle tissue will be affected by exercise and resting. This is of economic importance for pork quality where transportation relates to exercise of untrained muscles. Rest reverses exercise effects. The objective of this research was to develop potential protein biomarkers that predict the optimal resting time after exercise related to optimal pork quality. Ten litters of four female pigs were within litter allocated to the four treatment groups： exercise by running on a treadmill for 27 minutes followed by rest for 0, 1, or 3 h; control pigs without exercise. Proteome profiles and biochemical traits measuring energy metabolism and meat quality traits expected to be related to exercise were determined in the Longissimus and the Biceps femoris of the pigs. The results indicated associations between protein abundances in muscles and exercise, resting, and biochemical traits.

A novel artificial anal sphincter system based on transcutaneous energy transmission

For controlling anal incontinence,a new artificial anal sphincter system (AASS) with sensor feed-back based on transcutaneous energy transmission is developed.The device mainly comprises an artificialanal sphincter (AAS),a wireless power supply subsystem,and a communication subsystem.The artifi-cial anal sphincter comprises a front cuff and a sensor cuff placed around the rectum,a reservoir sited inabdominal cavity and a micropump controlling inflation and deflation of the front cuff.There are two pres-sure sensors in the artificial anal sphincter.One can measure the pressure in the front cuff to clamp therectum,the other in the sensor cuff can measure the pressure of the rectum.Wireless power supply sub-system includes a resonance transmit coil to transmit an alternating magnetic field and a secondary coil toreceive the power.Wireless communication subsystem can transmit the pressure information of the artifi-cial anal sphincter to the monitor,or send the control commands to the artificial anal sphincter.A proto-type is designed and the basic function of the artificial anal sphincter system has been tested through ex-periments.The results demonstrate that the artificial anal sphincter system can control anal incontinenceeffectively.

Effects of Sedentarism and Treadmill Training in Mechanical Properties of Muscles of Ovariectomized Rats with High-Fat Diet

The aim of this study is to evaluate the ability of physical training in the maintenance of muscle strength in rats with HFD （high-fat diet） after OVX （ovariectomy）. Eighty Wistar rats are at eight weeks of age and weight 200 g which divided into 8 groups （n = 10） and treated for 12 weeks： GA： OVX ＋ ND （normal diet）, GB： OVX ＋ ND ＋ training, GC： sham ＋ ND, GD： sham ＋ ND ＋ training, GE： OVX ＋ HFD, GF： OVX ＋ HFD ＋ training, GG： sham ＋ HFD and GH： sham ＋ HFD ＋ training. HFD consists of standard ration for rats with addition of 30% lipids. In training groups, physical training five training/week was conducted on a treadmill with adaptation period of three weeks up to 18 m/s for one hour, training were performed for 12 weeks. The sedentary animals remained in individual box. To analyze the effects of training and diet, tensile strength tests of the gastrocnemius muscles were conducted： the speed of 0.1 mm/min. Analysis of variance was performed to compare groups. The mean （SD） obtained for the maximum load （N） were： GA 57.77 （6.89）, GB 62.74 （5.07）, GC 49.45 （6.06）, GD 59.42 （5.26） and GE 55.58 （4.72）, GF 62.50 （4.56）, GG 58.35 （4.54） and GH 56.67 （5.87）, respectively. There were no differences for maximum load between surgeries （p = 0.004） and between treatments （p = 0.000）. Differences were found also for the relationship surgery diet treatment （p = 0.007）. For the variable stiffness （N/mm）, there were not statistically significant differences： GA 5.03 （0.72）, GB 5.08 （1.09）, GC 5.17 （0.53）, GD 5.35 （0.80）, GE 5.52 （1.20）, GF 5.36 （1.07）, GG 4.83 （1.03） and GH 5.40 （0.73）. For the toughness （N/mm）, there were differences between treatments （p = 0.010） and the ratio diet treatment （p = 0.024）： GA 455.00 （107.21）, GB 541.96 （126.80）, GC 394.97 （84.67）, GD 566.90 （157.07）; GE 424.63 （113.03）, GF 478.07 （106.03）; GG 517.44 （98.65） and GH 481.26 （129.45）. OVX causes decrease in muscle maximum load; exercise treadmill provides increased muscular endurance, regardless of the diet and the OVX in groups, the increased resistance observed in the groups submitted to HFD can result in weight gain associated with the presence estrogen.

Baoyuan decoction alleviates myocardial infarction through the regulation of metabolic dysfunction and the mitochondria-dependent caspase-9/3 pathway

Objective:Baoyuan decoction(BYD)is a traditional Chinese formula with myocardial protection efficacy validated by modern pharmacological tests.The present study aimed to investigate the effect and mechanism of BYD on alleviating myocardial infarction(MI).Methods:Nuclear magnetic resonance-based serum and urinary metabolomics were employed to explore the metabolic regulation effects of BYD in rats with MI induced by left anterior descending ligation.Oxygen-glucose deprivation/recovery(OGD/R)model in H9c2 cells and multiple molecular biology approaches were used to clarify the underlying action mechanisms of BYD.Results:BYD treatment recovered the serum and urinary metabolite profiles of the MI rats toward normal metabolic status and significantly improved mitochondrial energy metabolism and apoptosis pathways perturbed by MI.Analysis of the molecular mechanism of BYD indicated that it suppressed OGD/R-induced H9c2 cell apoptosis in a concentration-dependent manner by inhibiting the mitochondria-dependent caspase-9/3-poly ADP-ribose polymerase pathway.Conclusions:Our results demonstrate that BYD protects against myocardial apoptosis via the mitochondrial metabolic and apoptosis pathways.They also provide novel insights into the clinical application of BYD for the treatment of ischemic heart diseases.

Effect of captopril on myocardial energy metabolism in chronic pressure overload rats

Objective To investigate the effects of captopril on cardiac function and levels of energy-rich phosphates in pressure overload induced left ventricular hypertrophy rats. Methods One hundred and twenty SD rats were randomly divided into three groups： sham operation group （SH group, n=40）,coarctation of abdominal aorta group （CAA group, n=40） and captopril treatment lmg~ 100g1 ~ d-1） group （CAP group, n=40）. Left ventricular end-diastolic pressure （LVEDP）, left venh-icular mass index （LVMI）, levels of energy-rich phosphates and morphological changes of the myocardial mitochondria were compared at the 62 and 82 week after operation. Results At 62 week, in CAA group, LVMI and LVEDP were increased and _ dp/dtmax was decreased, while ATP and ADP were decreased and AMP was increased （P〈0.01）. These changes were much obvious at 8th week （P〈0.01）. Compared with those of CAA group, the parameters of heart function and energy-rich phosphates （ATP, ADP, AMP, TAN） in CAP group were improved significantly（P〈0.01） at the 6th and 8th week. In CAP group, the parameters of heart function and energy-rich phosphates （ADP, AMP, TAN） were much better at 8~ week than those at 6th week. The morphological change of mitochondria was less in CAP group than that in CAA group. Conclusion Captopril significantly improves myocardial energy metabolism in pressure overload rats and protects the function of myocardial mitochondria

A Review of Effects of Heat Stress on Substance and Energy Metabolism in Muscle

Environmental temperature is a major factor affecting animal performance in South China. With global warming, heat stress will become more and more serious. This paper reviewed the effects of heat stress on metabolism of proteins, glucose, fat and energy in skeletal muscle and related mechanisms so as to provide theoretical guidance for alleviating heat stress and improving production performance of animal suffering from heat stress.

Prediction of fish body's passive visco-elastic properties and related muscle mechanical performance in vivo during steady swimming

For attaining the optimized locomotory performance of swimming fishes,both the passive visco-elastic properties of the fish body and the mechanical behavior of the active muscles should coordinate with the fish body’s undulatory motion pattern.However,it is difficult to directly measure the visco-elastic constitutive relation and the muscular mechanical performance in vivo.In the present paper,a new approach based on the continuous beam model for steady swimming fish is proposed to predict the fish body’s visco-elastic properties and the related muscle mechanical behavior in vivo.Given the lateral travelling-wave-like movement as the input condition,the required muscle force and the energy consumption are functions of the fish body’s visco-elastic parameters,i.e.the Young’s modulus E and the viscosity coefficient in the Kelvin model.After investigating the variations of the propagating speed of the required muscle force with the fish body’s visco-elastic parameters,we analyze the impacts of the visco-elastic properties on the energy efficiencies,including the energy utilization ratios of each element of the kinematic chain in fish swimming and the overall efficiency.Under the constraints of reasonable wave speed of muscle activation and the physiological feasibility,the optimal design of the passive visco-elastic properties can be predicted aiming at maximizing the overall efficiency.The analysis is based on the small-amplitude steady swimming of the carangiform swimmer,with typical Reynolds number varying from 2.5×104to 2.5×105,and the present results show that the non-dimensional Young’s modulus is 112±34,and the non-dimensional viscosity coefficient is 13 approximately.In the present estimated ranges,the overall efficiency of the swimming fish is insensitive to the viscosity,and its magnitude is about 0.11±0.02,in the predicted range given by previous study.

Cold-induced shape memory hydrogels for strong and programmable artificial muscles

Thermo-responsive shape memory hydrogels generally achieve shape fixation at low temperatures,and shape recovery at high temperatures.However,these hydrogels usually suffer from poor mechanical properties.Herein,we present a unique poly(acrylic acid)/calcium acetate shape memory hydrogel with cold-induced shape recovery performances as ultrastrong artificial muscles.Since the acetate groups could form aggregate at high temperatures and thus induce the association of the hydrogel network,the hydrogel can be fixed into a temporary shape upon heating and recover to its original shape in a cold environment.Moreover,a programmable shape recovery process is realized by adjusting the shape fixing time.In addition,the unique shape memory process enables the application demonstration as bio-inspired artificial muscles with an ultrahigh work density of45.2 kJ m^(-3),higher than that of biological muscles(~8 kJ m^(-3)).

Effect of Yiqihuoxue prescription on myocardial energy metabolism after myocardial infarction via cross talk of liver kinase B1-depen-dent Notch1 and adenosine 5'-monophosphate-activated protein kinase

OBJECTIVE: To investigate the effect of Yiqihuoxue prescription(YQHX) from Traditional Chinese Medicine(TCM) on myocardial glucose and lipid metabolism after myocardial infarction via the cross talk between the liver kinase B1(LKB1)-dependent Notch1 and adenosine 5'-monophosphate(AMP)-activated protein kinase(AMPK). YQHX was prepared with substances with properties that benefit, to activate blood circulation based on the TCM theory.METHODS: Animal models of myocardial infarction were established by ligating Sprague Dawley rats' left anterior descending coronary arteries. The animals were randomly divided into a myocardial infarction(MI) group, a YQHX group, a perindopril group, a γ-secretase inhibitor, Notch signal inhibitor(DAPT) group, a DAPT+YQHX group and a sham group. The related drugs were administered on the second day after operation, and changes in the relevant indexes were examined on weeks 1 and 4.Changes in cardiac structure and function were examined by echocardiography. The glucose and free fatty acids(FFA) were examined by ELISA. The expression of Notch, LKB1 and AMPK m RNA was examined by a real-time fluorescence quantitative method. The expression of glucose transporter 4(GLUT4), and the expression of total acetyl-Co A carboxylase(ACC) and its phosphorylation were examined by western blotting.RESULTS: Compared with the sham group, the expression of Notch, LKB1 and AMPK m RNA in the MI group was lower. Compared with the MI group, the expression of these m RNAs in the YQHX and perindopril groups was higher, and their expression in the DAPT group was lower. At all time points, the protein expression of GLUT4 and p ACC decreased in the MI group. On week 1, the expression of p ACC protein was higher. In the DAPT group, the expression of p ACC protein decreased. Compared with the YQHX group, the expression of p ACC protein in the DAPT + YQHX group was lower. On week 4,compared with the MI group, the expression of GLUT4 protein in the YQHX group and the perindo-pril group was higher. The expression of GLUT4 protein in the DAPT group decreased. Compared with the YQHX group, the expression of GLUT4 protein in the DAPT+YQHX group was lower. There was no significant difference in the expression of ACC protein between the groups.CONCLUSION: YQHX promoted cross talk between the LKB1-dependent Notch1 and AMPK in myocardial tissue after myocardial infarction. Furthermore,it regulated the glucose and lipid metabolism of cardiomyocytes at different time points, thereby ameliorating the cardiac energy metabolism via different mechanisms and protecting the heart.