运动与衰老:线粒体功能和氧化还原的调控

衰老与线粒体功能衰退和氧化还原失衡紧密相关。随着年龄的增加,肌肉线粒体的DNA丰度和蛋白质的合成不断的下降,线粒体代谢过程中的副产物自由基增加导致脂质,蛋白质和核酸等大分子的氧化损伤不断累积。衰老相关的线粒体功能的下降和氧化还原失衡影响运动功能,导致胰岛素抵抗和神经退行性疾病,因而对于调节寿命起到重要的作用。因而线粒体可能是决定寿命的重要因素。大量研究证实长期运动训练可以很大程度预防和改善衰老相关疾病,其机制可能是通过促进线粒体生成和激活内源性抗氧化防御体系而提高线粒体功能和调控氧化还原平衡。因此,长期的运动训练预防衰老相关疾病和提高老年人的生命质量很可能是通过调控线粒体功能和氧化还原平衡而发挥作用。     

运动对大鼠体内锌代谢及H~＋─转运ATP酶的影响

本实验初步观察了运动过程中大鼠体内锌的变化情况以及运动对大鼠心肌线粒体能量转换功能的影响。结果提示：一次力竭运动可使大鼠体内锌代谢发生改变,变化的原因可能与摄入不足、运动机体需要增加等有关。一定强度的运动训练不足以使心肌线粒体功能发生明显改变,但一次力竭性运动可以导致心肌线粒体膜的流动性发生明显变化,Ｈ＋转运ＡＴＰ酶活性明显降低。     

运动对大鼠休内锌代谢及H^＋—转运ATP酶的影响

本实验初步观察了运动过程中大鼠体内锌的变化情况以及运动对大鼠心肌线粒体能量转换功能的影响。结果提示：一次力褐运动可使大鼠体内锌代谢代发生改变,变化的原因可能与摄入不足、运动机体需要增加等有关。一定强度的运动训练不足以使心肌线粒体功能发生明显改变,但一次力竭性运动可以导致心肌线粒体膜的流动性发生明显变化,Ｈ＾＋转运ＡＴＰ酶活性明显降低。     

萌发绿豆子叶衰老期间的呼吸作用与线粒体功能的改变

暗中培养的绿豆幼苗子叶在萌发后3—4天时,外观出现衰老征状,6天后子叶凋落。随子叶日龄的增加,子叶的呼吸强度一直下降,呼吸商始终小于1。当外加L—苹果酸、a—酮戊二酸、琥珀酸和NADH为底物测定离体线粒体氧化活性时,衰老子叶的线粒体对上述四种底物的氧化活性有不同程度的增加;抗氰呼吸也有所升高。子叶衰老时,线粒体的ADP／O和呼吸控制(RC值均降低);线粒体ATPase水解ATP的活性升高。衰老绿豆子叶线粒体氧化磷酸化偶联效率的降低和ATPase水解活性的增强是与线粒体结构改变相联系的一种功能变化,它导致能量亏缺,并进一步加速了衰老的恶化进程。     

线粒体稳态失衡与心脏衰老及相关疾病

随着年龄的增长,衰老的心脏会发生左室肥厚、舒张功能不全、瓣膜功能下降、心肌纤维化增加、电传导异常等病理变化.线粒体作为真核细胞中调控代谢的关键细胞器,是细胞内合成ATP的重要场所.由于心脏一刻不停地收缩需要大量ATP提供能量,线粒体稳态对于维持正常的心脏功能至关重要,而线粒体稳态失衡则会导致心脏功能发生异常.本文主要阐述了衰老心脏中线粒体的异常变化,探讨了线粒体形态与数量变化、线粒体代谢异常、线粒体质量控制失衡、线粒体基因组和转录组改变等线粒体稳态失衡在常见衰老相关心脏疾病发生发展中的重要作用,总结了靶向线粒体干预衰老相关心脏疾病的现状与前景,为研究线粒体相关心脏疾病的细胞分子机制,治疗衰老相关的心脏疾病提供新的思路.     

竹节参对力竭运动大鼠心肌线粒体ATP酶活性的影响

目的：探讨竹节参对力竭运动大鼠心肌线粒体ATP酶活性的影响。方法：建立力竭运动大鼠模型,测定心肌线粒体ATP酶的活性,研究竹节参对大强度耐力训练大鼠心肌线粒体的保护作用。结果：力竭运动引起大鼠心肌线粒体ATPase（Na＋,K＋-ATPase和Ca2＋-ATPase）活性显著下降,而运动加药组Ca2＋-ATPase有显著升高,Na＋,K＋-ATPase也有明显升高,且ATPase活性均接近于安静对照组的水平。结论：竹节参可提高力竭运动大鼠心肌线粒体内Na＋,K＋-ATP酶和Ca2＋-ATP酶的活性,提示其具有保护线粒体的作用。     

线粒体的热机效率原理及其在运动疲劳中的应用

基于呼吸链电子漏现象提出了用热机效率原理描述线粒体合成ＡＴＰ 的工作效率, 指出呼吸链漏电不仅使线粒体合成ＡＴＰ 的效率降低, 而且导致线粒体生成有害的活性氧自由基, 引起线粒体损伤。通过检测游泳耗竭小鼠心肌线粒体生成过氧化氢速率的增高和线粒体呼吸对氰化钾敏感性的下降,证明了耗竭运动引起呼吸链电子漏水平明显增高。随电子漏增加而出现的活性氧的损伤表现在线粒体脂质过氧化程度增加,呼吸链四个酶复合物的活性均有不同程度降低,以及呼吸控制率的下降等等。文章讨论了呼吸链电子漏和电子漏引起的活性氧生成对线粒体合成ＡＴＰ 效率的影响。     

大强度运动导致肝脏线粒功能紊乱及姜黄素的拮抗效应

目的：探讨姜黄素对大强度游泳运动小鼠肝脏线粒体功能紊乱的拮抗作用。方法：成年雄性BALB/C小鼠随机分为安静对照组、运动对照组、运动+姜黄素组［100 mg/（kg·d）］和安静+姜黄素组［100 mg/（kg·d）］。干预期为4w,干预期最后1w同时进行游泳运动训练,每天训练90 min,每天采用上述方式游泳运动7d,动物末次运动完成后处死。观察肝脏超微病理形态改变,测定血清谷丙转氨酶、谷草转氨酶水平,以及肝脏线粒体膜电位、呼吸控制率等线粒体功能学指标。结果：与安静对照组相比,姜黄素干预明显抑制了大强度运动导致的小鼠血清谷丙转氨酶（P<0.05）和谷草转氨酶（P<0.05）水平的上升,减轻了运动导致的肝细胞线粒体超微病理结构异常。姜黄素干预显著抑制了运动导致的小鼠肝脏线粒体膜电位（P<0.05）和呼吸控制率水平（P<0.05）的下降。结论：姜黄素对大强度运动小鼠肝细胞线粒体超微结构损伤和功能紊乱具有良好的拮抗作用,为天然植物化学物应用于抗运动疲劳提供新的前景方向。     

过度训练状态下心肌损伤线粒体机制的研究

目的：探讨过度训练状态下心肌组织损害的线粒体机制。方法：应用形态学手段和分子生化技术,观察运动后大鼠心肌组织酸性磷酸酶（ACP）、β-葡萄糖醛酸酶（β-GLU）和心肌线粒体膜通透性转换孔（肿）等指标的变化。结果：运动后心肌ACP和β-GLU活性明显增加,PTP开放增加。结论：过度训练后心肌线粒体的结构和功能发生了明显变化,这些变化可能与PTP开放增加密切相关。     

盟发绿豆子叶衰老期间的呼吸作用与线粒体功能的改变

暗中培养的绿豆幼苗子叶在萌发后3—4天时,外观出现衰老征状,6天后子叶凋落。随子叶日龄的增加,子叶的呼吸强度一直下降,呼吸商始终小于1。当外加L-苹果酸、α-酮戊二酸、琥珀酸和NADH为底物测定离体线粒体氧化活性时,衰老子叶的线粒体对上述四种底物的氧化活性有不同程度的增加;抗氰呼吸也有所升高。子叶衰老时,线粒体的ADP/O和呼吸控制(RC值均降低);线粒体ATPase水解ATP的活性升高。衰老绿豆子叶线粒体氧化磷酸化偶联效率的降低和ATPase水解活性的增强是与线粒体结构改变相联系的一种功能变化,它导致能量亏缺,并进一步加速了衰老的恶化进程。     

Long‐term Exercise Training in Overweight Adolescents Improves Plasma Peptide YY and Resistin

The objective of this study was to investigate the effect of long‐term exercise training on concentrations of five hormones related to appetite and insulin resistance in overweight adolescents. In addition, we were interested in the relationships of these hormones with each other and with anthropometric and/or cardiovascular disease marker changes. Participants were ≥ the 85th percentile for BMI for age and sex and participated in an 8‐month supervised aerobic training program. Anthropometrics, cardiovascular fitness assessment, and fasting blood samples were taken pre‐ and post‐training. Glucose, insulin, total cholesterol (TC), high‐density lipoprotein (HDL) cholesterol, low‐density lipoprotein (LDL) cholesterol, triglycerides, leptin, active ghrelin, total peptide YY (PYY), adiponectin, and resistin concentrations were measured. The participants increased their time to exhaustion on an incremental treadmill test and decreased both percent body fat and blood triglyceride concentrations. Total PYY concentration increased and resistin concentration decreased after long‐term exercise training, which are favorable outcomes. Leptin concentrations were related to weight, percent body fat, waist circumference, and triglyceride concentrations pre‐ and post‐training. The changes in resistin concentrations were related to the changes in triglyceride concentrations. We conclude that long‐term exercise training has beneficial effects for overweight adolescents with respect to PYY and resistin, hormones related to appetite and insulin sensitivity.     

大鼠产前手机辐射对子代小脑白质的影响

目的:探讨大鼠产前850～1 900 MHz手机辐射对成年子代小脑白质的影响。方法:孕鼠随机分为短时产前手机辐射组、长时产前手机辐射组和对照组,短时和长时辐射组于孕期第1～17日分别进行每天6 h和24 h手机辐射,各组雄性子代大鼠(n＝8)于3月龄取小脑组织,进行苏木精-伊红(HE)染色观察小脑皮质细胞形态,免疫组化和Western blot检测髓鞘碱性蛋白(MBP)、神经微丝-L(NF-L)和胶质纤维酸性蛋白(GFAP)表达。结果:与对照组比较,短时程和长时程产前手机辐射组子代大鼠小脑浦肯野细胞出现形态学改变;与对照组比较,长时程辐射组MBP、NF-L表达明显减少(P均＜0.05),而GFAP表达明显增多(P＜0.05);与短时程辐射组比较,长时程组子代大鼠小脑MBP、NF-L表达明显减少(P均＜0.05),而GFAP表达明显增多(P＜0.05)。结论:产前手机辐射会导致雄性子代大鼠小脑髓鞘和轴突的损害,以及星形胶质细胞的活化,且这种改变与产前手机辐射的时程相关。     

Age-related changes in mitochondrial membrane composition of rainbow trout (Oncorhynchus mykiss) heart and brain

Membrane composition, particularly of mitochondria, could be a critical factor by determining the propagation of reactions involved in mitochondrial function during periods of high oxidative stress such as rapid growth and aging. Considering that phospholipids not only contribute to the structural and physical properties of biological membranes, but also participate actively in cell signaling and apoptosis, changes affecting either class or fatty acid compositions could affect phospholipid properties and, thus, alter mitochondrial function and cell viability. In the present study, heart and brain mitochondrial membrane phospholipid compositions were analyzed in rainbow trout during the four first years of life, a period characterized by rapid growth and a sustained high metabolic rate. Specifically, farmed fish of three ages (1-, 2- and 4-years) were studied, and phospholipid class compositions of heart and brain mitochondria, and fatty acid compositions of individual phospholipid classes were determined. Rainbow trout heart and brain mitochondria showed different phospholipid compositions (class and fatty acid), likely related to tissue-specific functions. Furthermore, changes in phospholipid class and fatty acid compositions with age were also tissue-dependent. Heart mitochondria had lower proportions of cardiolipin (CL), phosphatidylserine (PS) and phosphatidylinositol, and higher levels of phosphatidylcholine (PC) and phosphatidylethanolamine (PE) with age. Heart mitochondrial membranes became more unsaturated with age, with a significative increase of peroxidation index in CL, PS and sphingomyelin (SM). Therefore, heart mitochondria became more susceptible to oxidative damage with age. In contrast, brain mitochondrial PC and PS content decreased in 4-year-old animals while there was an increase in the proportion of SM. The three main phospholipid classes in brain (PC, PE and PS) showed decreased n-3 polyunsaturated fatty acids, docosahexaenoic acid and peroxidation index, which indicate a different response of brain mitochondrial lipids to rapid growth and maturation.     

Achieving Weight and Activity Goals Among Diabetes Prevention Program Lifestyle Participants

Objective: The Diabetes Prevention Program (DPP) showed that intensive lifestyle intervention reduced the risk of diabetes by 58%. This paper examines demographic, psychosocial, and behavioral factors related to achieving weight loss and physical activity goals in the DPP lifestyle participants. Research Methods and Procedures: Lifestyle participants (n = 1079; mean age = 50.6, BMI = 33.9, 68% female, and 46% from minority groups) had goals of 7% weight loss and 150 min/wk of physical activity. Goal achievement was assessed at the end of the 16‐session core curriculum (approximately week 24) and the final intervention visit (mean = 3.2 years) as a function of demographic, psychosocial, and behavioral variables. Results: Forty‐nine percent met the weight loss goal and 74% met the activity goal initially, while 37% and 67%, respectively, met these goals long‐term. Men and those with lower initial BMI were more likely to meet activity but not weight loss goals. Hispanic, Asian, and Native Americans were more likely to meet the long‐term activity goals, and whites were more likely to meet the initial weight loss goal. In multivariate analyses, meeting the long‐term weight loss goal and both activity goals increased with age, while psychosocial and depression measures were unrelated to goal achievement. Dietary self‐monitoring was positively related to meeting both weight loss and activity goals, and meeting the activity goal was positively related to meeting the weight loss goal. Participants who met initial goals were 1.5 to 3.0 times more likely to meet these goals long‐term. Discussion: Success at meeting the weight loss and activity goals increased with age. Initial success predicted long‐term success. Self‐monitoring and meeting activity goals were related to achieving and sustaining weight loss.     

Short Term Integrative Meditation Improves Resting Alpha Activity and Stroop Performance

Our previous research showed that short term meditation training reduces the time to resolve conflict in the flanker task. Studies also show that resting alpha increases with long term meditation practice. The aim of this study is to determine whether short term meditation training both increases resting alpha activity and reduces the time to resolve conflict in the Stroop task and whether these two effects are related. Forty-three Chinese undergraduates were randomly assigned an experiment group given 5 days meditation training using integrative body-mind training (IBMT) and a relaxation training control. After training, only the IBMT group showed decreased conflict reaction time (RT), and increased resting mean alpha power. Moreover, the higher the enhancement of resting alpha power, the stronger the improvement of conflict RT. The results indicate that short term meditation diffusely enhances alpha and improves the ability to deal with conflict and moreover these two effects are positively related.     

Miro1‐dependent mitochondrial positioning drives the rescaling of presynaptic Ca2+ signals during homeostatic plasticity

Mitochondrial trafficking is influenced by neuronal activity, but it remains unclear how mitochondrial positioning influences neuronal transmission and plasticity. Here, we use live cell imaging with the genetically encoded presynaptically targeted Ca²⁺ indicator, SyGCaMP5, to address whether presynaptic Ca²⁺ responses are altered by mitochondria in synaptic terminals. We find that presynaptic Ca²⁺ signals, as well as neurotransmitter release, are significantly decreased in terminals containing mitochondria. Moreover, the localisation of mitochondria at presynaptic sites can be altered during long‐term activity changes, dependent on the Ca²⁺‐sensing function of the mitochondrial trafficking protein, Miro1. In addition, we find that Miro1‐mediated activity‐dependent synaptic repositioning of mitochondria allows neurons to homeostatically alter the strength of presynaptic Ca²⁺ signals in response to prolonged changes in neuronal activity. Our results support a model in which mitochondria are recruited to presynaptic terminals during periods of raised neuronal activity and are involved in rescaling synaptic signals during homeostatic plasticity.     

Effect of anabolic steroids on mitochondria and sarcotubular system of skeletal muscle.

Soleus and extensor digitorum longus (EDL) mitochondria and sarcotubular system were examined in sedentary and trained (treadmill for 12 wk) male rats that were treated with fluoxymesterone or methandrostanolone (2 mg/kg, 5 days/wk, for 8 wk). Neither physical exercise nor anabolic/androgenic steroid administration resulted in a significant change in muscle wet weight. Treatment with the anabolizing androgens increased succinate dehydrogenase activity in fast-twitch muscle mitochondria; this effect was not enhanced by training and was not observed in soleus mitochondria. On the other hand, the content of the slow-twitch muscle in sarcotubular fraction was increased in sedentary rats by fluoxymesterone or methandrostanolone treatment, whereas no significant changes were found in EDL. The training program affected adenosinetriphosphatase (ATPase) activities in the sarcotubular fraction; Mg2(+)-ATPase was increased in both soleus and EDL, but Ca2(+)-ATPase was decreased only in soleus. However, in sedentary animals only the Mg2(+)-dependent activity of EDL was increased by anabolizing androgen treatment, and this change was not potentiated by additional training. The present data indicate that anabolic/androgenic steroids can affect mitochondrial and sarcotubular enzymes in skeletal muscle. The effects are muscle-type specific.     

Changes in the ultrastructure of muscle fibers of the diaphragm in response to physical loading (morphometric analysis)

Red and white fibers have been investigated in the diaphragm of white rats, normal and under effect of physical loadings, various in intensity and duration. Relative volume and amount of lipid inclusions and mitochondria and their profiles and amount of glycogen granules have been estimated per one unit of the fiber section area. In unadapted animals acute physical loadings result in exhaustion of the reserves in the areas with a high volumetric density of mitochondria. These changes are mostly pronounced in the red fibers. Under a prolonged effect of the physical loadings of the training regimen, muscle fibers of both types have similar ultrastructural changes, demonstrating certain increase in their oxidative potential.     

大鼠运动性疲劳模型的建立

目的建立大鼠运动疲劳模型,观察运动疲劳对大鼠各项生理、生化指标的影响。方法20只大鼠随机分为正常对照组和运动疲劳模型组,运动疲劳模型组大鼠每日按照方案进行锻炼。实验结束后大鼠检测相关指标：血清MDA含量和红细胞SOD活性,肝脏与骨骼肌MDA含量、SOD活性,骨骼肌线粒体游离钙离子含量,骨骼肌线粒体膜电位,下丘脑神经递质。电镜观察骨骼肌线粒体细微结构。结果运动疲劳模型组大鼠造模2周以后其血清、肝和骨骼肌MDA含量均有显著升高,红细胞和骨骼肌SOD活性均有显著降低,骨骼肌线粒体膜电位显著性降低,骨骼肌线粒体游离Ca2＋含量有显著性降低,下丘脑GABA、5-HT含量有显著升高,下丘脑DA、ACh含量有显著性下降,电镜观察显示骨骼肌超微结构改变并以线粒体改变较为明显。结论大鼠跑台运动2周可造成运动疲劳模型,并造成大鼠骨骼肌线粒体损伤。     

Bicarbonate stimulation of mitochondrial ATPase. Effect of physical training.

Bicarbonate stimulation of hepatic mitochondrial ATPase activity decreased in rats subjected to intense physical training and reached minimum values at the end of the third week. The stimulatory effect of bicarbonate on mitochondrial heart ATPase remained unaffected under equal conditions. ATPase stimulation by dinitrophenol and sensitivity to oligomycin, both in mitochondria from rat liver or heart, were not affected by physical training. Results suggest that stimulation by dinitrophenol and bicarbonate might be due to effects on separate sites of the enzyme.