耐力训练和急性力竭运动对大鼠组织金属硫蛋白含量的不同影响

为探讨金属硫蛋白（ＭＴ）在运动提高机体自我保护能力方面的作用,本实验观察了游泳运动对大鼠心、肝、肺、脑、血管、血浆和骨骼肌等７种组织金属硫蛋白含量的影响。结果表明耐力训练组大鼠心、肝、肺和骨骼肌组织金属硫蛋白含量较正常对照组明显降低１３－３４％（Ｐ＜０．０５）;急性力竭运动组大鼠心、肝、脑、肺和骨骼肌组织其含量较正常对照组则明显升高２１－７５％（Ｐ＜０．０５）;但两组大鼠血管和血浆ＭＴ含量变化与对照组大鼠相比无统计学意义（Ｐ＜０．０５）。推测各组织金属硫蛋白在不同运动形式下的不同变化可能在运动提高机体自我保护能力方面具有积极意义。     

训练与β－内啡肽对急性运动反应关系的研究

用放射免疫法测定训练和非训练大鼠运动前、运动到５０％耐力时间（Ｔ１／２）和衰竭时丘脑下部和血浆β－内啡肽（β－ＥＰ）的含量,探索了训练与β－ＥＰ对急性运动反应的关系。结果表明：训练组大鼠丘脑下部β－ＥＰ含量在运动到Ｔ１／２和衰竭时分别较安静时提高了４％和１５％;对照组大鼠在Ｔ１／２时,β－ＥＰ的变化趋势同训练组,以后随运动生理负荷的增强而迅速降低,衰竭时较Ｔ１／２时降低了２６％,较训练组降低了３２％（Ｐ＜０．０５）。训练组大鼠血浆β－ＥＰ含量随运动开始迅速上升,Ｔ１／２时较运动前增加了５．７倍（Ｐ＜０．０１）,以后上升的幅度减小;非训练组大鼠血浆β－ＥＰ也随运动开始迅速提高（Ｐ＜０．０１）,Ｔ１／２后趋于稳定,在Ｔ１／２和衰竭时分别比训练组低２２％和２６％。表明非训练组大鼠丘脑下部β－Ｅｐ对急性运动呈明显的双相变化,训练提高了大鼠丘脑下部和血浆β－ＥＰ对衰竭运动的反应。     

电磁脉冲对大鼠学习和脑内神经递质的影响

探讨电磁脉冲（ＥＭＰ）对大鼠神经系统的效应。实验采用Ｗｉｓｔａｒ大鼠,ＥＭＰ辐照后不同时间用Ｙ－型迷宫测其学习能力,高效液相色谱法检测脑不同部位的神经递质含量。与假照射组（对照组）相比,照后三天内各测定组大鼠学习能力降低（Ｐ＜０．０５）,其中照射后第１天组的海马内５－羟色胺（５－ＨＴ）和多巴酸（ＤＯＰＡＣ）含量升高（Ｐ＜０．０５）,下丘脑多巴胺（Ｄｏｐａｍｉｎｅ）含量升高（Ｐ＜０．０５）,肾上腺素（Ａｄｒ）含量降低;照后２天组海马Ａｄｒ含量降低（Ｐ＜０．０５）,海马５－ＨＴ含量升高（Ｐ＜０．０５）;照后３天组海马内Ａｄｒ含量降低（Ｐ＜０．０５）。ＥＭＰ能够改变大鼠不同脑区神经递质的含量,降低大鼠学习能力     

有氧运动对高胆固醇血症大鼠肝脏低密度脂蛋白受体活性调节…

本文研究了实验性在醇血症大鼠肝脏低密度脂蛋白受体（ＬＤＬ－Ｒ）活性变化及有氧运动时ＬＤＬ－Ｒ活性调节的影响,发现,高脂（ＨＣ）组肝组织匀浆ＬＤＬ－ＲＩ自古以来生较正常对照（ＮＣ）组降低３７％（Ｐ〈０．０５）,同时血清大醇（ＴＣ）、低密度脂收白胆固醇（ＬＤＬ－Ｃ）及血清栽脂蛋白Ｂ（ＡｐｏＢ）均显著高于ＮＣ组（Ｐ〈０．０１）;高脂＋运动（ＨＥ）组ＴＣ、ＬＤＬ－Ｃ及ＡｐｏＢ均明显低于ＨＣ组,而ＬＤＬ－Ｒ     

训练与β—内啡肽对急性运动反应关系的研究

用放射免疫法测定训练和非训练大鼠运动前、运动到５０％耐力时间（Ｔ１／２）和衰竭时丘脑下部和血浆β－内啡肽（β－ＥＰ）的含量,探索了训练与β－ＥＰ对急性运动反应的关系。结果表明：训练组大鼠丘脑大部β－ＥＰ含量在运动在Ｔ１／２和衰竭时分别较安时提高了４％和１５％;对照组大鼠在Ｔ１／２时,β－ＥＰ的变化趋势同训练组,以后随运动生理负荷的增强而迅速降低,衰竭时较Ｔ１／２时降低了２６％,较训练组降低了３２％     

兔肝金属硫蛋白β结构域的制备和鉴定

制备一定量的Ｃｄ、Ｚｎ兔肝金属硫蛋白,然后脱掉其中的金属,获得不含金属的硫蛋白,用一价金属ＣｕＣｌ或ＡｇＮＯ３以５．８：１的金属：蛋白摩尔比与ａｐｏＭＴ结合,将其β结构域用金属饱和,在３７℃,ＰＨ７．０下用枯草杆菌蛋白酶水解掉未结合金属的α结构域,获得Ｃｕ（Ⅰ）、Ａｇ（Ⅰ）结合的兔肝ＭＴ－Ⅰ、ＭＴ－Ⅱ的β结构域,通过ＨＰＬＣ、羧甲基化后的ＳＤＳ－ＰＡＧＥ、氨基酸组成分析、金属定量、Ｎ末端分析和紫外     

败血症大鼠肝细胞核Ca^2＋转运功能的改变

本实验观察败血症时肝细胞核钙转运的变化。早期败血症（结扎盲肠及穿刺后,９ｈ）大鼠肝细胞和肝细胞核钙含量分别增加２０％和３６％（Ｐ〈０．０５）。败血症大鼠肝细胞核Ｃａ＾２＋－ＡＴＰａｓｅ活性增加９４％（Ｐ〈０．０１）,核＾４５Ｃａ＾２＋转运显著增强（增加３２％,Ｐ〈０．０１）。核＾４５Ｃａ＾２＋转运与Ｃａ＾２＋－ＡＴＰａｓｅ活性呈明显正相关（ｒ＝０．９１４,Ｐ〈０．０１）。加入钙调素显著刺激而加入钙     

兔肝金属硫蛋白β结构域的制备和鉴定

制备一定量的Ｃｄ、Ｚｎ兔肝金属硫蛋白（ｍｅｔａｌｏｔｈｉｏｎｅｉｎ,ＭＴ）,然后脱掉其中的金属,获得不含金属的硫蛋白（ａｐｏＭＴ）．用一价金属ＣｕＣｌ或ＡｇＮＯ３以５．８１的金属蛋白摩尔比与ａｐｏＭＴ结合,将其β结构域用金属饱和,在３７℃,ｐＨ７．０下用枯草杆菌蛋白酶水解掉未结合金属的α结构域,获得Ｃｕ（Ⅰ）、Ａｇ（Ⅰ）结合的兔肝ＭＴ－Ｉ、ＭＴ－Ⅱ的β结构域．通过ＨＰＬＣ、羧甲基化后的ＳＤＳ－ＰＡＧＥ、氨基酸组成分析、金属定量、Ｎ末端分析和紫外扫描等鉴定,证明确实得到了Ｎ末端为Ｍｅｔ,分子量３０００左右,金属蛋白摩尔比为５～５．５１的ＭＴβ结构域,其氨基酸组成与理论值基本相符     

三种钠尿肽抑制大鼠肺动脉平滑肌细胞增殖效应的比较

本文比较了心房钠尿肽（ＡＮＰ）、Ｃ－型钠尿肽（ＣＮＰ）、血管钠肽（ＶＮＰ）抑制肺动脉平滑肌细胞（ＰＡＳＭＣｓ）增殖的效应。用蛋白激酶Ｃ激动剂佛波酯（ＰＭＡ）刺激体外培养大鼠ＰＡＳＭＣｓ的增殖,以总蛋白含量和ＭＴＴ比色ＯＤ值为指标,观察三种钠尿肽对ＰＭＡ刺激大鼠ＰＡＳＭＣｓ增殖的影响。结果表明,ＰＭＡ（１０＾－９－１０＾－７ｍｏｌ／Ｌ）显著升高（Ｐ＜０．０５）ＰＡＳＭＣｓ的总蛋白含量和ＭＴＴＯＤ值,     

性腺甾体激素对雌,雄大鼠下丘脑血管升压素mRNA水平的影响

实验用１０－１１周龄经阉割的雌、雄Ｓｐｒａｇｕｅ－Ｄａｗｌｅｙ大鼠进行。以３末端异羟基洋地黄毒甙标记的２６个碱基长的寡核苷酸作为检测探针,用核酸斑点杂交技术检测大鼠下丘脑血管升压素ｍＲＮＡ水平。在假手术对照组,雄性大鼠下丘脑ＡＶＰｍＲＮＡ水平经雌性大鼠高４５％（Ｐ〈０．０５）,血浆渗透压高于雌性大鼠（Ｐ〈０．０５）。摘除卵巢的大鼠下丘脑ＡＶＰｍＲＮＡ深恶痛绝经假手术组雌性大鼠高３０％（Ｐ〈０．０５     

一次性力竭运动对大鼠PHB1表达及线粒体功能的影响

目的：观察一次性力竭运动后大鼠脑、心、骨骼肌组织和线粒体中PHB1含量的变化及对大鼠线粒体功能的影响,探寻PHB1与线粒体功能和能量代谢的关系。方法：健康雄性SD大鼠40只,随机分为2组（n=20）：对照组和一次性力竭运动组,大鼠进行一次性急性跑台运动建立力竭运动模型。收集各组大鼠的心、脑和骨骼肌组织样品并提取线粒体,检测其呼吸功能和ROS的变化。用Western blot方法检测组织和线粒体中PHB1蛋白表达水平;用分光光度计检测各器官中ATP含量以及线粒体中复合体V活性（ATP合酶活性）。结果：①一次性力竭运动后脑、心肌、骨骼肌中ATP含量显著性降低;②一次性力竭运动后脑、心肌、骨骼肌线粒体中复合体V活性、RCR、ROS显著性降低,ST4均显著性升高,ST3无显著性差异。③一次性力竭运动后心、脑、骨骼肌线粒体中PHB1的表达显著性减少。④通过相关性分析得出：一次性力竭运动后心、脑、骨骼肌中ATP含量与心、脑、骨骼肌中复合体V活性呈正相关;心、脑、骨骼肌中ATP含量和心、脑骨骼肌中PHB1的表达呈正相关。结论：一次性力竭运动后,降低线粒体氧化磷酸化功能,使大鼠脑、骨骼肌线粒体内ROS生成增加,PHB1的表达、ATP含量和复合体V活性均下降。一次性力竭运动使得大鼠线粒体内PHB1表达降低,线粒体功能减弱,机体能量代谢降低。     

The effects of swimming and running regimens on skeletal muscle glycogen in the rat.

Endurance capacity and the effects of different post-exercise states on skeletal muscle glycogen have been studied in rats trained by swimming or running and in sedentary controls. Regular endurance exercise resulted in increased skeletal muscle glycogen stores. A greater depletion was observed in trained animals than in non-trained animals after a training bout or exhaustive exercise. While muscle glycogen levels did not reflect a differential training stimulus (running vs swimming), swimming as a measure of exhaustive exercise was deemed invalid because of the ability of trained swimmers to avoid stenuous exercise by an alteration of swimming pattern.     

Biochemical alterations in heart after exhaustive swimming in rats

This study investigated alterations in glycogen, catecholamines, and the function of various subcellular membranes of the heart after exhaustive swimming in rats. The rats were exhausted by daily exercise over 1, 3, or 7 consecutive days. Glycogen content of the heart and three selected skeletal muscles was depleted after a single bout of exhaustive exercise. Repeated bouts of exhaustive swimming elicited a depletion of glycogen in only the plantaris and gastrocnemius skeletal muscles. Plasma norepinephrine and epinephrine levels were highly elevated, and cardiac concentrations of these hormones were significantly depleted immediately after all exercise sessions. Cardiac sarcoplasmic reticulum (SR) Ca2+ transport was depressed after a single exhaustive exercise period. After three exercise bouts SR Ca2+ accumulation remained depressed; however, mitochondrial Ca2+ transport was found to be augmented. If the exhaustive exercise protocol was continued up to seven days, only mitochondrial Ca2+ accumulation was depressed. Various parameters of sarcolemmal membrane function were observed to be unaltered after exhaustive exercise. These findings demonstrate that exhaustive swimming exercise in rats is capable of producing significant alterations in the Ca2+ transport capacity of the SR and mitochondrial membrane systems of the heart but is without apparent effect on the sarcolemmal membrane.     

Stress‐induced multiple organ damage in rats is ameliorated by the antioxidant and anxiolytic effects of regular exercise

Our aim was to investigate the effects of moderate load, regular swimming exercise on stress‐induced anxiety, and associated oxidative organ injury. Male Sprague‐Dawley rats (n = 48) were either kept sedentary or submitted to swimming exercise for 8 weeks. Rats were then divided as non‐stressed, acute stress, and chronic stress groups. After acute or chronic stress (electric foot shocks) applications, rats were placed on a holeboard and the exploratory behavior was recorded to assess the anxiety. Rats were decapitated after the stress application. Acute and chronic stress induction led to increased serum cortisol levels as compared to non‐stressed groups. Plasma aspartate aminotransferase levels that were elevated in sedentary rats with both stress exposures were lower in trained rats. Malondialdehyde levels and myeloperoxidase activity were increased in the cardiac muscle, liver, stomach, and brain of the stressed rats with a concomitant reduction in the glutathione levels, while stress‐induced changes in malondialdehyde, myeloperoxidase, and glutathione levels were reversed in the trained animals. Exercise, which led to increased malondialdehyde and reduced glutathione levels in the skeletal muscle of the non‐stressed rats, also protected against stress‐induced oxidative damage. Regular exercise with its anxiolytic and antioxidant effects ameliorates stress‐induced oxidative organ damage by a neutrophil‐dependent mechanism. Copyright © 2010 John Wiley & Sons, Ltd.     

Effects of acute hypobaric hypoxia and exhaustive exercise on AMP-activated protein kinase phosphorylation in rat skeletal muscle

The present study was aimed to explore the changes of phosphorylated AMP-activated protein kinase (pAMPK) level in skeletal muscle after exposure to acute hypobaric hypoxia and exhaustive exercise. Thirty-two male Sprague-Dawley (SD) rats were randomly divided into sea level and high altitude groups. The rats in high altitude group were submitted to simulated 5 000 m of high altitude in a hypobaric chamber for 24 h, and sea level group was maintained at normal conditions. All the rats were subjected to exhaustive swimming exercise. The exhaustion time was recorded. Before and after the exercise, blood lactate and glycogen content in skeletal muscle were determined; AMPK and pAMPK levels in skeletal muscle were detected by Western blot. The results showed that the exhaustion time was significantly decreased after exposure to high altitude. At the moment of exhaustion, high altitude group had lower blood lactate concentration and higher surplus glycogen content in gastrocnemius compared with sea level group. Exhaustive exercise significantly increased the pAMPK/AMPK ratio in rat skeletal muscles from both sea level and high altitude groups. However, high altitude group showed lower pAMPK/AMPK ratio after exhaustion compared to sea level group. These results suggest that, after exposure to acute hypobaric hypoxia, the decrement in exercise capacity may not be due to running out of glycogen, accumulation of lactate or disturbance in energy status in skeletal muscle.     

复方五味子提取物对力竭游泳大鼠的抗疲劳作用

五味子、黄芪、丹参、枸杞和马齿苋均具有较好的抗氧化活性和抗疲劳功效。然而,尚不清楚该5种中药材组合的应用效果。本研究将这5种植物药材进行混合提取,得到了复方五味子提取物。然后考察了不同剂量的复方五味子提取物对力竭游泳大鼠的运动能力和生化指标的影响。研究显示,复方五味子提取物以剂量依赖性方式提高大鼠的力竭游泳时间(p<0.05)。复方五味子提取物以剂量依赖性方式降低血清Lac和BUN水平并升高NEFA水平(p<0.05)。复方五味子提取物显著升高大鼠体内SOD和CAT水平,并显著降低MDA水平(p<0.05)。复方五味子提取物显著降低大鼠血清CK、AST和ALT水平(p<0.05),并减弱骨骼肌组织病变程度。本研究表明,复方五味子提取物具有较好的抗疲劳作用,可通过减少乳酸堆积、增加脂肪动员、减弱氧化应激损伤来提高机体运动能力。     

秋葵籽油对高强度运动所致肝损伤的保护作用

本研究考察了秋葵籽油对高强度运动所致肝损伤的保护作用及机制。研究显示,对昆明小鼠灌胃不同剂量(10 mg/kg,20 mg/kg和50 mg/kg)的秋葵籽油4周后,秋葵籽油以剂量依赖性方式提高了小鼠的力竭游泳时间(p<0.05)。秋葵籽油降低了小鼠血清乳酸和尿素氮水平,并升高了血清游离脂肪酸和肝糖原水平(p<0.05)。秋葵籽油以剂量依赖性方式提高了小鼠肝脏组织中SOD、CAT和GSH-Px活性,并抑制了MDA的合成(p<0.05)。秋葵籽油抑制了力竭游泳诱导的小鼠血清CK、AST和ALT水平及肝脏组织NO水平的升高(p<0.05)。此外,苏木精和伊红(HE)染色证实了秋葵籽油减轻了力竭游泳诱导的肝脏病理改变。因此,本研究初步结论表明,在高强度运动过程中,秋葵籽油可通过抑制乳酸和尿素氮的积累、增加脂肪动员、降低糖原消耗、减弱氧化应激损伤等多种途径来对肝脏发挥保护作用。     

Dietary Fat Type and Regular Exercise Affect Mitochondrial Composition and Function Depending on Specific Tissue in the Rat

Physical exercise and fatty acids have been studied in relation to mitochondrial composition and function in rat liver, heart, and skeletal muscle. Male rats were divided into two groups according to dietary fat type (virgin olive and sunflower oils). One-half of the animals from each group were subjected to a submaximal exercise for 8 weeks; the other half acted as sedentary controls. Coenzyme Q, cytochromes b, c + c1, a + a3 concentrations, and the activity of cytochrome c oxidase were determined. Regular exercise increased (P < 0.05) the concentration of the above-mentioned elements and the activity of the cytochrome c oxidase by roughly 50% in liver and skeletal muscle. In contrast, physical exercise decreased (P < 0.05) cytochrome c oxidase activity in the heart (in micromol/min/g, from 8.4+/-0.1 to 4.9+/-0.1 in virgin olive oil group and from 9.7+/-0.1 to 6.7+/-0.2 in sunflower oil animals). Dietary fat type raised the levels of coenzyme Q, cytochromes, and cytochrome c oxidase activity in skeletal muscle (P < 0.05) among the rats fed sunflower oil. In conclusion, dietary fat type, regular exercise, and the specific tissue modulate composition and function of rat mitochondria.     

Effect of acute exercise on tissue free fatty acids in untrained rats.

The effects of a single bout of swimming on free fatty acids (FFA) in adipose tissue, heart, skeletal muscle, and serum were examined. Surprisingly, in previously untrained rats, FFA were elevated (P less than 0.001) in epididymal, inguinal, and retroperitoneal adipose depots 48 h after a 2-h swim. FFA in the three fat depots returned to resting levels 96 h after exercise. In heart, soleus, and fast-red fibers of the quadriceps, FFA remained elevated (P less than 0.01) for as long as 72 h after the 2-h swim. Serum FFA were still elevated (P less than 0.001) 96 h after swimming but not after 168 h. These results provide evidence that the rise in FFA is an acute effect of exercise and not a cellular adaptation resulting from daily episodes of lipolysis induced by exercise training. In a separate experiment, involving the adaptive response to endurance exercise, adipocytes from epididymal, inguinal, and retroperitoneal depots were reduced in size (P less than 0.001) to approximately the same degree. These results provide evidence that adipocytes from each depot contribute equally in meeting the energy needs of muscle during repeated bouts of endurance exercise.