Effect of endurance training on the expression profile of circRNA-lncRNA-miRNA-mRNA in myocardial tissues of mice after exhaustive exercise

Objective:To clarify the effect of endurance training on the expression profile of circRNA-lncRNA-miRNA-mRNA in myocardial tissues of mice after exhaustive exercise.Methods:A total of 45 male C57BL/6 mice were randomly divided into control(C),low-strength endurance training(LSET)and high-strength endurance training(HSET)groups(n=15).The mice in the control group were not conducted to platform training.The mice in the LSET and HSET groups were conducted to platform training at 30%and 60%of exhaustive exercise once a day for 5 days a week,respectively.The exhaustion exercise was performed after 5 weeks of platform training.Total RNA was extracted from myocardial tissues,and the expression profile of circRNA-lncRNA-miRNA-mRNA in myocardial tissues was analyzed using Illimina transcriptome sequencing.Results:The distance and time of exhaustive exercise were longer in the LSET and HSET groups than in the control group,and the distance and time of exhaustive exercise were longer in the HSET group than in the LSET group(P<0.05).A total of 54 differentially expressed circRNAs(28 down-regulated and 26 up-regulated),7 differentially expressed lncRNAs(all down-regulated),3 differentially expressed miRNAs(1 down-regulated and 2 up-regulated)and 99 differentially expressed mRNAs(81 down-regulated and 18 up-regulated)were identified by transcriptome sequencing(P<0.05).Interaction network analysis revealed that ENSMUSG00000113041,MSTRG.79740,mmu-miR-374c-5p,18 down-regulated mRNAs and 3 up-regulated mRNAs formed a regulatory network.GO functional analysis revealed that the differentially expressed mRNAs were mainly enriched in primary metabolic processes and macromolecular synthesis and metabolic processes.KEGG pathway analysis revealed that the differentially expressed mRNAs were mainly enriched in complement and coagulation cascade pathways,estrogen signaling pathway and glucagon signaling pathway.Conclusion:Endurance training could alter the expression profile of circRNA-lncRNA-miRNA-mRNA in myocardial tissues of mice after exhaustive exercise,and these differentially expressed RNAs form a regulatory network that affects cardiomyocyte synthesis and metabolism and thus participates in the regulation of myocardial injury.

Hippocampal ultrastructural changes and apoptotic cell death in rats following endurance training and acute exhaustive exercise

BACKGROUND： Exhaustive exercise can lead to apoptosis of skeletal muscle cells and myocardial cells as a result of pathological changes in the corresponding cellular ultrastructure. It is hypothesized that such changes could also occur in neurons. OBJECTIVE： To observe brain cell apoptosis and ultrastructural changes in hippocampal neurons in rats following endurance training and acute exhaustive exercise. DESIGN, TIME AND SETTING： A randomized, controlled, morphological analysis was performed at the Medical Laboratory Center of Zhengzhou University between July and November 2007. MATERIALS： Forty male, 8-week-old, Sprague Dawley rats were included in this study. METHODS： Endurance training consisted of treadmill running once a day, 6 days a week, for 4. weeks. For acute exhaustive exercise, graded treadmill running was conducted. Rats were exposed to exercise at an increasing speed （10 m/min, increasing to 20 and 36 m/min for moderate- and high-intensity exhaustive exercise, respectively, and then was continued until exhaustion）. A total of 40 rats were evenly distributed into the following 4. groups： Group A rats were not exercised; Group B rats were not trained but sacrificed 24 hours after acute exhaustive treadmill running exercise; Group C-rats were subjected to endurance training and sacrificed immediately after acute exhaustive treadmill running exercise; Group D rats were subjected to endurance training and sacrificed 24 hours after acute exhaustive treadmill running exercise. MAIN OUTCOME MEASURES： Apoptotic cell death was detected by the TUNEL method and hippocampal neuronal ultrastructural change was observed through using transmission electron microscopy. RESULTS： All 40 rats were included in the final analysis. Subsequent to exhaustive exercise, rat cerebral cortex and hippocampal neurons appeared contracted and degenerated. In addition, high amount of lipofuscin was visible in the hippocampal region, Necrotic neurons encased by glial cells appeared in the cerebral cortex and hippocampus. Glial cells exhibited different degrees of swelling. Subsequent to exhaustive exercise, brain cell apoptosis rate significantly increased, and reached over 30% in some regions, compared with group A （P 〈 0.05）. No significant difference in apoptosis rate existed between groups B, C, and D （P 〈 0.05）. CONCLUSION： Endurance training and acute exhaustive exercise cause, to some degree, injuries to glial cells, resulting in apoptosis of numerous brain cells. Subsequent to exhaustive exercise, high amounts of lipofuscin appear in the hippocampus, indicating that exhaustive exercise possibly contributes to neural cell aging or dysmetabolism.

耐力训练对小鼠力竭运动后心肌组织中circRNA-lncRNA-miRNA-mRNA表达谱的影响

目的:明确耐力训练对小鼠力竭运动后心肌组织中circRNA-lncRNA-miRNA-mRNA表达谱的影响。方法:45只雄性C57BL/6小鼠随机分为对照(C)、低强度耐力训练(LSET)与高强度耐力训练(HSET)组(n=15)。对照组小鼠不进行跑台训练,LSET与HSET组小鼠分别以30%与60%力竭运动量进行跑台训练,每天一次,每周5天,训练5周后行力竭运动。取心肌组织提取总RNA,利用Illimina转录组测序分析心肌组织中circRNA-lncRNA-miRNA-mRNA表达谱。结果:LSET与HSET组小鼠力竭运动时间与路程较C组延长,且HSET组小鼠力竭运动时间与路程长于LSET组(P<0.05)。转录组测序共筛选出54个差异表达的circRNA(28个下调和26个上调),7个差异表达的lncRNA(均下调),3个差异表达的miRNA(1个下调和2个上调),99个差异表达的mRNA(81个下调和18个上调)(P<0.05)。相互作用网络分析发现ENSMUSG00000113041、MSTRG.79740、mmu-miR-374c-5p、18个下调的mRNA与3个表达上调的mRNA构成调控网络。GO功能分析发现差异表达的mRNA主要富集在初级代谢过程与大分子合成与代谢过程。KEGG通路分析发现差异表达的mRNA主要富集于补体和凝血级联反应途径、雌激素信号通路及胰高血糖素信号通路。结论:耐力训练可以改变小鼠力竭运动后心肌组织中circRNA-lncRNA-miRNA-mRNA表达谱,这些差异表达的RNA构成调控网络影响心肌细胞的合成与代谢进而参与对心肌损伤的调节。

耐力训练和一次性力竭运动对大鼠心肌和骨骼肌硫氧还蛋白还原酶的影响

目的:观察运动对大鼠心肌、骨骼肌硫氧还蛋白还原酶(TR)的影响。方法:SD大鼠30只,随机分成安静对照组、耐力训练组和力竭组。训练组进行6周渐增游泳训练,5次/周。最后1次训练后2 4小时,断头处死安静对照组和训练组大鼠,力竭组大鼠在一次性力竭运动后即刻处死。DTNB法检测心肌、骨骼肌TR活性,RT -PCR法观察TRmRNA水平变化。结果:6周耐力训练大鼠心肌TR活性显著高于安静对照组,一次性力竭组大鼠心肌TR活性显著低于安静对照组。各组大鼠心肌TRmRNA均无显著性差异。结论:6周耐力训练显著提高大鼠心肌TR活性,而在mRNA水平上无显著性差异。

耐力训练后再力竭运动对小鼠血液部分生化指标的影响

建立了小鼠(雄性)耐力训练后再力竭运动的模型,测定了其血清谷丙转氨酶(SGPT)活性、血清谷草转氨酶(SGOT)活性、超氧化物歧化酶(SOD)活性、过氧化物酶(POD)活性、过氧化氢酶(CAT)活性、丙二醛(MDA)含量与血红蛋白(Hb)含量的变化,探讨了耐力训练对提高机体抗疲劳能力的可能机制.实验结果显示,非耐力组运动即刻SGPT活性、SOD活性、SGOT活性、POD与CAT活性发生显著变化(P<0.05～0.01),而MDA与Hb含量无显著变化(P>0.05).耐力组运动即刻SGPT及CAT活性显著高于非耐力组(P<0.05～0.01),两组间SGOT活性、SOD与POD活性及MDA与Hb含量均无显著差异(P>0.05).经24h恢复后,非耐力组SGPT活性、CAT与SGOT活性及MDA含量均较运动即刻具有显著变化(P<0.05～0.01),而SOD与POD活性及Hb含量则无显著变化(P>0.05).耐力组SGPT活性、SGOT活性、CAT与SOD活性均较运动即刻有显著差异(P<0.05～0.01),POD活性、MDA与Hb含量则无显著变化(P>0.05).恢复后两组间SGPT活性、SGOT与CAT活性及Hb含量具有显著差异(P<0.05～0.01),SOD及POD活性则无显著差异(P>0.05).实验结果提示,耐力训练提高机体抗疲劳能力的可能机制与耐力训练能提高部分抗氧化酶的活性、保护组织并显著降低MDA含量有关.

褪黑激素对耐力训练小鼠一次力竭运动后肝、肾细胞超微结构的影响

目的 :通过运动训练动物模型探讨MT对运动状态下机体的影响。方法 :以昆明种雄性小鼠为实验对象 ,递增强度耐力训练后进行一次力竭性游泳 ,分别取小鼠肝脏、肾脏 ,透射电子显微镜观察其组织细胞的超微结构。结果 :连续 5 1d服用MT后 ,安静对照组小鼠肝与肾细胞超微结构无明显改变。耐力训练的同时补充MT可使小鼠力竭游泳时间显著延长 (P <0 0 1) ;力竭性运动对肝、肾超微结构有明显破坏作用 ,服用MT小鼠的肝、肾超微结构破坏较轻。结论 :MT一定程度上可对抗力竭性运动所致的超微结构的破坏 ,并有部分促进恢复作用。MT作为机体运动时的抗氧化剂或体能恢复剂值得进一步关注。

低强度耐力训练后力竭运动大鼠肾细胞凋亡及影响机制的研究

目的:从肾细胞凋亡角度揭示耐力训练提高机体抗疲劳能力的机制。方法:24只雄性SD大鼠随机分为控制对照组(C)、力竭运动组(LE)、耐力训练力竭运动组(ET),于力竭运动后24 h取材,肾脏凋亡细胞检测采用TUNEL法,Bcl-2、Bax蛋白表达检测采用免疫组化法,并检测NO生成能力。结果:ET组力竭运动时间显著延长(P<0.01),Bcl-2蛋白表达明显高于C组和LE组(P<0.01),NOS活性显著低于C组(P<0.05)、非常显著低于LE组(P>0.01);各组的肾细胞凋亡指数、Bax蛋白表达、Bax/Bcl-2和NO浓度差异不显著(P<0.05)。结论:耐力训练机体抗疲劳能力提高,与恢复期肾组织细胞Bcl-2蛋白表达增高、NOS活性降低、NO浓度水平正常,凋亡细胞少有关。

补充褪黑激素对耐力训练小鼠一次性力竭运动后肝脏、骨骼肌与肾脏抗氧化酶的影响

目的 :探讨运动训练中补充褪黑激素 (Melatonin ,MT)对机体抗氧化系统的影响 ,为选用MT作为抗氧化剂或体能恢复剂提供实验依据。方法 :以雄性昆明种小鼠为实验对象 ,采用递增负荷耐力训练及一次性力竭运动建立模型。分别测定肾脏还原型谷胱甘肽 (ReducedGlutathione ,GSH)含量 ,肝脏、骨骼肌与肾脏的超氧化物歧化酶 (SuperoxideDismutase ,SOD)、过氧化物酶 (Peroxi dase ,POD)、过氧化氢酶 (Catalase ,CAT)的活性、总抗氧化能力 (TotalAnti -oxidationCapability ,T -AOC)与丙二醛 (Malondialdehyde ,MDA)含量。结果 :安静状态下 ,服用MT可显著提高肾脏GSH含量与SOD活性、肾与肝T -AOC及肝POD与CAT活性 (P <0 . 0 5～ 0 . 0 1 ) ,显著降低骨骼肌、肝与肾MDA含量 (P <0. 0 1 ) ,但明显抑制骨骼肌CAT活性 (P <0 . 0 1 ) ,对其余指标无显著影响。力竭运动后即刻 ,补充MT组大鼠骨骼肌、肾与肝T -AOC、肾与肝POD活性、骨骼肌MDA含量与肾GSH含量均显著高于对照组 (P <0 . 0 5～ 0 . 0 1 ) ,而肾与肝SOD活性、肾CAT活性与MDA含量均显著低于对照组 (P <0 . 0 5～ 0 . 0 1 ) ,两组间其余指标无显著性差异。 2 4h恢复后 ,服用MT组大鼠骨骼肌、肾与肝SOD与POD活性、骨骼肌与肾CAT活性、肾T

隔药灸神阙对耐力训练再力竭运动大鼠心肌、骨骼肌自由基代谢的影响

以SD大鼠为研究对象,建立耐力训练再力竭运动大鼠模型,通过测定不同组别大鼠心肌、骨骼肌中SOD、CAT、GSH-Px活性及MDA含量的变化,探讨隔药灸神阙对耐力训练再力竭运动大鼠心肌、骨骼肌自由基代谢的影响.结果显示,训练隔药灸组大鼠心肌、骨骼肌中SOD、CAT、GSH-Px活性均显著高于训练组(P<0.05),GSH-Px活性与安静组比较无差异(P>0.05);MDA含量显著低于训练组(P<0.05),与安静组比较无差异(P>0.05).由此提示,隔药灸神阙可减轻耐力训练再力竭运动对大鼠心肌、骨骼肌造成的脂质过氧化损伤,改善运动造成的机体自由基代谢紊乱,从而明显延长耐力训练大鼠力竭时间.

隔药灸神阙对训练再力竭大鼠血液某些生化指标和骨骼肌自由基代谢的影响

隔药灸神阙可以增加耐力训练再力竭大鼠骨骼肌组织中的抗氧化酶活性,提高骨骼肌组织的抗氧化功能,减轻耐力训练再力竭运动对大鼠骨骼肌组织造成的脂质过氧化损伤,改善运动造成的自由基代谢紊乱。

隔药灸神阙对训练再力竭大鼠血液某些生化指标和心肌自由基代谢的影响

隔药灸神阙可以增加耐力训练再力竭大鼠心肌组织中的抗氧化酶活性,提高心肌组织的抗氧化功能,减轻耐力训练再力竭运动对大鼠心肌组织造成的脂质过氧化损伤,改善运动造成的自由基代谢紊乱。

补锌对耐力训练、力竭运动大鼠腓肠肌超氧化物岐化酶、谷胱甘肽过氧化物酶、总抗氧化能力以及Bax、Bcl-2 mRNA的影响

目的:探讨补锌对耐力训练、力竭运动大鼠腓肠肌超氧化物岐化酶(SOD)、谷胱甘肽过氧化物酶(GSH-Px,简称GPX)、总抗氧化能力(T-AOC)、细胞凋亡诱导和阻遏分子(Bax,Bcl-2)mRNA的影响。方法:将32只雄性SD大鼠随机分成对照组、耐力训练组、耐力训练补锌组和一次性力竭运动补锌组4组,每组8只。补锌方法为在饮用水中溶入ZnSO4.7H2O,[Zn]=227 mg/L。耐力训练组和耐力训练补锌组进行6周游泳耐力训练,每周6天。6周训练结束24小时后取材。一次性力竭运动组取材当日在同一泳池每隔15 min被放入2只大鼠,进行无负重游泳至力竭后取材。测定大鼠腓肠肌SOD、GPX、T-AOC活性,Bax、Bcl-2 mRNA表达。结果:耐力训练补锌组大鼠腓肠肌SOD活性显著高于对照组(P<0.05),GPX活性显著高于对照组和耐力训练组(P<0.05)。力竭运动补锌组大鼠腓肠肌GPX和T-AOC活性显著高于对照组(P<0.05)。耐力训练补锌组大鼠腓肠肌Bax mRNA表达显著低于对照组和耐力训练组(P<0.05),Bcl-2 mRNA表达显著高于对照组和耐力训练组(P<0.05)。力竭运动补锌组大鼠腓肠肌Bax,Bcl-2 mRNA表达均显著高于对照组(P<0.05)。结论:耐力训练提高大鼠腓肠肌GPX活性,增加Bcl-2 mRNA表达,降低大鼠腓肠肌Bax mRNA表达,补锌效果更明显。一次性力竭运动补锌提高大鼠腓肠肌GPX活性和T-AOC活性,增加腓肠肌Bcl-2 mRNA表达,但对Bax mRNA表达影响不明显。

百合对耐力训练大鼠力竭运动后心肌、肝脏抗氧化作用的研究

目的:探讨百合对耐力训练大鼠力竭运动后心肌、肝脏抗氧化作用的影响,为百合作为运动营养补剂提供理论依据。方法:选取32只大鼠,随机分为安静组、安静力竭组、运动力竭组、百合力竭组;运动力竭组与百合力竭组进行6周大强度跑台训练;同时百合力竭组每天灌胃3ml百合提取物的水溶液,最后一次训练力竭后区心肌和肝脏组织并进行样本处理。内容:通过建立耐力训练大鼠模型测定运动大鼠力竭运动后心肌和肝脏各组超氧化物歧化酶(SOD)、丙二醛(MDA)、过氧化氢酶(CAT)、总抗氧化能力(TAOC)等指标。结论:百合可明显提高大鼠心肌和肝脏在大强度耐力运动中的抗脂质过氧化和清除自由基的能力,提高了大鼠大强度耐力运动的运动时间。

低强度耐力训练后力竭运动大鼠睾丸p53蛋白表达和部分功能酶活性的变化

目的：探讨低强度力竭运动对雄性生殖健康的影响及耐力训练对其干预的效果。方法：将24只雄性SD大鼠随机分为控制对照组（C）、低强度力竭组（LE）、耐力训练力竭组（ET）,于力竭运动后24h检测睾丸p53蛋白表达及NOS、LDH、SDH、ACP的活性,并检测睾丸NO含量。结果显示：大鼠睾丸p53蛋白表达ET组低于C组和LE组（P〈0.05~0.01）,LE组NOS和ACP活性显著高于C组和ET组（P〈0.05~0.01）,ET组各酶活性和NO含量较LE组稳定（P〉0.05）。结论：低强度力竭运动对雄性大鼠生殖健康有轻微损害,耐力训练可降低其不良影响。