成都体育学院学报
成都體育學院學報
성도체육학원학보
Journal of Chengdu Physical Education Institute
2009年
12期
71~73
,共null页
袁琼嘉 苏全生 熊若虹 李雪
袁瓊嘉 囌全生 熊若虹 李雪
원경가 소전생 웅약홍 리설
运动 大脑皮质 血管内皮细胞生长因子 大鼠
運動 大腦皮質 血管內皮細胞生長因子 大鼠
운동 대뇌피질 혈관내피세포생장인자 대서
exercises, brain cortex, VEGF, rat
目的探讨不同强度运动对大鼠大脑皮质内血管内皮细胞生长因子(VEGF)表达的影响,为深入研究运动性中枢疲劳的发生机制提供神经生物学实验资料。方法4月龄雄性sD大鼠24只,随机分为3组,每组8只,即对照组(C组)、中等强度运动组(M组)和大强度运动组(S组)。C组大鼠不加任何干预;M组和s组大鼠分别在进行为期5周不同强度的游泳训练。c组、M组和S组大鼠5周游泳训练完成后即刻灌注取材,采用免疫组化方法检测大鼠大脑皮质血管内皮生长因子(VEGF)的表达。结果各组大鼠大脑皮质VEGF阳性表达部位定位于神经元细胞和内皮细胞胞浆。M、S组与C组比较,大鼠大脑皮质VEGF阳性表达IOD值则呈显著性增高(P〈0.01);S组VEGF阳性表达显著高于M组(P〈0.05)。结论不同强度运动可引起大鼠大脑皮质VEGF表达特异性增加,VEGF的表达强度与运动强度成正比。提示VEGF的增加可以促进大脑皮质血管的生成,改变血一脑屏障的通透性,而且可能对神经元细胞具有保护作用。
目的探討不同彊度運動對大鼠大腦皮質內血管內皮細胞生長因子(VEGF)錶達的影響,為深入研究運動性中樞疲勞的髮生機製提供神經生物學實驗資料。方法4月齡雄性sD大鼠24隻,隨機分為3組,每組8隻,即對照組(C組)、中等彊度運動組(M組)和大彊度運動組(S組)。C組大鼠不加任何榦預;M組和s組大鼠分彆在進行為期5週不同彊度的遊泳訓練。c組、M組和S組大鼠5週遊泳訓練完成後即刻灌註取材,採用免疫組化方法檢測大鼠大腦皮質血管內皮生長因子(VEGF)的錶達。結果各組大鼠大腦皮質VEGF暘性錶達部位定位于神經元細胞和內皮細胞胞漿。M、S組與C組比較,大鼠大腦皮質VEGF暘性錶達IOD值則呈顯著性增高(P〈0.01);S組VEGF暘性錶達顯著高于M組(P〈0.05)。結論不同彊度運動可引起大鼠大腦皮質VEGF錶達特異性增加,VEGF的錶達彊度與運動彊度成正比。提示VEGF的增加可以促進大腦皮質血管的生成,改變血一腦屏障的通透性,而且可能對神經元細胞具有保護作用。
목적탐토불동강도운동대대서대뇌피질내혈관내피세포생장인자(VEGF)표체적영향,위심입연구운동성중추피로적발생궤제제공신경생물학실험자료。방법4월령웅성sD대서24지,수궤분위3조,매조8지,즉대조조(C조)、중등강도운동조(M조)화대강도운동조(S조)。C조대서불가임하간예;M조화s조대서분별재진행위기5주불동강도적유영훈련。c조、M조화S조대서5주유영훈련완성후즉각관주취재,채용면역조화방법검측대서대뇌피질혈관내피생장인자(VEGF)적표체。결과각조대서대뇌피질VEGF양성표체부위정위우신경원세포화내피세포포장。M、S조여C조비교,대서대뇌피질VEGF양성표체IOD치칙정현저성증고(P〈0.01);S조VEGF양성표체현저고우M조(P〈0.05)。결론불동강도운동가인기대서대뇌피질VEGF표체특이성증가,VEGF적표체강도여운동강도성정비。제시VEGF적증가가이촉진대뇌피질혈관적생성,개변혈일뇌병장적통투성,이차가능대신경원세포구유보호작용。
Objective: To explore the effect of exercises of different intensity on the expression of brain cortex VEGF to provide neurobiological experiment material for in - depth research on the occurrence mechanism of exercise - induced central nerve fatigue. Methods : 24 male SD rats of four months old are randomly divided into three groups, the C group, the M group and the S group, each group having 8 rats. Rats in the C group are left without intervening, while rats in the M and S groups are given five - week swimming exercises of different intensity. Vaseularization and selection are im- mediately done after the five - week swimming exercise, and the Immunohistochemical method is employed to test the expression of brain cortex VEGF. Results : The positive expression parts for brain cortex VEGF of rats in each group is located in neurons and endothelial cell cytoplasm. Compared with the C group, the M and S groups witness a marked increase in the IOD of brain cortex VEGF ( P 〈 0.01 ). The positive expression for VEGF in S group is markedly higher than that in the M group( P 〈 0.05). Conclusion: Exercises of different intensity can lead to increase in the expression specificity of rat brain cortex VEGF. The expression intensity of VEGF is positively correlated to the exercise intensity. Increase in VEGF can promote the growth of brain cortex blood vessel, change the transparency of blood - brain barrier and possibly protect neurons.
