公共文化服务平台

缺氧复合运动大鼠骨骼肌血流量的变化及其可能机制: 目的:探讨缺氧及缺氧复合运动大鼠骨骼肌血流量的变化及其可能机制。方法:Wistar大鼠分为常氧对照组,单纯缺氧组以及缺氧复合运动组。缺氧复合运动组大鼠持续暴露于5 000 m模拟高原,从第2周开始进行游泳运动。运动时减压...; 黄庆愿蔡明春刘福玉高钰琪; 文献传递

Characteristics of fat metabolism in skeletal muscle of rats after hypobaric hypoxic acclimation被引量：3: 2008年; Objective: To investigate the characteristics of fat metabolism in rat skeletal muscle after hypobaric hypoxia acclimation. Methods: Sprague-Dawley rats were divided into 3 groups randomly: control group (H0), hypoxic 5-day group (H5), and hypoxic 15-day group (H15). Animals of H5 and 15 groups were exposed to hypobaric hypoxia chamber simulating 5 000 m high altitude for 5 d or 15 d respectively, 23 h per day. H0 group stayed outside of chamber. The level of fatty acid oxidation and uptake, and glucose oxidation were examined, and the level of non-esterified fatty acids (NEFA), ATP and phosphocreatine (PCr) were also assayed in rat skeletal muscles. Results: The contents of ATP and PCr in H5 group were lower than those in H0 and H15 groups (P<0.05), while there was no significant difference between H0 and H15. Compared with H0, the blood NEFA level in all hypoxia groups was increased significantly (P<0.05). The muscle NEFA level in H15 group was greatly higher than that in H0 and H5 groups. The rates of fatty acid oxidation and uptake in H15 group were significantly higher than those in H0 and H5 groups (P<0.05), and the rate of glucose oxidation in all hypoxia groups was significantly decreased than that in H0 group (P<0.05). Conclusion: It is concluded that the enhanced fat oxidation may be one of the mechanisms in the maintenance of energy homeostasis after hypobaric hypoxic acclimation.; Mao SunzhongGao YuqiChen JianLiu FuyiGao WenxiangHuang JianLiao WeigongCai Mingchun; 关键词：能量代谢缺氧状态动物模式

缺氧及缺氧复合运动大鼠骨骼肌线粒体功能的变化被引量：3: 2008年; 目的:观察缺氧及在缺氧条件下运动对骨骼肌线粒体呼吸功能的影响,探讨在缺氧习服过程中,适当的运动锻炼促进机体高原习服的机制。方法:Wistar大鼠分为4组:平原对照组、缺氧组、平原运动组和缺氧复合运动组。缺氧复合运动组大鼠持续暴露于模拟海拔5000 m高原5 w,每天降至4000 m的高原进行游泳运动1 h(6 d/w),运动结束后回升至5000 m;缺氧组大鼠同时在低压舱内相同海拔高度饲养,但不进行游泳运动;平原运动组和平原对照组在舱外同时饲养,其中平原运动组每天进行游泳运动1 h(6 d/w)。在末次运动结束后24 h处死大鼠,分离大鼠腓肠肌提取线粒体。用Clark氧电极法测定线粒体呼吸功能,Western Blotting法测ATP合成酶α亚基蛋白表达。结果:与平原对照组比较,缺氧组腓肠肌线粒体ST3显著降低;缺氧复合运动组与缺氧组比较ST3、ST4、膜电位显著增高,ATP合成酶α亚基表达显著增加;平原运动组与对照组比较无显著差异。结论:慢性缺氧骨骼肌线粒体ATP合成能力降低,而缺氧复合运动后,骨骼肌线粒体ATP合成能力增强,这可能是缺氧复合运动促进高原习服的线粒体适应机制。; 蔡明春黄庆愿高钰琪; 关键词：缺氧骨骼肌线粒体

缺氧诱导因子-1α基因转染对缺氧损伤HepG2细胞的保护作用被引量：4: 2010年; 目的:观察缺氧诱导因子-1α(HIF-1α)基因转染对HepG2细胞缺氧损伤的影响并初步探讨其作用机制。方法:腺病毒转染的人HepG2细胞常氧培养24h后分为4组:Ad-GFP转染常氧培养组(Ad-GFP transfected-normoxia组)、Ad-HIF转染常氧培养组(Ad-HIF transfected-normoxia组)、Ad-GFP转染低氧培养组(Ad-GFP transfected-hypoxia组)和Ad-HIF转染低氧培养组(Ad-HIF transfected-hypoxia组)。观察各组细胞的细胞活力、乳酸脱氢酶(LDH)释放率、细胞内活性氧(ROS)、一氧化氮(NO)含量和诱导型一氧化氮合酶(iN-OS)活力。结果:Ad-HIF转染的HepG2细胞可高效表达HIF-1α。Ad-GFP transfected-hypoxia组的细胞活力显著低于Ad-GFP transfected-normoxia组(P<0.05);Ad-HIF transfected-hypoxia组的细胞活力与Ad-HIF transfected-normoxia组比较无显著差异。Ad-GFP transfected-hypoxia组细胞内ROS含量显著高于Ad-GFP transfected-normoxia组(P<0.05);Ad-HIF transfected-hypoxia细胞内ROS含量与Ad-HIF transfected-normox-ia组或Ad-GFP transfected-hypoxia组比较均无显著差异。Ad-HIF transfected-normoxia组和Ad-GFP trans-fected-hypoxia组细胞内NO含量和iNOS活力均显著高于Ad-GFP transfected-normoxia组(P<0.05);Ad-HIFtransfected-hypoxia组细胞内NO含量和iNOS活力与Ad-GFP transfected-hypoxia组和Ad-HIF transfected-nor-moxia组比较无显著差异。结论:基础性HIF-1高表达可显著减轻缺氧时HepG2细胞的损伤程度,其机制可能与HIF-1高表达提高HIF-1调控的缺氧相关基因的基础表达水平和其产物含量有关;也可能与HIF-1高表达防止缺氧时ROS的过度增加有关。; 蒋春华罗勇军黄庆愿高钰琪; 关键词：缺氧缺氧诱导因子-1 基因转染腺病毒载体

缺氧对大鼠下丘脑Ⅰ型大麻素受体表达和摄食量的影响被引量：1: 2016年; 目的研究缺氧大鼠下丘脑Ⅰ型大麻素受体（cannabinoid receptor typeⅠ,CB1）的表达变化及其与摄食量的关系。方法 54只雄性SD大鼠按随机数字表法分为3组（每组18只）：平原对照组、缺氧1 d组和缺氧7 d组。缺氧组大鼠置模拟海拔5 000 m低压舱中,平原对照组大鼠置平原饲养。记录各组大鼠摄食量,蛋白免疫印迹法和免疫组化法观察各组大鼠下丘脑CB1受体和c-Fos蛋白表达变化。结果与平原对照组[（15.5±2.7）g]大鼠相比,缺氧1 d组大鼠摄食量[（4.9±0.7）g]显著减少（P〈0.05）,同时大鼠下丘脑CB1和c-Fos阳性细胞数量和蛋白表达量显著减少;缺氧1 d组大鼠弓状核（arcuate nucleus,ARC）、下丘脑腹外侧区（later hypothalamic area,LH）和下丘脑腹内侧核（ventromedial hypothalamic nucleus,VMH）CB1受体、c-Fos表达较平原对照组显著降低;随着缺氧时间的延长,动物摄食量逐日增加,缺氧3~7 d时的摄食量与平原对照组大鼠相当;缺氧7 d组大鼠下丘脑CB1受体和c-Fos阳性细胞数量和蛋白表达量与平原对照组大鼠比较,差异无统计学意义（P〉0.05）。结论急性缺氧大鼠摄食减少可能与弓状核、下丘脑腹外侧区和下丘脑腹内侧核CB1受体和c-Fos表达减少相关。; 汪冬杨帆黄庆愿周其全; 关键词：缺氧摄食行为下丘脑