| 模拟微重力导致人脐静脉内皮细胞微管骨架重构及增殖的影响 |
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| 引用本文: | 李静,陈军,钱彦方,杜挺媛,张舒,孙喜庆.模拟微重力导致人脐静脉内皮细胞微管骨架重构及增殖的影响[J].生物磁学,2012(28):5415-5419,5433. |
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| 作者姓名: | 李静 陈军 钱彦方 杜挺媛 张舒 孙喜庆 |
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| 作者单位: | [1]海军总医院中医科,北京100048 [2]陕西中医学院针灸推拿系,陕西咸阳712046 [3]第四军医大学航空航天医学系细胞动力教研室,陕西西安710032 |
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| 基金项目: | 国家自然科学基金资助项目(81102678) |
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| 摘 要: | 目的:观察模拟微重力(MMG)致人脐静脉内皮细胞(HUVECs)微管骨架结构的改变,并对MMG作用后细胞的增殖等功能进行评价。方法:酶消化法原代培养HUVECs,随机分为2D.clinostat干预的MMG培养组与NG对照培养组,均培养48h;倒置显微镜下观察细胞形态,细胞计数及流式细胞术分析细胞增殖、凋亡及细胞周期变化。结果:所培养的HUVECs细胞并经流式细胞术鉴定证实;MMG干预48h使大量的微管蛋白发生解聚,微管的网状结构已经模糊不见,随之代替的是崩解的微管小聚体;MMG可使HUvECs增殖明显抑制,细胞周期抑制于G2/M期(G2/M:MMG,27.6%;NG,18.1%;P〈0.05),然而细胞并没有发生明显凋亡。结论:MMG可显著影响HUVECs的形态与细胞骨架结构并抑制其增殖功能,HUVECs的增殖抑制可能与紊乱的微管结构密切相关。
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| 关 键 词: | 模拟微重力MMG 人脐静脉内皮细胞HIVEC 细胞骨架 增殖 |
Effect of Modeled Microgravity on Cytoskeleton Architecture and Proliferation of HUVECs |
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| LI JinX,CHEN June,QIAN Ynn-fan,DU Ting-yuan,ZHANG Shua,SUN Xi-qing.Effect of Modeled Microgravity on Cytoskeleton Architecture and Proliferation of HUVECs[J].Biomagnetism,2012(28):5415-5419,5433. |
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| Authors: | LI JinX CHEN June QIAN Ynn-fan DU Ting-yuan ZHANG Shua SUN Xi-qing |
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| Institution: | 3 (I Traditional Chinese Medicine department, PLA General Hospital, Beijing, 100048, PR China; 2 Acupuncture andmassage department, Shaanxi University of Chinese Medcine, Xianyang Shaattxt 712046, PR China; 3 Department ofAerospace Biodynamics, Faculty of Aerospace Medicine, the Fourth MilitaryMedical University, |
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| Abstract: | Objective: To investigate the cytoskeleton, proliferation function of HUVECs under MMG. Method: Isolation and culture of HUVECs by enzyme digestion, and cells were identified by flow cytometry (FCM). The stimulated weightlessness was mimic- ked by 2D- clinostat. HUVECs were exposed to clinorotation for 48 h at 30 rpm. Cell proliferation, apoptosis and cell cycle were analyz- ed by cell counting and FCM. The change of the microtubules network and chromatin structure were observed by Confocal microscopy. Results: The expression of CD31 and Factor- Vm were positive in our primary cultured HUVECs; Instead of long, strongly labeled microtubules radiating throughout the cytoplasm, only a few filaments could be distinguished against the strong background. This more or less diffuse labeling could correspond to either labeled free tubulin subunits or numerous but very short microtubules; HUVECs prolif- eration was greatly decreased in MMG while no apoptosis was detected and cell Cycling was mainly blocked in G2/M phase (MMG, 27.6%; NG, 18.1%; P〈0.05). Conclusions: MMG could affect cellular morphology and proliferation. And the decreased cell proliferation is greatly associated with architecture of microtubules. |
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| Keywords: | Modeled microgravity MMG Human umbilical vein endothelial cells HUVECs Cytoskeleton Migration |
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