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《心脏杂志》[ISSN:1009-7236/CN:61-1268/R]

期数:

2018年第5期

页码:

589-593

栏目:

综述

出版日期:

2018-06-25

文章信息/Info

Title:

Research advances in effects of hypoxia and erythropoietin on mitochondria

作者:

田 雪¹; 周白丽²

（1.青海大学研究生院，2.青海省人民医院心脏介入科，青海 西宁 810000）

Author(s):

TIAN Xue¹;  ZHOU Bai-li²

(1.Graduate School, Qinghai University, 2.Department of Cardiology, Qinghai Provincial People’s Hospital, Xining 810000, Qinghai, China)

关键词:

促红细胞生成素; 线粒体膜电位; 氧化应激

Keywords:

erythropoietin;  mitochondrial transmembrane potential;  oxidative stress

分类号:

R845.2

DOI:

-

文献标识码:

A

摘要:

缺氧是高原环境的一大特点之一，缺氧对机体的损伤主要与线粒体的功能有关。同时在缺氧条件下，促红细胞生成素代偿性增加，并可对线粒体的功能产生一定的影响。本文对缺氧和促红细胞生成素对线粒体影响的研究现状予以综述。

Abstract:

Hypoxia is one of the characteristics of high-altitude areas. The damage of anoxia to the body is mostly related to dysfunction of the mitochondria. Under hypoxic conditions, erythropoietin compensation increases and potentially may have an impact on the function of the mitochondria. In this article, the effects of hypoxia and erythropoietin on mitochondria are summarized.

参考文献/References

[1]蔡智慧,王兴红.促红细胞生成素对大鼠心肌缺血再灌注损伤的保护机制[J].中国医疗前沿,2012,7(6):11-12.

[2]赵玉伟,李法琦,李万玉,等.促红细胞生成素对急性心肌梗死大鼠心脏的保护作用及抗凋亡信号机制[J].中国老年学杂志,2013,33(4):849-851.

[3]Vetrovoy OV,Rybnikova EA,Glushchenko TS,et al.Mild hypobaric hypoxic postconditioning increases the expression of HIF-1α and erythropoietin in the CA1 field of the hippocampus of rats that survive after severe hypoxia[J].Neurochemical Journal,2014,8(2):103-108.

[4]Merelli A,Czornyj L,Lazarowski A.Erythropoietin:A Neuroprotective Agent in Cerebral Hypoxia,Neurodegeneration, and Epilepsy[J].Curr Pharm Des,2013,19(38):6791-6801.

[5]Feng J,Wang W.Hypoxia pretreatment and EPO-modification enhance the protective effects of MSC on neuron-like PC12 cells in a similar way[J].Biochem Biophys Res Commun,2016,46(11):232-238.

[6]闫方方，张梅梅.促红细胞生成素对短暂缺氧新生大鼠神经保护作用的研究[D].河南:郑州大学,2016.

[7]梁增红,朱凤莲.促红细胞生成素对新生大鼠缺氧缺血性脑病保护作用的研究[D].河南:新乡医学院,2013.

[8]El-Magd MA,Abdo WS,El-Maddaway M,et al.High doses of S-methylcysteine cause hypoxia-induced cardiomyocyte apoptosis accompanied by engulfment of mitochondaria by nucleus[J].Biomed Pharmacother,2017,94:589-597.

[9]Xu Y,Liu Y,Xia C,et al.Evidence for involvement of uncoupling proteins in cerebral mitochondrial oxidative phosphorylation deficiency of rats exposed to 5,000 m high altitude[J].Neurochem Res,2013,38(2):282-289.

[10]Lortz S,Gurgul E,Naujok O,et al.Overexpression of the antioxidant enzyme catalase does not interfere with the glucose responsiveness of insulin-secreting INS-1E cells and rat islets[J].Diabetologia,2013,56(4):774-782.

[11]鄢卫华,柳君泽.OMT对模拟高原缺氧大鼠脑线粒体呼吸氧耗与能量生成的影响及抗缺氧效应研究[D].重庆:第三军医大学,2012.

[12]Kwaaitaal M,Maintz J,Cavdar M,et al.On the ligand binding profile and desensitization of plant ionotropic glutamate receptor(i Glu R)-like channels functioning in MAMP-triggered Ca2+ influx[J].Plant Signal Behav,2012,7(11):1373-1377.

[13]Davidson SM,Yellon DM,Murphy MP,et al.Slow calcium waves and redox changes precede mitochondrial permeability transition pore opening in the intact heart during hypoxia and reoxygenation[J].Cardiovasc Res,2012,93(3):445-453.

[14]Naparus A,Ashrafpour H,Hofer S,et al.Efficacy and mechanism of hypoxic postconditioning in salvage of ex vivo human rectus abdominis muscle from hypoxia/reoxygenation injury[J].Eur J Pharmacol,2012,4(45):90-96.

[15]Zhang XG,Zhao L,Zhang Y,et al.Extracellular Cl--free-induced cardioprotection against hypoxia/reoxygenation is associated with attenuation of mitochondrial permeability transition pore[J].Biomed Pharmacother,2016,12(45):637-644.

[16]牛楠,宋佳卉,赵殷奇.缺氧培养下NRF-1基因对大鼠心肌细胞线粒体膜电位的影响[J].宁夏医科大学学报,2016,38(6):648-652.

[17]Webster KA.Mitochondrial membrane permeabilization and cell deathduring myocardial infarction:roles of calcium and reactive oxygenspecies[J].Future Cardiol,2012,8(6):863-884.

[18]陈 茜，徐瑞成.心肌细胞缺氧和红景天苷干预的差异性表达蛋白的SILAC定量蛋白质组学分析及线粒体相关的机制研究[D].河北:河北医科大学,2015.

[19]赵 蓓，官功昌，刘红梅.Vitae Pro抑制线粒体通路对心肌细胞缺氧损伤的保护作用[J].海南医学,2016,27(12):1900-1904.

[20]蒙 萍，王 宁，漆欣柱.模拟海拔8000 m高原缺氧环境对大鼠脑组织线粒体自噬的影响[J].解放军医药杂志,2016,28(6):9-13.

[21]Luo Y,Lu G,Chen Y,et al.Long-term cycles of hypoxia and normoxia increase the contentsof liver mitochondrial DNA in rats[J].Eur J Appl Physiol,2013,113(1):223-233.

[22]Wang X,Jian C,Zhang X,et al.Superoxide flashes:elemental events of mitochondrial ROS signaling in the heart[J].J Mol Cell Cardiol,2012,2(7):940-948.

[23]Fuhrmann DC,Brüne B.Mitochondrial composition and function under the control of hypoxia[J].Redox Biol,2017,2(12):208-215.

[24]Archer SL.Mitochondrial dynamics--mitochondrial fission and fusion in human diseases[J].N Engl J Med,2013,369(23): 2236-2251.

[25]罗桂平，蹇 朝，张华刚.Sirt1在缺氧条件下对心肌细胞线粒体融合与分裂中的作用[J].第三军医大学学报,2016,38(10):1121-1126.

[26]Wenker SD,Chamorro ME,Vittori DC,et al.Protective action of erythropoietin upon neuronal damage induced by activated microglia[J].The FEBS Journal (Online),2013,280(7):1630-1642.

[27]Jang W,Kim HJ,Li H,et al.The Neuroprotective Effect of Erythropoietin on Rotenone-Induced Neurotoxicity in SH-SY5Y Cells Through the Induction of Autophagy[J].Mol Neurobiol,2016,53(6):3812-3821.

[28]Heitrich M,García DM,Stoyanoff TR,et al.Erythropoietin attenuates renal and pulmonary injury in polymicrobial induced-sepsis through EPO-R,VEGF and VEGF-R2 modulation[J].Biomed Pharmacother,2016,45(5):606-613.

[29]Jun JH,Shim JK,Ryoo HM,et al.Erythropoietin-activated ERK/MAP kinase enhances GATA-4 acetylation via phosphorylation of serine 261 of GATA-4[J].J Cell Physiol,2012,228(1):190-197.

[30]周凯胜,肖颖彬.Akt/e NOS 信号通路在 EPO 促进慢性缺氧心肌细胞线粒体生物合成中作用[D].重庆:第三军医大学,2013.

[31]秦 川，陈 林，肖颖彬.eNOS在EPO调节慢性缺氧心肌细胞线粒体生物合成中的作用机制研究[J].重庆医学,2015,44(16):2167-2169.

[32]秦 川，陈 林，肖颖彬.EPO 激活 Akt增强慢性缺氧心肌线粒体生物合成机制研究[J].临床心血管病杂志,2015,31(7):783-787.

[33]Wang GB,Li YL,Zhao XP,et al.The AKT/mTOR pathway mediates Neuronal protective effects of erythropoietin in sepsis[J].Mol Cell Biochem,2014,385(1):125-132.

[34]付振虹，董 蔚，盖鲁粤.探讨重组人促红细胞生成素和粒细胞集落刺激因子联合应用对缺氧心肌细胞保护的分子机制[J].中国体外循环杂志,2012,10(4):227-231.

[35]Liu P,Lin YL,Tang XY,et al.Helix B Surface Peptide Protects Cardiomyocytes Against Hypoxia/Reoxygenation-induced Apoptosis Through Mitochondrial Pathways[J].J Cardiovasc Pharmacol,2016,67(5):418-426.

[36]孙 瑜，涂志业，糜 涛.重组人促红细胞生成素对心肌梗死大鼠心肌细胞凋亡与线粒体融合基因 2表达的影响[J].医药导报,2011,30(2):152-156.

[37]秦延军,张新亮,于悦卿.促红细胞生成素对脓毒症大鼠心肌损伤的保护作用[J].中国急诊医学杂志,2014,23(2):151-156.

[38]Millet A,Bouzat P,Trouve-Buisson T,et al.Erythropoietin and Its Derivates Modulate Mitochondrial Dysfunction after Diffuse Traumatic Brain Injury[J].J Neurotrauma,2016,33(17):1625-1633.

[39]Martinez-Bello VE,Sanchis-Gomar F,Romagnoli M,et al.Three weeks of erythropoietin treatment hampers skeletal muscle mitochondrial biogenesis in rats[J].J Physiol Biochem,2012,68(4):593-601.

[40]Plenge U,Belhage B,Guadalupe-Grau A,et al.Erythropoietin treatment enhances muscle mitochondrial capacity in humans[J].Front Physiol,2012,3:50.

备注/Memo

备注/Memo:

收稿日期：2017-07-12.通讯作者：周白丽，主任医师，主要从事心血管疾病研究 Email：zhoubaili1022@126.com 作者简介：田雪，硕士生 Email：chyang2006@126.com

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