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Beneficial Role of Erythrocyte Adenosine A2B Receptor-Mediated AMP-Activated Protein Kinase Activation in High-Altitude Hypoxia.红细胞腺苷A2B受体介导的AMP激活蛋白激酶激活在高原低氧中的有益作用
Circulation. 2016 Aug 2;134(5):405-21. doi: 10.1161/CIRCULATIONAHA.116.021311.
2
Sphingosine-1-phosphate promotes erythrocyte glycolysis and oxygen release for adaptation to high-altitude hypoxia.鞘氨醇-1-磷酸促进红细胞糖酵解和氧气释放以适应高原缺氧。
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3
Oxidative modifications of glyceraldehyde 3-phosphate dehydrogenase regulate metabolic reprogramming of stored red blood cells.甘油醛-3-磷酸脱氢酶的氧化修饰调节储存红细胞的代谢重编程。
Blood. 2016 Sep 22;128(12):e32-42. doi: 10.1182/blood-2016-05-714816. Epub 2016 Jul 12.
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Red blood cell storage in additive solution-7 preserves energy and redox metabolism: a metabolomics approach.在添加剂溶液-7中储存红细胞可维持能量和氧化还原代谢:一种代谢组学方法。
Transfusion. 2015 Dec;55(12):2955-66. doi: 10.1111/trf.13253. Epub 2015 Aug 14.
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Pathologic metabolism: an exploratory study of the plasma metabolome of critical injury.病理代谢:严重创伤患者血浆代谢组的探索性研究
J Trauma Acute Care Surg. 2015 Apr;78(4):742-51. doi: 10.1097/TA.0000000000000589.
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Routine storage of red blood cell (RBC) units in additive solution-3: a comprehensive investigation of the RBC metabolome.红细胞(RBC)单位在添加剂溶液-3中的常规储存:对红细胞代谢组的全面研究
Transfusion. 2015 Jun;55(6):1155-68. doi: 10.1111/trf.12975. Epub 2014 Dec 30.
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Mechanisms of human erythrocytic bioactivation of nitrite.亚硝酸盐的人体红细胞生物活化机制。
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AltitudeOmics: rapid hemoglobin mass alterations with early acclimatization to and de-acclimatization from 5260 m in healthy humans.海拔高度组学:健康人在5260米高度早期适应和脱适应过程中血红蛋白质量的快速变化
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9
Metabolomics of AS-5 RBC supernatants following routine storage.常规储存后AS-5红细胞上清液的代谢组学
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An update on red blood cell storage lesions, as gleaned through biochemistry and omics technologies.通过生物化学和组学技术获得的关于红细胞储存损伤的最新进展。
Transfusion. 2015 Jan;55(1):205-19. doi: 10.1111/trf.12804. Epub 2014 Aug 6.

海拔组学:红细胞对高原低氧的代谢适应性

AltitudeOmics: Red Blood Cell Metabolic Adaptation to High Altitude Hypoxia.

作者信息

D'Alessandro Angelo, Nemkov Travis, Sun Kaiqi, Liu Hong, Song Anren, Monte Andrew A, Subudhi Andrew W, Lovering Andrew T, Dvorkin Daniel, Julian Colleen G, Kevil Christopher G, Kolluru Gopi K, Shiva Sruti, Gladwin Mark T, Xia Yang, Hansen Kirk C, Roach Robert C

机构信息

Department of Biochemistry and Molecular Genetics, University of Colorado Denver , Anschutz Medical Campus, Aurora, Colorado 80045, United States.

Department of Biochemistry and Molecular Biology, The University of Texas Health Science Center at Houston , Houston, Texas, United States.

出版信息

J Proteome Res. 2016 Oct 7;15(10):3883-3895. doi: 10.1021/acs.jproteome.6b00733. Epub 2016 Sep 27.

DOI:10.1021/acs.jproteome.6b00733
PMID:27646145
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5512539/
Abstract

Red blood cells (RBCs) are key players in systemic oxygen transport. RBCs respond to in vitro hypoxia through the so-called oxygen-dependent metabolic regulation, which involves the competitive binding of deoxyhemoglobin and glycolytic enzymes to the N-terminal cytosolic domain of band 3. This mechanism promotes the accumulation of 2,3-DPG, stabilizing the deoxygenated state of hemoglobin, and cytosol acidification, triggering oxygen off-loading through the Bohr effect. Despite in vitro studies, in vivo adaptations to hypoxia have not yet been completely elucidated. Within the framework of the AltitudeOmics study, erythrocytes were collected from 21 healthy volunteers at sea level, after exposure to high altitude (5260 m) for 1, 7, and 16 days, and following reascent after 7 days at 1525 m. UHPLC-MS metabolomics results were correlated to physiological and athletic performance parameters. Immediate metabolic adaptations were noted as early as a few hours from ascending to >5000 m, and maintained for 16 days at high altitude. Consistent with the mechanisms elucidated in vitro, hypoxia promoted glycolysis and deregulated the pentose phosphate pathway, as well purine catabolism, glutathione homeostasis, arginine/nitric oxide, and sulfur/HS metabolism. Metabolic adaptations were preserved 1 week after descent, consistently with improved physical performances in comparison to the first ascendance, suggesting a mechanism of metabolic memory.

摘要

红细胞(RBCs)是全身氧气运输的关键参与者。红细胞通过所谓的氧依赖性代谢调节对体外缺氧作出反应,这涉及脱氧血红蛋白和糖酵解酶与带3的N端胞质结构域的竞争性结合。这种机制促进2,3-二磷酸甘油酸(2,3-DPG)的积累,稳定血红蛋白的脱氧状态,并导致胞质酸化,通过玻尔效应触发氧气卸载。尽管有体外研究,但体内对缺氧的适应性尚未完全阐明。在AltitudeOmics研究的框架内,从21名健康志愿者在海平面、暴露于高海拔(5260米)1天、7天和16天后以及在1525米处停留7天后再上升时采集红细胞。超高效液相色谱-质谱代谢组学结果与生理和运动表现参数相关。早在上升到>5000米后的几个小时就注意到了即时代谢适应,并在高海拔维持了16天。与体外阐明的机制一致,缺氧促进糖酵解并使磷酸戊糖途径、嘌呤分解代谢、谷胱甘肽稳态、精氨酸/一氧化氮和硫/HS代谢失调。下降1周后代谢适应得以保留,与首次上升相比身体表现有所改善,提示存在代谢记忆机制。