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Literature DB >> 27646145

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

Angelo D'Alessandro¹, Travis Nemkov¹, Kaiqi Sun², Hong Liu², Anren Song², Andrew A Monte³, Andrew W Subudhi^3,4, Andrew T Lovering⁵, Daniel Dvorkin³, Colleen G Julian³, Christopher G Kevil⁶, Gopi K Kolluru⁶, Sruti Shiva⁷, Mark T Gladwin⁷, Yang Xia², Kirk C Hansen¹, Robert C Roach³.

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/H2S 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.

Entities: CellLine Chemical Disease Gene Species

Keywords: hydrogen sulfide; mass spectrometry; metabolic linkage; metabolomics; nitric oxide; red blood cell

Mesh：

Substances：

Year: 2016 PMID： 27646145 PMCID： PMC5512539 DOI： 10.1021/acs.jproteome.6b00733

Source DB: PubMed Journal: J Proteome Res ISSN： 1535-3893 Impact factor: 4.466

75 in total

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Authors: Karina Krotova; Jawaharlal M Patel; Edward R Block; Sergey Zharikov
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7. Glutathione synthesis and turnover in the human erythrocyte: alignment of a model based on detailed enzyme kinetics with experimental data.

Authors: Julia E Raftos; Stephney Whillier; Philip W Kuchel
Journal: J Biol Chem Date: 2010-05-24 Impact factor: 5.157

8. A metabolic model of human erythrocytes: practical application of the E-Cell Simulation Environment.

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10. Antiplatelet effects of dietary nitrate in healthy volunteers: involvement of cGMP and influence of sex.

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44 in total

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Journal: Blood Transfus Date: 2017-04-12 Impact factor: 3.443

3. Red blood cells in hemorrhagic shock: a critical role for glutaminolysis in fueling alanine transamination in rats.

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4. Methylation of protein aspartates and deamidated asparagines as a function of blood bank storage and oxidative stress in human red blood cells.

Authors: Julie A Reisz; Travis Nemkov; Monika Dzieciatkowska; Rachel Culp-Hill; Davide Stefanoni; Ryan C Hill; Tatsuro Yoshida; Andrew Dunham; Tamir Kanias; Larry J Dumont; Michael Busch; Elan Z Eisenmesser; James C Zimring; Kirk C Hansen; Angelo D'Alessandro
Journal: Transfusion Date: 2018-10-12 Impact factor: 3.157