2017
DOI: 10.1074/jbc.m117.804914
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Quantitative time-course metabolomics in human red blood cells reveal the temperature dependence of human metabolic networks

Abstract: The temperature dependence of biological processes has been studied at the levels of individual biochemical reactions and organism physiology ( basal metabolic rates) but has not been examined at the metabolic network level. Here, we used a systems biology approach to characterize the temperature dependence of the human red blood cell (RBC) metabolic network between 4 and 37 °C through absolutely quantified exo- and endometabolomics data. We used an Arrhenius-type model () to describe how the rate of a biochem… Show more

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Cited by 52 publications
(72 citation statements)
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“…Since NAD + is required by GAPDH to sustain glycolytic activity, regeneration of NADH back to NAD + may thus favor the reactivation of late glycolysis. In this view, the presence of pyruvate in rejuvenation solutions further impacts ATP and diphosphoglycerate generation capacity, more so in RBCs rejuvenated at 37°C, consistent with the temperature dependency of enzymatic kinetics in glycolysis . However, the levels of ATP, diphosphoglycerate, and glycolytic intermediates as well as pyruvate/lactate ratios suggest that cold rejuvenation may be sufficient to prime reactivation of RBC metabolism while maintaining a logistic advantage over standard rejuvenation.…”
Section: Discussionsupporting
confidence: 66%
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“…Since NAD + is required by GAPDH to sustain glycolytic activity, regeneration of NADH back to NAD + may thus favor the reactivation of late glycolysis. In this view, the presence of pyruvate in rejuvenation solutions further impacts ATP and diphosphoglycerate generation capacity, more so in RBCs rejuvenated at 37°C, consistent with the temperature dependency of enzymatic kinetics in glycolysis . However, the levels of ATP, diphosphoglycerate, and glycolytic intermediates as well as pyruvate/lactate ratios suggest that cold rejuvenation may be sufficient to prime reactivation of RBC metabolism while maintaining a logistic advantage over standard rejuvenation.…”
Section: Discussionsupporting
confidence: 66%
“…RBC storage in the blood bank is metabolically characterized by the progressive impairment of energy and redox metabolism . Briefly, it can be summarized that stored RBCs have a decreased capacity to generate ATP as a result of (1) temperature‐dependent effects on enzyme activities; (2) intracellular pH acidification via lactate accumulation; (3) negative feedback on phosphofructokinase activity; (4) reversible and irreversible oxidation of GAPDH; (5) DPG breakdown to sustain ATP generation for the first 2 weeks of storage; and (6) decreased glucose uptake and switch to other metabolic substrates, if available (e.g., citrate, other sugars) . These metabolic changes are functionally relevant in that, by depleting high‐energy phosphate compounds, RBCs lose their capacity to cope with osmotic/mechanical stressors and to regulate oxygen transport/off‐loading.…”
Section: Discussionmentioning
confidence: 99%
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“…4 Since then, omics technologies have helped to elucidate the complexity of the storage lesion, especially through the use of metabolomics, which provides a comprehensive overview of RBC metabolism. 5 While limited in the number of biological replicates and conditions tested in a single study, metabolomics investigations have flooded the literature over the past few years in the attempt to document the effect of different storage additives (SAGM, AS-1, AS-3, AS-5, AS-7, PAGGSM, PAG3M, ESOL-5), 613 rejuvenation procedures, 14 anaerobic storage conditions, 1518 temperature effects (>4°C 19 or cryopreservation 20 ) or novel storage additives (e.g. supplementation with adenine, alternative sugars or antioxidants).…”
Section: Introductionmentioning
confidence: 99%