Literature DB >> 25335801

Glycolysis and the pentose phosphate pathway after human traumatic brain injury: microdialysis studies using 1,2-(13)C2 glucose.

Ibrahim Jalloh1, Keri L H Carpenter2, Peter Grice3, Duncan J Howe3, Andrew Mason3, Clare N Gallagher4, Adel Helmy1, Michael P Murphy5, David K Menon6, T Adrian Carpenter7, John D Pickard2, Peter J Hutchinson2.   

Abstract

Increased 'anaerobic' glucose metabolism is observed after traumatic brain injury (TBI) attributed to increased glycolysis. An alternative route is the pentose phosphate pathway (PPP), which generates putatively protective and reparative molecules. To compare pathways we employed microdialysis to perfuse 1,2-(13)C2 glucose into the brains of 15 TBI patients and macroscopically normal brain in six patients undergoing surgery for benign tumors, and to simultaneously collect products for nuclear magnetic resonance (NMR) analysis. (13)C enrichment for glycolytic 2,3-(13)C2 lactate was the median 5.4% (interquartile range (IQR) 4.6-7.5%) in TBI brain and 4.2% (2.4-4.4%) in 'normal' brain (P<0.01). The ratio of PPP-derived 3-(13)C lactate to glycolytic 2,3-(13)C2 lactate was median 4.9% (3.6-8.2%) in TBI brain and 6.7% (6.3-8.9%) in 'normal' brain. An inverse relationship was seen for PPP-glycolytic lactate ratio versus PbtO2 (r=-0.5, P=0.04) in TBI brain. Thus, glycolytic lactate production was significantly greater in TBI than 'normal' brain. Several TBI patients exhibited PPP-lactate elevation above the 'normal' range. There was proportionally greater PPP-derived lactate production with decreasing PbtO2. The study raises questions about the roles of the PPP and glycolysis after TBI, and whether they can be manipulated to achieve a better outcome. This study is the first direct comparison of glycolysis and PPP in human brain.

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Year:  2014        PMID: 25335801      PMCID: PMC4294402          DOI: 10.1038/jcbfm.2014.177

Source DB:  PubMed          Journal:  J Cereb Blood Flow Metab        ISSN: 0271-678X            Impact factor:   6.200


  34 in total

1.  Metabolic crisis without brain ischemia is common after traumatic brain injury: a combined microdialysis and positron emission tomography study.

Authors:  Paul Vespa; Marvin Bergsneider; Nayoa Hattori; Hsiao-Ming Wu; Sung-Cheng Huang; Neil A Martin; Thomas C Glenn; David L McArthur; David A Hovda
Journal:  J Cereb Blood Flow Metab       Date:  2005-06       Impact factor: 6.200

2.  Stimulation of the pentose phosphate pathway and glutathione levels by dehydroascorbate, the oxidized form of vitamin C.

Authors:  F Puskas; P Gergely; K Banki; A Perl
Journal:  FASEB J       Date:  2000-07       Impact factor: 5.191

3.  Interstitial glucose and lactate balance in human skeletal muscle and adipose tissue studied by microdialysis.

Authors:  H Rosdahl; U Ungerstedt; L Jorfeldt; J Henriksson
Journal:  J Physiol       Date:  1993-11       Impact factor: 5.182

4.  Quantitative importance of the pentose phosphate pathway determined by incorporation of 13C from [2-13C]- and [3-13C]glucose into TCA cycle intermediates and neurotransmitter amino acids in functionally intact neurons.

Authors:  Eva M F Brekke; Anne B Walls; Arne Schousboe; Helle S Waagepetersen; Ursula Sonnewald
Journal:  J Cereb Blood Flow Metab       Date:  2012-06-20       Impact factor: 6.200

5.  Glucose metabolism after traumatic brain injury: estimation of pyruvate carboxylase and pyruvate dehydrogenase flux by mass isotopomer analysis.

Authors:  Brenda L Bartnik; David A Hovda; Paul W N Lee
Journal:  J Neurotrauma       Date:  2007-01       Impact factor: 5.269

6.  Increased pentose phosphate pathway flux after clinical traumatic brain injury: a [1,2-13C2]glucose labeling study in humans.

Authors:  Joshua R Dusick; Thomas C Glenn; W N Paul Lee; Paul M Vespa; Daniel F Kelly; Stefan M Lee; David A Hovda; Neil A Martin
Journal:  J Cereb Blood Flow Metab       Date:  2007-02-07       Impact factor: 6.200

7.  13C-Labeled substrates and the cerebral metabolic compartmentalization of acetate and lactate.

Authors:  Randy Lee Tyson; Clare Gallagher; Garnette Roy Sutherland
Journal:  Brain Res       Date:  2003-11-28       Impact factor: 3.252

8.  Inhibition of the pentose phosphate pathway decreases ischemia-reperfusion-induced creatine kinase release in the heart.

Authors:  C J Zuurbier; O Eerbeek; P T Goedhart; E A Struys; N M Verhoeven; C Jakobs; C Ince
Journal:  Cardiovasc Res       Date:  2004-04-01       Impact factor: 10.787

Review 9.  Massive increases in extracellular potassium and the indiscriminate release of glutamate following concussive brain injury.

Authors:  Y Katayama; D P Becker; T Tamura; D A Hovda
Journal:  J Neurosurg       Date:  1990-12       Impact factor: 5.115

10.  Cerebral extracellular chemistry and outcome following traumatic brain injury: a microdialysis study of 223 patients.

Authors:  Ivan Timofeev; Keri L H Carpenter; Jürgens Nortje; Pippa G Al-Rawi; Mark T O'Connell; Marek Czosnyka; Peter Smielewski; John D Pickard; David K Menon; Peter J Kirkpatrick; Arun K Gupta; Peter J Hutchinson
Journal:  Brain       Date:  2011-01-18       Impact factor: 13.501
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  47 in total

1.  Assessing the pentose phosphate pathway using [2, 3-13 C2 ]glucose.

Authors:  Min Hee Lee; Craig R Malloy; Ian R Corbin; Junjie Li; Eunsook S Jin
Journal:  NMR Biomed       Date:  2019-03-29       Impact factor: 4.044

2.  Microdialysate concentration changes do not provide sufficient information to evaluate metabolic effects of lactate supplementation in brain-injured patients.

Authors:  Gerald A Dienel; Douglas L Rothman; Carl-Henrik Nordström
Journal:  J Cereb Blood Flow Metab       Date:  2016-09-07       Impact factor: 6.200

Review 3.  Glucose metabolism in pediatric traumatic brain injury.

Authors:  Mayumi L Prins
Journal:  Childs Nerv Syst       Date:  2017-09-06       Impact factor: 1.475

4.  Understanding and monitoring brain injury: the role of cerebral microdialysis.

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Journal:  Intensive Care Med       Date:  2017-12-23       Impact factor: 17.440

Review 5.  Role of Microvascular Disruption in Brain Damage from Traumatic Brain Injury.

Authors:  Aric F Logsdon; Brandon P Lucke-Wold; Ryan C Turner; Jason D Huber; Charles L Rosen; James W Simpkins
Journal:  Compr Physiol       Date:  2015-07-01       Impact factor: 9.090

6.  Glycolytic inhibitor 2-deoxyglucose prevents cortical hyperexcitability after traumatic brain injury.

Authors:  Jenny B Koenig; David Cantu; Cho Low; Mary Sommer; Farzad Noubary; Danielle Croker; Michael Whalen; Dong Kong; Chris G Dulla
Journal:  JCI Insight       Date:  2019-04-30

Review 7.  Exploring cancer metabolism using stable isotope-resolved metabolomics (SIRM).

Authors:  Ronald C Bruntz; Andrew N Lane; Richard M Higashi; Teresa W-M Fan
Journal:  J Biol Chem       Date:  2017-06-07       Impact factor: 5.157

8.  Modulation of cerebral ketone metabolism following traumatic brain injury in humans.

Authors:  Adriano Bernini; Mojgan Masoodi; Daria Solari; John-Paul Miroz; Laurent Carteron; Nicolas Christinat; Paola Morelli; Maurice Beaumont; Samia Abed-Maillard; Mickael Hartweg; Fabien Foltzer; Philippe Eckert; Bernard Cuenoud; Mauro Oddo
Journal:  J Cereb Blood Flow Metab       Date:  2018-10-24       Impact factor: 6.200

Review 9.  Cerebral Microdialysis in Neurocritical Care.

Authors:  Ting Zhou; Atul Kalanuria
Journal:  Curr Neurol Neurosci Rep       Date:  2018-10-23       Impact factor: 5.081

Review 10.  Brain Energy Deficit as a Source of Oxidative Stress in Migraine: A Molecular Basis for Migraine Susceptibility.

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Journal:  Neurochem Res       Date:  2021-04-30       Impact factor: 3.996
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