scholarly article | Q13442814 |
P2093 | author name string | Kyoungho Suk | |
Sangmin Jeon | |||
Mithilesh Kumar Jha | |||
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Evidence for existence of tissue-specific regulation of the mammalian pyruvate dehydrogenase complex | Q24530636 | ||
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Supply and demand in cerebral energy metabolism: the role of nutrient transporters | Q24671074 | ||
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Lactate metabolism: a new paradigm for the third millennium | Q24677962 | ||
Hypoxia-inducible factor 1 and dysregulated c-Myc cooperatively induce vascular endothelial growth factor and metabolic switches hexokinase 2 and pyruvate dehydrogenase kinase 1 | Q24681460 | ||
Junctions between intimately apposed cell membranes in the vertebrate brain | Q24682725 | ||
Structure of rat BCKD kinase: Nucleotide-induced domain communication in a mitochondrial protein kinase | Q27634871 | ||
Expression, purification, and characterization of the dihydrolipoamide dehydrogenase-binding protein of the pyruvate dehydrogenase complex from Saccharomyces cerevisiae | Q27930889 | ||
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Tetrameric assembly and conservation in the ATP-binding domain of rat branched-chain alpha-ketoacid dehydrogenase kinase | Q28141279 | ||
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Metabolic crisis without brain ischemia is common after traumatic brain injury: a combined microdialysis and positron emission tomography study | Q28235582 | ||
Structure-function relationships in dihydrolipoamide acyltransferases | Q28247047 | ||
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Glycolysis inhibition for anticancer treatment | Q28256222 | ||
Metabolic modulation of glioblastoma with dichloroacetate | Q28282255 | ||
A mitochondria-K+ channel axis is suppressed in cancer and its normalization promotes apoptosis and inhibits cancer growth | Q28283339 | ||
HIF-1-mediated expression of pyruvate dehydrogenase kinase: a metabolic switch required for cellular adaptation to hypoxia | Q28300406 | ||
Fuel-sensing mechanisms integrating lipid and carbohydrate utilization | Q43610154 | ||
Control of pyruvate dehydrogenase kinase gene expression | Q43625199 | ||
Oxidative damage is the earliest event in Alzheimer disease | Q43696731 | ||
Selective modification of pyruvate dehydrogenase kinase isoform expression in rat pancreatic islets elicited by starvation and activation of peroxisome proliferator-activated receptor-alpha: implications for glucose-stimulated insulin secretion | Q43808948 | ||
Regulation of pyruvate dehydrogenase kinase expression by peroxisome proliferator-activated receptor-alpha ligands, glucocorticoids, and insulin | Q43867510 | ||
Behavioral dysfunction, brain oxidative stress, and impaired mitochondrial electron transfer in aging mice | Q43917396 | ||
Hypoxia-inducible factor 1 activation by aerobic glycolysis implicates the Warburg effect in carcinogenesis | Q43954468 | ||
Structural and functional damage sustained by mitochondria after traumatic brain injury in the rat: evidence for differentially sensitive populations in the cortex and hippocampus | Q44305130 | ||
Dynamic changes in local cerebral glucose utilization following cerebral concussion in rats: evidence of a hyper- and subsequent hypometabolic state | Q44465748 | ||
Correlation of regional metabolic rates of glucose with glasgow coma scale after traumatic brain injury | Q44645680 | ||
Acrolein inhibits NADH-linked mitochondrial enzyme activity: implications for Alzheimer's disease | Q44722605 | ||
Effects of aerobic training on pyruvate dehydrogenase and pyruvate dehydrogenase kinase in human skeletal muscle | Q44799807 | ||
Increased cerebral uptake and oxidation of exogenous betaHB improves ATP following traumatic brain injury in adult rats | Q44980202 | ||
Reduction of brain lipid peroxidation by CSF drainage in Alzheimer's disease patients. | Q45042831 | ||
Mitochondrial alpha-ketoglutarate dehydrogenase complex generates reactive oxygen species. | Q45050765 | ||
Over-estimation of glucose-6-phosphatase activity in brain in vivo. Apparent difference in rates of [2-3H]glucose and [U-14C]glucose utilization is due to contamination of precursor pool with 14C-labeled products and incomplete recovery of 14C-label | Q45109328 | ||
Comparative homology modeling of pyruvate dehydrogenase kinase isozymes from Xenopus tropicalis reveals structural basis for their subfunctionalization | Q45798292 | ||
Traumatic brain injury-induced expression and phosphorylation of pyruvate dehydrogenase: a mechanism of dysregulated glucose metabolism. | Q46018156 | ||
Impaired cerebral mitochondrial function after traumatic brain injury in humans | Q46127691 | ||
Nonischemic energy metabolic crisis in acute brain injury | Q46350521 | ||
Mitochondrial dysfunction: an early event in Alzheimer pathology accumulates with age in AD transgenic mice | Q46737335 | ||
Mitochondrial Abeta: a potential focal point for neuronal metabolic dysfunction in Alzheimer's disease | Q47714762 | ||
A possible contribution by glial cells to neuronal energy production: enzyme-histochemical studies in the developing rat cerebellum | Q48091043 | ||
Lactate, not pyruvate, is neuronal aerobic glycolysis end product: an in vitro electrophysiological study | Q48140865 | ||
Proteomic identification of oxidized mitochondrial proteins following experimental traumatic brain injury | Q48159946 | ||
Energy on demand | Q48283930 | ||
Mitochondrial dysfunction after experimental and human brain injury and its possible reversal with a selective N-type calcium channel antagonist (SNX-111). | Q48695643 | ||
Pyruvate carboxylase activity in primary cultures of astrocytes and neurons | Q48719469 | ||
Ion homeostasis in brain cells: differences in intracellular ion responses to energy limitation between cultured neurons and glial cells | Q48720755 | ||
Controlled cortical impact injury and craniotomy result in divergent alterations of pyruvate metabolizing enzymes in rat brain | Q48758815 | ||
Mitochondrial dysfunction and calcium perturbation induced by traumatic brain injury | Q48805479 | ||
The astrocyte--neuron lactate shuttle: a debated but still valuable hypothesis for brain imaging | Q48921655 | ||
Acrolein is a mitochondrial toxin: effects on respiratory function and enzyme activities in isolated rat liver mitochondria. | Q51192756 | ||
The abundance of mRNAs for pyruvate dehydrogenase kinase isoenzymes in brain regions of young and aged rats. | Q52140076 | ||
Abundant expression of GLUT1 and GLUT3 in rat embryo during the early organogenesis period. | Q52208965 | ||
Stoichiometry, organisation and catalytic function of protein X of the pyruvate dehydrogenase complex from bovine heart | Q71047860 | ||
The hormonal regulation of pyruvate dehydrogenase complex | Q71682906 | ||
Glycogen in astrocytes: possible function as lactate supply for neighboring cells | Q72558138 | ||
Starvation increases the amount of pyruvate dehydrogenase kinase in several mammalian tissues | Q73043566 | ||
Acrolein, a product of lipid peroxidation, inhibits glucose and glutamate uptake in primary neuronal cultures | Q73128987 | ||
Metabolic impairment induces oxidative stress, compromises inflammatory responses, and inactivates a key mitochondrial enzyme in microglia | Q77366399 | ||
The interplay between MYC and HIF in the Warburg effect | Q82039379 | ||
Human skeletal muscle pyruvate dehydrogenase kinase activity increases after a low-carbohydrate diet | Q93914688 | ||
HIF-1 mediates adaptation to hypoxia by actively downregulating mitochondrial oxygen consumption | Q28300415 | ||
PDH activation during in vitro muscle contractions in PDH kinase 2 knockout mice: effect of PDH kinase 1 compensation | Q28307470 | ||
Evidence that pyruvate dehydrogenase kinase belongs to the ATPase/kinase superfamily | Q28510166 | ||
Primary structure of pyruvate dehydrogenase kinase establishes a new family of eukaryotic protein kinases | Q28575548 | ||
Starvation and diabetes reduce the amount of pyruvate dehydrogenase phosphatase in rat heart and kidney | Q28576322 | ||
Functional brain abnormalities in young adults at genetic risk for late-onset Alzheimer's dementia | Q29397661 | ||
Alzheimer's disease is a synaptic failure | Q29547670 | ||
Glutamate uptake into astrocytes stimulates aerobic glycolysis: a mechanism coupling neuronal activity to glucose utilization | Q29620724 | ||
Astrocytes are poised for lactate trafficking and release from activated brain and for supply of glucose to neurons | Q30479376 | ||
Proteomic analysis of mitochondria reveals a metabolic switch from fatty acid oxidation to glycolysis in the failing heart | Q30915732 | ||
Astrocyte-neuron lactate shuttle may boost more ATP supply to the neuron under hypoxic conditions--in silico study supported by in vitro expression data | Q31034673 | ||
A quantitative overview of glucose dynamics in the gliovascular unit | Q31119991 | ||
Cellular pathways of energy metabolism in the brain: is glucose used by neurons or astrocytes? | Q31119994 | ||
Towards a genome-scale kinetic model of cellular metabolism | Q33527111 | ||
Regulatory interactions between lipids and carbohydrates: the glucose fatty acid cycle after 35 years. | Q33545914 | ||
Response to 'comment on recent modeling studies of astrocyte-neuron metabolic interactions': much ado about nothing. | Q33852904 | ||
Neuron-glia metabolic coupling and plasticity | Q33996201 | ||
Phosphorylation status of pyruvate dehydrogenase distinguishes metabolic phenotypes of cultured rat brain astrocytes and neurons. | Q34043021 | ||
The mitochondrial spiral. An adequate cause of dementia in the Alzheimer's syndrome. | Q34148933 | ||
Brain lactate kinetics: Modeling evidence for neuronal lactate uptake upon activation | Q34160702 | ||
Glucose transporter 1 and monocarboxylate transporters 1, 2, and 4 localization within the glial cells of shark blood-brain-barriers. | Q34184563 | ||
Regulation of pyruvate dehydrogenase complex activity by reversible phosphorylation | Q34279293 | ||
Regional cerebral glucose uptake in the 3xTG model of Alzheimer's disease highlights common regional vulnerability across AD mouse models | Q34284137 | ||
Molecular cloning of the p45 subunit of pyruvate dehydrogenase kinase | Q34325800 | ||
Do active cerebral neurons really use lactate rather than glucose? | Q34384249 | ||
Distinct regulatory properties of pyruvate dehydrogenase kinase and phosphatase isoforms | Q34408068 | ||
Astrocyte-mediated control of cerebral blood flow | Q34481040 | ||
Oxidative and nonoxidative metabolism of excited neurons and astrocytes | Q34504180 | ||
Accumulation of amyloid precursor protein in the mitochondrial import channels of human Alzheimer's disease brain is associated with mitochondrial dysfunction. | Q34562025 | ||
Regulation of the pyruvate dehydrogenase complex | Q34565754 | ||
Mechanisms underlying regulation of the expression and activities of the mammalian pyruvate dehydrogenase kinases | Q34572847 | ||
Pyruvate dehydrogenase kinase regulatory mechanisms and inhibition in treating diabetes, heart ischemia, and cancer | Q34575904 | ||
Metabolic targeting as an anticancer strategy: dawn of a new era? | Q34617961 | ||
Activity-dependent regulation of energy metabolism by astrocytes: an update | Q34656867 | ||
Regulation of the activity of the pyruvate dehydrogenase complex | Q34747160 | ||
A mitocentric view of Alzheimer's disease suggests multi-faceted treatments | Q34902708 | ||
Energy metabolism in the brain | Q34991023 | ||
Genetic pathways to primary and secondary glioblastoma | Q35757144 | ||
Nutrition during brain activation: does cell-to-cell lactate shuttling contribute significantly to sweet and sour food for thought? | Q35774454 | ||
Protection against ischemic brain injury by inhibition of mitochondrial oxidative stress | Q35891881 | ||
Neurobarrier coupling in the brain: a partner of neurovascular and neurometabolic coupling? | Q36022927 | ||
Mitochondria take center stage in aging and neurodegeneration | Q36264218 | ||
Neuronal-glial glucose oxidation and glutamatergic-GABAergic function. | Q36366441 | ||
Hippocampal hypometabolism predicts cognitive decline from normal aging | Q36725261 | ||
Compartmentalization of brain energy metabolism between glia and neurons: insights from mathematical modeling | Q36894705 | ||
Activation of c-Jun-N-terminal kinase and decline of mitochondrial pyruvate dehydrogenase activity during brain aging | Q37167897 | ||
Declining brain glucose metabolism in normal individuals with a maternal history of Alzheimer disease | Q37180524 | ||
Astrocytes as the glucose shunt for glutamatergic neurons at high activity: an in silico study | Q37190449 | ||
Mitochondrial bioenergetic deficit precedes Alzheimer's pathology in female mouse model of Alzheimer's disease | Q37321251 | ||
FDG-PET changes in brain glucose metabolism from normal cognition to pathologically verified Alzheimer's disease | Q37415324 | ||
Molecular biology and biochemistry of pyruvate dehydrogenase complexes. | Q37978313 | ||
The pyruvate dehydrogenase complex as a therapeutic target for age-related diseases | Q37982890 | ||
A new level of architectural complexity in the human pyruvate dehydrogenase complex | Q38274657 | ||
The pharmacology of dichloroacetate | Q38300732 | ||
Glutamine Synthetase: Glial Localization in Brain | Q39138188 | ||
Fuel selection in animals | Q39748853 | ||
Regulation of pyruvate metabolism in mammalian tissues | Q39843260 | ||
Mitochondrial dysfunction early after traumatic brain injury in immature rats | Q40227736 | ||
Mitochondria are a direct site of A beta accumulation in Alzheimer's disease neurons: implications for free radical generation and oxidative damage in disease progression | Q40301497 | ||
Reversible inactivation of HIF-1 prolyl hydroxylases allows cell metabolism to control basal HIF-1. | Q40362310 | ||
Structural correlates of cognition in dementia: quantification and assessment of synapse change. | Q41443879 | ||
Function of phosphorylation sites on pyruvate dehydrogenase | Q41667973 | ||
Amyloid beta, mitochondrial dysfunction and synaptic damage: implications for cognitive decline in aging and Alzheimer's disease | Q41945324 | ||
Evaluation of the role of peroxisome-proliferator-activated receptor alpha in the regulation of cardiac pyruvate dehydrogenase kinase 4 protein expression in response to starvation, high-fat feeding and hyperthyroidism | Q42048511 | ||
Starvation and diabetes increase the amount of pyruvate dehydrogenase kinase isoenzyme 4 in rat heart | Q42159479 | ||
Molecular mechanisms underlying the long-term impact of dietary fat to increase cardiac pyruvate dehydrogenase kinase: regulation by insulin, cyclic AMP and pyruvate | Q42441840 | ||
Evidence for an important role of CIDEA in human cancer cachexia | Q42806317 | ||
Role of protein synthesis and of fatty acid metabolism in the longer-term regulation of pyruvate dehydrogenase kinase | Q42835053 | ||
PDK1 plays a critical role in regulating cardiac function in mice and human | Q42842800 | ||
Hormonal regulation of glycolytic enzyme gene and pyruvate dehydrogenase kinase/phosphatase gene transcription | Q43286186 | ||
P433 | issue | 4 | |
P304 | page(s) | 393-403 | |
P577 | publication date | 2012-12-01 | |
P1433 | published in | Current Neuropharmacology | Q20181354 |
P1476 | title | Pyruvate Dehydrogenase Kinases in the Nervous System: Their Principal Functions in Neuronal-glial Metabolic Interaction and Neuro-metabolic Disorders | |
P478 | volume | 10 |
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