| scholarly article | Q13442814 |
| P50 | author | Pierre Magistretti | Q19841109 |
| Luc Pellerin | Q41241332 | ||
| Jean-Luc Martin | Q48333512 | ||
| P2093 | author name string | Stella N | |
| Charnay Y | |||
| Bouras C | |||
| Pellegri G | |||
| Bittar PG | |||
| P433 | issue | 4-5 | |
| P921 | main subject | astrocyte | Q502961 |
| supporting evidence | Q110632057 | ||
| P304 | page(s) | 291-299 | |
| P577 | publication date | 1998-01-01 | |
| P1433 | published in | Developmental Neuroscience | Q15763713 |
| P1476 | title | Evidence supporting the existence of an activity-dependent astrocyte-neuron lactate shuttle | |
| P478 | volume | 20 |
| Q43592552 | 13C isotopomer analysis of glucose and alanine metabolism reveals cytosolic pyruvate compartmentation as part of energy metabolism in astrocytes |
| Q42504702 | 17beta-Estradiol reduces cortical lesion size in the glutamate excitotoxicity model by enhancing extracellular lactate: a new neuroprotective pathway |
| Q43542349 | 2-deoxyglucose enhances epileptic tolerance evoked by transient incomplete brain ischemia in mice |
| Q92330329 | A GPR17-cAMP-Lactate Signaling Axis in Oligodendrocytes Regulates Whole-Body Metabolism |
| Q33660504 | A diagnostic biomarker profile for fibromyalgia syndrome based on an NMR metabolomics study of selected patients and controls |
| Q35763118 | A hypothetical astrocyte-microglia lactate shuttle derived from a (1)H NMR metabolomics analysis of cerebrospinal fluid from a cohort of South African children with tuberculous meningitis. |
| Q48371659 | A model of indispensability of a large glial layer in cerebrovascular circulation. |
| Q45240193 | A preferential role for glycolysis in preventing the anoxic depolarization of rat hippocampal area CA1 pyramidal cells. |
| Q33953333 | A review of the causes of central pontine myelinosis: yet another apoptotic illness? |
| Q34555491 | ABCC8 and ABCC9: ABC transporters that regulate K+ channels |
| Q36794591 | Abnormal activity-dependent brain lactate and glutamate+glutamine responses in panic disorder |
| Q48024746 | Accumulation of lactate in the rat brain during hyperammonaemia is not associated with impaired mitochondrial respiratory capacity |
| Q30461048 | Acid-sensing ion channels: A new target for pain and CNS diseases |
| Q37630535 | Activated astrocytes: a therapeutic target in Alzheimer's disease? |
| Q40385439 | Aerobic production and utilization of lactate satisfy increased energy demands upon neuronal activation in hippocampal slices and provide neuroprotection against oxidative stress |
| Q44529085 | Age-related changes in cerebral lactate metabolism in sleep-disordered breathing |
| Q44028764 | Albumin promotes neuronal survival by increasing the synthesis and release of glutamate |
| Q43825319 | Alpha-cyano-4-hydroxycinnamate decreases both glucose and lactate metabolism in neurons and astrocytes: implications for lactate as an energy substrate for neurons |
| Q33988027 | Altered glycogen metabolism in cultured astrocytes from mice with chronic glutathione deficit; relevance for neuroenergetics in schizophrenia |
| Q46970368 | Alternative promoter usage and alternative splicing contribute to mRNA heterogeneity of mouse monocarboxylate transporter 2. |
| Q35080397 | Analysis of the binding moiety mediating the interaction between monocarboxylate transporters and carbonic anhydrase II |
| Q37993651 | Antioxidant and bioenergetic coupling between neurons and astrocytes. |
| Q39592042 | Ascorbic acid-dependent GLUT3 inhibition is a critical step for switching neuronal metabolism |
| Q40061455 | Assessment of brain metabolite correlates of adeno-associated virus-mediated over-expression of human alpha-synuclein in cortical neurons by in vivo (1) H-MR spectroscopy at 9.4 T. |
| Q28068029 | Astrocyte Differentiation of Human Pluripotent Stem Cells: New Tools for Neurological Disorder Research |
| Q30678012 | Astrocyte NMDA receptors' activity sustains neuronal survival through a Cdk5-Nrf2 pathway. |
| Q42420128 | Astrocyte morphology is confined by cortical functional boundaries in mammals ranging from mice to human |
| Q38966132 | Astrocytes: Integrative Regulators of Neuroinflammation in Stroke and Other Neurological Diseases |
| Q90713456 | Astrocytic changes with aging and Alzheimer's disease-type pathology in chimpanzees |
| Q36032698 | Astrocytic regulation of glutamate homeostasis in epilepsy |
| Q36657652 | Autoimmune modulation of astrocyte-mediated homeostasis. |
| Q39135562 | Basal Forebrain Cholinergic System and Orexin Neurons: Effects on Attention |
| Q38876577 | Bidirectional Control of Blood Flow by Astrocytes: A Role for Tissue Oxygen and Other Metabolic Factors |
| Q38770428 | Bioenergetics and redox adaptations of astrocytes to neuronal activity. |
| Q61443992 | Blood-brain barrier permeability and physical exercise |
| Q36688433 | Brain Glucose Metabolism Controls Hepatic Glucose and Lipid Production. |
| Q26864631 | Brain energy metabolism and mitochondrial dysfunction in acute and chronic hepatic encephalopathy |
| Q48560982 | Brain glycogen decreases with increased periods of wakefulness: implications for homeostatic drive to sleep. |
| Q30921812 | Brain glycogen re-awakened |
| Q47835103 | Brain insulin resistance in type 2 diabetes and Alzheimer disease: concepts and conundrums |
| Q35749855 | Brain lactate responses during visual stimulation in fasting and hyperglycemic subjects: a proton magnetic resonance spectroscopy study at 1.5 Tesla |
| Q39035128 | Brain metastasis: Unique challenges and open opportunities |
| Q37512891 | CNS regulation of glucose homeostasis |
| Q34991043 | CNS sensing and regulation of peripheral glucose levels |
| Q34979464 | Can lactate serve as an energy substrate for axons in good times and in bad, in sickness and in health? |
| Q91656807 | Cancer Metabolism Drives a Stromal Regenerative Response |
| Q91594332 | Catalytically inactive carbonic anhydrase-related proteins enhance transport of lactate by MCT1 |
| Q37608831 | Cell-cell and intracellular lactate shuttles. |
| Q31119994 | Cellular pathways of energy metabolism in the brain: is glucose used by neurons or astrocytes? |
| Q38941366 | Cerebral and Peripheral Metabolism to Predict Successful Reperfusion After Cardiac Arrest in Rats: A Microdialysis Study |
| Q37298312 | Cerebral extracellular lactate increase is predominantly nonischemic in patients with severe traumatic brain injury |
| Q33802454 | Cerebral metabolic adaptation and ketone metabolism after brain injury. |
| Q45840054 | Cerebral metabolic effects of exogenous lactate supplementation on the injured human brain |
| Q73466730 | Characteristics of monocarboxylates as energy substrates other than glucose in rat brain slices and the effect of selective glial poisoning - a 31P NMR study |
| Q28392768 | Clinical perspective on oxidative stress in sporadic amyotrophic lateral sclerosis |
| Q32062372 | Comparison of glucose and lactate as substrates during NMDA-induced activation of hippocampal slices |
| Q31696498 | Confocal microscopic study of glial-vascular relationships in the retinas of pigmented rats |
| Q34361191 | Connexins and gap junctional communication in astrocytes are targets for neuroglial interaction |
| Q34467474 | Control of mitochondrial pH by uncoupling protein 4 in astrocytes promotes neuronal survival |
| Q24650560 | Coupling between neuronal activity and microcirculation: implications for functional brain imaging |
| Q48681715 | Cytosolic Ca2+ regulates the energization of isolated brain mitochondria by formation of pyruvate through the malate–aspartate shuttle |
| Q41757942 | Deficiency in monocarboxylate transporter 1 (MCT1) in mice delays regeneration of peripheral nerves following sciatic nerve crush. |
| Q40036386 | Desperately seeking sugar: glial cells as hypoglycemia sensors |
| Q34961411 | Dichloroacetate effects on glucose and lactate oxidation by neurons and astroglia in vitro and on glucose utilization by brain in vivo |
| Q61774071 | Differential messenger RNA distribution of lactate dehydrogenase LDH-1 and LDH-5 isoforms in the rat brain |
| Q35540543 | Direct neuronal glucose uptake heralds activity-dependent increases in cerebral metabolism |
| Q34023246 | Disruption of astrocyte-vascular coupling and the blood-brain barrier by invading glioma cells. |
| Q48588696 | Distribution of monocarboxylate transporters MCT1-MCT8 in rat tissues and human skeletal muscle |
| Q34384249 | Do active cerebral neurons really use lactate rather than glucose? |
| Q24633920 | Does visual cortex lactate increase following photic stimulation in migraine without aura patients? A functional (1)H-MRS study |
| Q44969014 | Dual-gene, dual-cell type therapy against an excitotoxic insult by bolstering neuroenergetics. |
| Q44180898 | Dynamic imaging of free cytosolic ATP concentration during fuel sensing by rat hypothalamic neurones: evidence for ATP-independent control of ATP-sensitive K(+) channels |
| Q59798063 | Dysfunction of Cerebrovascular Endothelial Cells: Prelude to Vascular Dementia |
| Q91019637 | Dysregulation of Glycogen Metabolism with Concomitant Spatial Memory Dysfunction in Type 2 Diabetes: Potential Beneficial Effects of Chronic Exercise |
| Q34160574 | Early and sustained alterations in cerebral metabolism after traumatic brain injury in immature rats |
| Q48732339 | Effect of transient blockade of N-methyl-D-aspartate receptors at neonatal stage on stress-induced lactate metabolism in the medial prefrontal cortex of adult rats: role of 5-HT1A receptor agonism |
| Q35578830 | Effects of L-glutamate/D-aspartate and monensin on lactic acid production in retina and cultured retinal Müller cells |
| Q37592691 | Effects of Systemic Metabolic Fuels on Glucose and Lactate Levels in the Brain Extracellular Compartment of the Mouse |
| Q44349011 | Effects of ammonia on high affinity glutamate uptake and glutamate transporter EAAT3 expression in cultured rat cerebellar granule cells |
| Q44499252 | Effects of glial toxins on extracellular acidification in the hippocampal CA1 region in vivo |
| Q38056433 | Effects of hypoglycaemia on neuronal metabolism in the adult brain: role of alternative substrates to glucose |
| Q43803460 | Effects of lactate on glucose-sensing neurons in the solitary tract nucleus |
| Q30662376 | Effects of sleep and wake on astrocytes: clues from molecular and ultrastructural studies |
| Q43825322 | Elucidation of the quantitative significance of pyruvate carboxylation in cultured cerebellar neurons and astrocytes |
| Q37133410 | Emerging role of glial cells in the control of body weight |
| Q48513362 | Empiricism and rationalism: two paths toward the same goal |
| Q35932745 | Endogenous Nutritive Support after Traumatic Brain Injury: Peripheral Lactate Production for Glucose Supply via Gluconeogenesis |
| Q35576702 | Energy Substrates for Neurons during Neural Activity: A Critical Review of the Astrocyte-Neuron Lactate Shuttle Hypothesis |
| Q43558976 | Energy fuel utilization by fetal versus young rabbit brain: a 13C MRS isotopomer analysis of [U-(13)C]glucose metabolites |
| Q44471736 | Energy metabolism in astrocytes and neurons treated with manganese: relation among cell-specific energy failure, glucose metabolism, and intercellular trafficking using multinuclear NMR-spectroscopic analysis |
| Q34991023 | Energy metabolism in the brain |
| Q34991061 | Energy utilization in the ischemic/reperfused brain |
| Q36720606 | Evidence for a Role of Proline and Hypothalamic Astrocytes in the Regulation of Glucose Metabolism in Rats |
| Q44539547 | Evidence for a lactate pool in the rat brain that is not used as an energy supply under normoglycemic conditions |
| Q48596312 | Evidence that neurovascular coupling underlying the BOLD effect increases with age during childhood |
| Q36907068 | Exenatide promotes cognitive enhancement and positive brain metabolic changes in PS1-KI mice but has no effects in 3xTg-AD animals. |
| Q45075594 | Exercise rapidly increases expression of the monocarboxylate transporters MCT1 and MCT4 in rat muscle |
| Q47869148 | Expression Changes in Lactate and Glucose Metabolism and Associated Transporters in Basal Ganglia following Hypoxic-Ischemic Reperfusion Injury in Piglets. |
| Q57798723 | Extracellular Vesicles Released by Glioblastoma Cells Stimulate Normal Astrocytes to Acquire a Tumor-Supportive Phenotype Via p53 and MYC Signaling Pathways |
| Q91284103 | FOXK1 and FOXK2 regulate aerobic glycolysis |
| Q40777234 | Factor(s) released by glucose-deprived astrocytes enhance glucose transporter expression and activity in rat brain endothelial cells |
| Q37071827 | Fatty acid-induced astrocyte ketone production and the control of food intake |
| Q30748063 | Feeding active neurons: (re)emergence of a nursing role for astrocytes |
| Q45050947 | Fluorometric determination of glucose utilization in neurons in vitro and in vivo |
| Q39163919 | Food for thought: Impact of metabolism on neuronal excitability. |
| Q28182087 | Food for thought: challenging the dogmas |
| Q48913131 | Functional t1ρ imaging in panic disorder |
| Q43614749 | Further studies on the effects of topical lactate on amino acid efflux from the ischemic rat cortex |
| Q36294286 | Glia-neuron interactions in nervous system function and development |
| Q64100324 | Glial Contribution to Excitatory and Inhibitory Synapse Loss in Neurodegeneration |
| Q47956964 | Glucose Induces Slow-Wave Sleep by Exciting the Sleep-Promoting Neurons in the Ventrolateral Preoptic Nucleus: A New Link between Sleep and Metabolism. |
| Q36888957 | Glucose and lactate metabolism in the awake and stimulated rat: a 13C-NMR study |
| Q46935651 | Glucose is necessary to maintain neurotransmitter homeostasis during synaptic activity in cultured glutamatergic neurons |
| Q34184563 | Glucose transporter 1 and monocarboxylate transporters 1, 2, and 4 localization within the glial cells of shark blood-brain-barriers. |
| Q34991048 | Glucose transporter protein syndromes |
| Q33569693 | Glucose-induced metabolic memory in Schwann cells: prevention by PPAR agonists |
| Q28215228 | Glutamine-, glutamine synthetase-, glutamate dehydrogenase- and pyruvate carboxylase-immunoreactivities in the rat dorsal root ganglion and peripheral nerve |
| Q40371829 | Glycolytic glioma cells with active glycogen synthase are sensitive to PTEN and inhibitors of PI3K and gluconeogenesis |
| Q91636663 | Glycolytic inhibitor 2-deoxyglucose prevents cortical hyperexcitability after traumatic brain injury |
| Q37184831 | HIV and Cocaine Impact Glial Metabolism: Energy Sensor AMP-activated protein kinase Role in Mitochondrial Biogenesis and Epigenetic Remodeling |
| Q57403119 | Hemodynamic and metabolic features of cerebral activation |
| Q35620598 | Hindbrain lactate regulates preoptic gonadotropin-releasing hormone (GnRH) neuron GnRH-I protein but not AMPK responses to hypoglycemia in the steroid-primed ovariectomized female rat. |
| Q90665497 | Hindbrain metabolic deficiency regulates ventromedial hypothalamic nucleus glycogen metabolism and glucose‑regulatory signaling |
| Q27300718 | Hippocampus-based contextual memory alters the morphological characteristics of astrocytes in the dentate gyrus |
| Q44971681 | Human skeletal muscle lactate dehydrogenase activity in the presence of some alcohol dehydrogenase inhibitors |
| Q93047061 | Hypothalamic Fatty Acids and Ketone Bodies Sensing and Role of FAT/CD36 in the Regulation of Food Intake |
| Q34511727 | Hypothalamic nitric oxide in hypoglycemia detection and counterregulation: a two-edged sword. |
| Q90073150 | Impact of the Monocarboxylate Transporter-1 (MCT1)-Mediated Cellular Import of Lactate on Stemness Properties of Human Pancreatic Adenocarcinoma Cells † |
| Q35006336 | Importance of astrocytic inactivation of synaptically released glutamate for cell survival in the central nervous system--are astrocytes vulnerable to low intracellular glutamate concentrations? |
| Q30499080 | In vivo 3D morphology of astrocyte-vasculature interactions in the somatosensory cortex: implications for neurovascular coupling |
| Q26852857 | Influence of VMH fuel sensing on hypoglycemic responses |
| Q47143245 | Inhibition of glycogen phosphorylase stimulates ventromedial hypothalamic nucleus AMP-activated protein kinase: Activity and neuronal nitric oxide synthase protein expression in male rats. |
| Q37291299 | Inhibition of hypothalamic MCT1 expression increases food intake and alters orexigenic and anorexigenic neuropeptide expression |
| Q44148367 | Insulin-induced hypoglycemia decreases single-unit activity of serotonergic medullary raphe neurons in freely moving cats: relationship to sympathetic and motor output |
| Q41547542 | Integration between Glycolysis and Glutamate-Glutamine Cycle Flux May Explain Preferential Glycolytic Increase during Brain Activation, Requiring Glutamate |
| Q45076784 | Interaction with antigen-specific T cells regulates expression of the lactate transporter MCT1 in primary rat astrocytes: specific link between immunity and homeostasis |
| Q28072889 | Investigating mitochondrial redox state using NADH and NADPH autofluorescence |
| Q42176808 | Involvement of cellular metabolism in age-related LTP modifications in rat hippocampal slices |
| Q49079212 | Ionic changes accompanying astrocytic intercellular calcium waves triggered by mechanical cell damaging stimulation |
| Q28083173 | Is L-lactate a novel signaling molecule in the brain? |
| Q34341847 | Is attention-deficit/hyperactivity disorder an energy deficiency syndrome? |
| Q34214374 | Is there an astrocyte-neuron ketone body shuttle? |
| Q33919042 | Ischemia as a possible effect of increased intra-abdominal pressure on central nervous system cytokines, lactate and perfusion pressures |
| Q48411071 | Kinetic parameters and lactate dehydrogenase isozyme activities support possible lactate utilization by neurons |
| Q46560564 | L-Lactate-Mediated Neuroprotection against Glutamate-Induced Excitotoxicity Requires ARALAR/AGC1. |
| Q36147046 | Lactate as a Biomarker for Sleep |
| Q89955789 | Lactate as a fulcrum of metabolism |
| Q35125579 | Lactate as a pivotal element in neuron-glia metabolic cooperation. |
| Q24647135 | Lactate doesn't necessarily cause fatigue: why are we surprised? |
| Q44112599 | Lactate in the brain of the freely moving rat: voltammetric monitoring of the changes related to the sleep-wake states |
| Q44644241 | Lactate is a preferential oxidative energy substrate over glucose for neurons in culture |
| Q24677962 | Lactate metabolism: a new paradigm for the third millennium |
| Q48265527 | Lactate metabolism: historical context, prior misinterpretations, and current understanding. |
| Q33931207 | Lactate storm marks cerebral metabolism following brain trauma |
| Q26851808 | Lactate transport and signaling in the brain: potential therapeutic targets and roles in body-brain interaction |
| Q37333455 | Lactate-Induced Release of GABA in the Ventromedial Hypothalamus Contributes to Counterregulatory Failure in Recurrent Hypoglycemia and Diabetes |
| Q41898292 | Lactate-mediated glia-neuronal signalling in the mammalian brain |
| Q35932802 | Lactate: brain fuel in human traumatic brain injury: a comparison with normal healthy control subjects. |
| Q46617709 | Lactate: link between glycolytic and oxidative metabolism |
| Q48440289 | Let-7f Regulates the Hypoxic Response in Cerebral Ischemia by Targeting NDRG3. |
| Q37893367 | Local network regulation of orexin neurons in the lateral hypothalamus |
| Q61452191 | Longitudinal association between astrocyte function and glucose metabolism in autosomal dominant Alzheimer's disease |
| Q34426297 | MR-spectroscopic imaging during visual stimulation in subgroups of migraine with aura |
| Q34327086 | Magnetic resonance spectroscopy in migraine: what have we learned so far? |
| Q48044662 | Maternal Exposure to Ethanol During Pregnancy and Lactation Affects Glutamatergic System and Induces Oxidative Stress in Offspring Hippocampus |
| Q64057124 | Measurement of lactate levels in postmortem brain, iPSCs, and animal models of schizophrenia |
| Q54985162 | Mechanisms of Endogenous Neuroprotective Effects of Astrocytes in Brain Injury. |
| Q93183851 | Membrane-anchored carbonic anhydrase IV interacts with monocarboxylate transporters via their chaperones CD147 and GP70 |
| Q26738365 | Metabolic Changes Following Perinatal Asphyxia: Role of Astrocytes and Their Interaction with Neurons |
| Q39251141 | Metabolic Vulnerability in the Neurodegenerative Disease Glaucoma |
| Q57166551 | Metabolomic Analysis Identifies Lactate as One Important Pathogenic Factor in Diabetes-associated Cognitive Decline Rats |
| Q36772984 | Metabolomic Analysis Reveals Increased Aerobic Glycolysis and Amino Acid Deficit in a Cellular Model of Amyotrophic Lateral Sclerosis. |
| Q33318462 | Mitochondrial lactate dehydrogenase is involved in oxidative-energy metabolism in human astrocytoma cells (CCF-STTG1). |
| Q36712743 | Mitochondrial transporters as novel targets for intracellular calcium signaling. |
| Q45141085 | Modeling cerebral arteriovenous lactate kinetics after intravenous lactate infusion in the rat. |
| Q46824310 | Monitoring of cerebral metabolism: non-ischemic impairment of oxidative metabolism following severe traumatic brain injury |
| Q37534686 | Monocarboxylate transporter 4 facilitates cell proliferation and migration and is associated with poor prognosis in oral squamous cell carcinoma patients |
| Q44436829 | Monocarboxylate transporters contribute to the adaptation of neuronal activity to repeated glucose deprivation in the rat lateral septal nucleus |
| Q92506650 | Monocarboxylate transporters in cancer |
| Q38163889 | Monocarboxylate transporters in temporal lobe epilepsy: roles of lactate and ketogenic diet |
| Q37187094 | Monocarboxylate transporters in the brain and in cancer. |
| Q43565203 | Mouse MCT3 gene is expressed preferentially in retinal pigment and choroid plexus epithelia |
| Q41849594 | Multi-Voxel 1H-MRS in Metachromatic Leukodystrophy |
| Q39734463 | Multifunctional role of astrocytes as gatekeepers of neuronal energy supply |
| Q43700750 | Multiple compartments with different metabolic characteristics are involved in biosynthesis of intracellular and released glutamine and citrate in astrocytes |
| Q35964067 | Multiscale Modeling Indicates That Temperature Dependent [Ca2+]i Spiking in Astrocytes Is Quantitatively Consistent with Modulated SERCA Activity |
| Q35103426 | NAD+ depletion or PAR polymer formation: which plays the role of executioner in ischaemic cell death? |
| Q35060957 | Neonatal brain metabolite concentrations: an in vivo magnetic resonance spectroscopy study with a clinical MR system at 3 Tesla |
| Q38940699 | Neural-metabolic coupling in the central visual pathway |
| Q36022927 | Neurobarrier coupling in the brain: a partner of neurovascular and neurometabolic coupling? |
| Q35677227 | Neuroenergetics: calling upon astrocytes to satisfy hungry neurons |
| Q35619717 | Neurometabolic coupling between neural activity, glucose, and lactate in activated visual cortex |
| Q33670796 | Neuron-glial interactions in blood-brain barrier formation. |
| Q52678175 | Neuron-specific deficits of bioenergetic processes in the dorsolateral prefrontal cortex in schizophrenia |
| Q48169378 | Neuronal Stimulation Triggers Neuronal Glycolysis and Not Lactate Uptake |
| Q33267049 | Neuroprotection and enhancement of neurite outgrowth with small molecular weight compounds from screens of chemical libraries |
| Q36343094 | Neurovascular coupling in the normal brain and in hypertension, stroke, and Alzheimer disease |
| Q91978652 | New Insights into the Lactate Shuttle: Role of MCT4 in the Modulation of the Exercise Capacity |
| Q34656483 | Nonenzymatic proton handling by carbonic anhydrase II during H+-lactate cotransport via monocarboxylate transporter 1. |
| Q45300316 | Nonlinear decrease over time in N-acetyl aspartate levels in the absence of neuronal loss and increases in glutamine and glucose in transgenic Huntington's disease mice. |
| Q44755335 | Nuclear factor E2-related factor 2-dependent antioxidant response element activation by tert-butylhydroquinone and sulforaphane occurring preferentially in astrocytes conditions neurons against oxidative insult. |
| Q46315704 | Nuclear factor E2-related factor-2 has a differential impact on MCT1 and MCT4 lactate carrier expression in colonic epithelial cells: a condition favoring metabolic symbiosis between colorectal cancer and stromal cells |
| Q34170620 | Nutrition and Alzheimer's disease: The detrimental role of a high carbohydrate diet |
| Q43825684 | Oligodendrocytes use lactate as a source of energy and as a precursor of lipids |
| Q34032818 | Oligodendroglia metabolically support axons and contribute to neurodegeneration. |
| Q38132499 | Oligodendroglia: metabolic supporters of axons |
| Q38864921 | Organized metabolic crime in prostate cancer: The coexpression of MCT1 in tumor and MCT4 in stroma is an independent prognosticator for biochemical failure |
| Q37958504 | Pathological alterations of astrocytes in stroke-prone spontaneously hypertensive rats under ischemic conditions |
| Q44579705 | Perinatal and early postnatal changes in the expression of monocarboxylate transporters MCT1 and MCT2 in the rat forebrain |
| Q36404854 | Principles of cerebral oxygenation and blood flow in the neurological critical care unit |
| Q46910010 | Prion protein regulates glutamate-dependent lactate transport of astrocytes. |
| Q92513980 | Prospects and challenges of imaging neuroinflammation beyond TSPO in Alzheimer's disease |
| Q37141458 | Prostaglandin transporter expression in mouse brain during development and in response to hypoxia |
| Q48966715 | Proton magnetic resonance spectroscopy ((1)H-MRS) in neonatal brain injury |
| Q39375963 | Pyruvate incubation enhances glycogen stores and sustains neuronal function during subsequent glucose deprivation |
| Q37807163 | Reactive astrocytes give neurons less support: implications for Alzheimer's disease |
| Q92477319 | Recurrent glucose deprivation leads to the preferential use of lactate by neurons in the ventromedial hypothalamus |
| Q36104663 | Reduction in SGLT1 mRNA Expression in the Ventromedial Hypothalamus Improves the Counterregulatory Responses to Hypoglycemia in Recurrently Hypoglycemic and Diabetic Rats |
| Q26864926 | Reevaluating Metabolism in Alzheimer's Disease from the Perspective of the Astrocyte-Neuron Lactate Shuttle Model |
| Q43698292 | Regional variation in brain capillary density and vascular response to ischemia |
| Q35541864 | Regulation and Modulation of pH in the Brain |
| Q42632174 | Regulation of oligodendrocyte development and myelination by glucose and lactate |
| Q44334640 | Relationship between opioid therapy, tissue-damaging procedures, and brain metabolites as measured by proton MRS in asphyxiated term neonates |
| Q44859091 | Relationship between skeletal muscle MCT1 and accumulated exercise during voluntary wheel running |
| Q38896993 | Respiration-Deficient Astrocytes Survive As Glycolytic Cells In Vivo. |
| Q43208931 | Retinal metabolic state of the proline-23-histidine rat model of retinitis pigmentosa |
| Q33728602 | Rodents and humans are able to detect the odour of L-Lactate. |
| Q48593215 | Role of 5-HT(1A) receptors in the modulation of stress-induced lactate metabolism in the medial prefrontal cortex and basolateral amygdala |
| Q91019634 | Role of Brain Glycogen During Ischemia, Aging and Cell-to-Cell Interactions |
| Q26772818 | Role of Glycogenolysis in Memory and Learning: Regulation by Noradrenaline, Serotonin and ATP |
| Q42252369 | Role of brain glycogen in the response to hypoxia and in susceptibility to epilepsy |
| Q80800708 | Role of glutamate transporters in the modulation of stress-induced lactate metabolism in the rat brain |
| Q37992508 | Role of monocarboxylate transporters in human cancers: state of the art. |
| Q45050950 | Selective uptake of [14C]2-deoxyglucose by neurons and astrocytes: high-resolution microautoradiographic imaging by cellular 14C-trajectography combined with immunohistochemistry |
| Q48467991 | Shedding new light on brain metabolism and glial function |
| Q48467272 | Sleep deprivation modulates brain mRNAs encoding genes of glycogen metabolism |
| Q38922312 | Solute Carriers in the Blood-Brain Barier: Safety in Abundance |
| Q45928065 | Structural remodeling of gray matter astrocytes in the neonatal pig brain after hypoxia/ischemia. |
| Q31807772 | Studies on the effects of lactate transport inhibition, pyruvate, glucose and glutamine on amino acid, lactate and glucose release from the ischemic rat cerebral cortex |
| Q37026037 | Subcellular biochemical investigation of purkinje neurons using synchrotron radiation fourier transform infrared spectroscopic imaging with a focal plane array detector |
| Q44295000 | Surface carbonic anhydrase activity on astrocytes and neurons facilitates lactate transport. |
| Q94461848 | Syntrophic splitting of central carbon metabolism in host cells bearing functionally different symbiotic bacteria |
| Q44538190 | T3 increases lactate transport and the expression of MCT4, but not MCT1, in rat skeletal muscle |
| Q34127055 | Tandospirone, a 5-HT1A partial agonist, ameliorates aberrant lactate production in the prefrontal cortex of rats exposed to blockade of N-methy-D-aspartate receptors; Toward the therapeutics of cognitive impairment of schizophrenia |
| Q89510879 | Targeting Glutamine Addiction in Gliomas |
| Q91019610 | Technical and Comparative Aspects of Brain Glycogen Metabolism |
| Q42510789 | Testicular regulation of neuronal glucose and monocarboxylate transporter gene expression profiles in CNS metabolic sensing sites during acute and recurrent insulin-induced hypoglycemia |
| Q47133760 | The Molecular and Phenotypic Basis of the Glioma Invasive Perivascular Niche |
| Q30248984 | The Role of Circulating Amino Acids in the Hypothalamic Regulation of Liver Glucose Metabolism |
| Q26766023 | The Role of Lactate-Mediated Metabolic Coupling between Astrocytes and Neurons in Long-Term Memory Formation |
| Q45152014 | The astrocyte-neuron lactate shuttle: a challenge of a challenge |
| Q28385023 | The cellular and compartmental profile of mouse retinal glycolysis, tricarboxylic acid cycle, oxidative phosphorylation, and ~P transferring kinases |
| Q34991028 | The cerebral glucose-fatty acid cycle: evolutionary roots, regulation, and (patho)physiological importance |
| Q42562723 | The diabetic brain during hypoglycemia: in the midst of plenty of lactate |
| Q28383752 | The energy hypothesis of sleep revisited |
| Q43287637 | The human brain utilizes lactate via the tricarboxylic acid cycle: a 13C-labelled microdialysis and high-resolution nuclear magnetic resonance study. |
| Q38577066 | The interplay between metabolic homeostasis and neurodegeneration: insights into the neurometabolic nature of amyotrophic lateral sclerosis. |
| Q91640172 | The involvement of astrocytes in early-life adversity induced programming of the brain |
| Q33972895 | The mitochondrial complex I inhibitor annonacin is toxic to mesencephalic dopaminergic neurons by impairment of energy metabolism. |
| Q38497181 | The neuroenergetics of stress hormones in the hippocampus and implications for memory |
| Q52146974 | The predictive value of lactate peak detected by the magnetic resonance spectroscopy in the brain of growth-restricted fetuses for adverse perinatal outcomes. |
| Q24531840 | The proton-linked monocarboxylate transporter (MCT) family: structure, function and regulation |
| Q46349473 | The role of mitochondrial dysfunction in the progression of Alzheimer's disease. |
| Q39160051 | Toxicity of Annonaceae for dopaminergic neurons: potential role in atypical parkinsonism in Guadeloupe. |
| Q35145047 | Transport Activity of the High-affinity Monocarboxylate Transporter MCT2 Is Enhanced by Extracellular Carbonic Anhydrase IV but Not by Intracellular Carbonic Anhydrase II |
| Q33641532 | Tumor metabolism of lactate: the influence and therapeutic potential for MCT and CD147 regulation |
| Q50284399 | Understanding the Role of Adenosine A2AR Heteroreceptor Complexes in Neurodegeneration and Neuroinflammation |
| Q38544440 | Unlocking the Energy Dynamics of Executive Functioning: Linking Executive Functioning to Brain Glycogen |
| Q53610957 | Vinpocetine modulates metabolic activity and function during retinal ischemia |
| Q46488193 | Vitamin D supplementation ameliorates hypoinsulinemia and hyperglycemia in static magnetic field-exposed rat. |
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