Cerebral energy metabolism, glucose transport and blood flow: changes with maturation and adaptation to hypoglycaemia.

Brain maturation is characterized by a peak of cerebral energy metabolism and blood flow occurring between 3 and 8 years of age in humans and around 14-17 days of postnatal life in rats. This high activity coincides with the period of active brain growth. The human brain is dependent on glucose alone during that period, whereas rat brain uses both glucose and ketone bodies to cover its energetic and biosynthetic needs. The maturation of the density of glucose transporter sites-GLUT1 located at the blood-brain barrier and GLUT3 at the neuronal membrane-parallels the development of cerebral glucose utilization. During moderate acute hypoglycaemia, there are no changes in cerebral functional activity; cerebral glucose utilization decreases and blood flow increases only when hypoglycaemia is severe (lower than 2 mumol/ml). During chronic hypoglycaemia, the brain adapts to the low circulating levels of glucose: the number of glucose transporter sites is increased, and cerebral glucose utilization and function are maintained at normal levels while cerebral blood flow is more moderately increased than during acute hypoglycaemia. Neuronal damage consecutive to severe and prolonged hypoglycaemia occurs mainly in the cerebral cortex, hippocampus and caudate-putamen as a result of active release of excitatory amino acids.

[1]  W. Pardridge,et al.  Glucose Deprivation Causes Posttranscriptional Enhancement of Brain Capillary Endothelial Glucose Transporter Gene Expression via GLUT1 mRNA Stabilization , 1993, Journal of neurochemistry.

[2]  R. Ratcheson,et al.  Regionally Selective Metabolic Effects of Hypoglycemia in Brain , 1981, Journal of neurochemistry.

[3]  L. Sokoloff,et al.  Relationships among local functional activity, energy metabolism, and blood flow in the central nervous system. , 1981, Federation proceedings.

[4]  A. Gjedde,et al.  Induction processes in blood-brain transfer of ketone bodies during starvation. , 1975, The American journal of physiology.

[5]  A. Gjedde,et al.  Rapid steady-state analysis of blood-brain glucose transfer in rat. , 1980, Acta physiologica Scandinavica.

[6]  B. Siesjö,et al.  Brain Calcium Metabolism in Hypoglycemic Coma , 1993, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[7]  W. Oldendorf,et al.  Changes during development in transport processes of the blood-brain barrier. , 1976, Biochimica et biophysica acta.

[8]  Y. Olsson,et al.  Hypoglycemic Brain Injury in the Rat: Correlation of Density of Brain Damage with the EEG Isoelectric Time: A Quantitative Study , 1984, Diabetes.

[9]  H. Krebs,et al.  Ketone-body utilization by adult and suckling rat brain in vivo. , 1971, The Biochemical journal.

[10]  M. Ingvar,et al.  Regional Differences in Vascular Autoregulation in the Rat Brain in Severe Insulin-Induced Hypoglycemia , 1983, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[11]  H Lund-Andersen,et al.  Transport of glucose from blood to brain. , 1979, Physiological reviews.

[12]  A. Gjedde,et al.  Glucose metabolism of fetal rat brain in utero, measured with labeled deoxyglucose , 1991, Acta neurologica Scandinavica.

[13]  W. Pardridge,et al.  Brain-type glucose transporter (GLUT-1) is selectively localized to the blood-brain barrier. Studies with quantitative western blotting and in situ hybridization. , 1990, The Journal of biological chemistry.

[14]  P. Brunetti,et al.  Comparison of Glucose Counterregulation During Short-Term and Prolonged Hypoglycemia in Normal Humans , 1986, Diabetes.

[15]  U. Buettner,et al.  Recovery of hypoglycaemia-associated compromised cerebral function after a short interval of euglycaemia in insulin-dependent diabetic patients. , 1994, Electroencephalography and clinical neurophysiology.

[16]  C Crone,et al.  Facilitated transfer of glucose from blood into brain tissue. , 1965, The Journal of physiology.

[17]  H. Krebs,et al.  The role of ketone bodies in caloric homeostasis , 1971 .

[18]  R. C. Collins,et al.  Cerebral Glucose Utilization: Comparison of [14C]Deoxyglucose and [6‐14C]Glucose Quantitative Autoradiography , 1987, Journal of neurochemistry.

[19]  P. Cryer,et al.  Attenuated Glucose Recovery from Hypoglycemia in the Elderly , 1992, Diabetes.

[20]  K. Norberg,et al.  OXIDATIVE METABOLISM OF THE CEREBRAL CORTEX OF THE RAT IN SEVERE INSULIN‐INDUCED HYPOGLYCAEMIA , 1976, Journal of neurochemistry.

[21]  R. Ratcheson,et al.  CEREBRAL ENERGY STATE IN INSULIN‐INDUCED HYPOGLYCEMIA, RELATED TO BLOOD GLUCOSE AND TO EEG , 1974, Journal of neurochemistry.

[22]  B. Siesjö,et al.  CHANGES IN CARBOHYDRATE SUBSTRATES, AMINO ACIDS AND AMMONIA IN THE BRAIN DURING INSULIN‐INDUCED HYPOGLYCEMIA , 1974, Journal of neurochemistry.

[23]  D. Pelligrino,et al.  Cerebral blood flow during chronic hypoglycemia in the rat , 1988, Brain Research.

[24]  P. Huttenlocher Synaptic density in human frontal cortex - developmental changes and effects of aging. , 1979, Brain research.

[25]  T. Wieloch Hypoglycemia-induced neuronal damage prevented by an N-methyl-D-aspartate antagonist. , 1985, Science.

[26]  M. Zilbovicius,et al.  Changes in regional cerebral blood flow during brain maturation in children and adolescents. , 1992, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[27]  W. Pardridge Brain metabolism: a perspective from the blood-brain barrier. , 1983, Physiological reviews.

[28]  B. Frier Cognitive function during hypoglycemia in type I diabetes mellitus. , 1986, British medical journal.

[29]  M. Phelps,et al.  Developmental changes in brain metabolism in sedated rhesus macaques and vervet monkeys revealed by positron emission tomography. , 1995, Cerebral cortex.

[30]  E. Hoffman,et al.  TOMOGRAPHIC MEASUREMENT OF LOCAL CEREBRAL GLUCOSE METABOLIC RATE IN HUMANS WITH (F‐18)2‐FLUORO-2‐DEOXY-D‐GLUCOSE: VALIDATION OF METHOD , 1980, Annals of neurology.

[31]  A. Gjedde,et al.  Blood–Brain Transfer of Glucose and Glucose Analogs in Newborn Rats , 1986, Journal of neurochemistry.

[32]  R. Vannucci,et al.  Cerebral Blood Flow and Metabolism During Hypoglycemia in Newborn Dogs , 1980, Journal of neurochemistry.

[33]  V J Cunningham,et al.  KINETICS OF BLOOD‐BRAIN BARRIER TRANSPORT OF PYRUVATE, LACTATE AND GLUCOSE IN SUCKLING, WEANLING AND ADULT RATS , 1979, Journal of neurochemistry.

[34]  J. Mazziotta,et al.  Positron emission tomography study of human brain functional development , 1987, Annals of neurology.

[35]  T. H. Newton,et al.  MRI of normal brain maturation. , 1986, AJNR. American journal of neuroradiology.

[36]  S. Kety,et al.  Cerebral blood flow and metabolism in schizophrenia; the effects of barbiturate semi-narcosis, insulin coma and electroshock. , 1948, The American journal of psychiatry.

[37]  U. Ungerstedt,et al.  The NMDA-antagonist MK-801 reduces extracellular amino acid levels during hypoglycemia and prevents striatal damage , 1988 .

[38]  S. Amiel,et al.  Ketone infusion lowers hormonal responses to hypoglycaemia: evidence for acute cerebral utilization of a non-glucose fuel. , 1991, Clinical science.

[39]  L. Segil,et al.  Brain glucose utilization and transport and cortical function in chronic vs. acute hypoglycemia. , 1990, The American journal of physiology.

[40]  T. Hoshino,et al.  Gene expression of GLUT3 glucose transporter regulated by glucose in vivo in mouse brain and in vitro in neuronal cell cultures from rat embryos. , 1994, The Biochemical journal.

[41]  Measurement of local cerebral blood flow and metabolism in man with positron emission tomography. , 1981 .

[42]  R. Bryan,et al.  Beta-receptor-mediated increase in cerebral blood flow during hypoglycemia. , 1987, The American journal of physiology.

[43]  C. Kennedy,et al.  Local cerebral glucose utilization in the newborn macaque monkey , 1982, Annals of neurology.

[44]  Y. Olsson,et al.  Effects of severe hypoglycemia on the human brain neuropathological case reports , 1980, Acta neurologica Scandinavica.

[45]  D. Purves,et al.  Elimination of synapses in the developing nervous system. , 1980, Science.

[46]  A. Maiolo,et al.  CEREBRAL BLOOD FLOW AND METABOLISM IN THERAPEUTIC INSULIN COMA. , 1964, Metabolism: clinical and experimental.

[47]  J. Ferrendelli,et al.  Brain metabolism during hypoglycemia. Effect of insulin on regional central nervous system glucose and energy reserves in mice. , 1973, Archives of neurology.

[48]  B. Wadzinski,et al.  Developmental regulation of the distribution of rat brain insulin-insensitive (Glut 1) glucose transporter. , 1991, Endocrinology.

[49]  Measurement of local cerebral blood flow and metabolism in man with positron emission tomography. , 1981, Federation proceedings.

[50]  M E Raichle,et al.  Correlation Between Regional Cerebral Blood Flow and Oxidative Metabolism: In Vivo Studies in Man , 1976 .

[51]  M. Sugden,et al.  Beta-hydroxybutyrate transport in rat brain: developmental and dietary modulations. , 1976, The American journal of physiology.

[52]  M. Reivich,et al.  THE [14C]DEOXYGLUCOSE METHOD FOR THE MEASUREMENT OF LOCAL CEREBRAL GLUCOSE UTILIZATION: THEORY, PROCEDURE, AND NORMAL VALUES IN THE CONSCIOUS AND ANESTHETIZED ALBINO RAT 1 , 1977, Journal of neurochemistry.

[53]  B. Meldrum,et al.  The nature and time course of the neuronal alterations resulting from oligaemia and hypoglycaemia in the brain of Macaca mulatta. , 1971, Brain research.

[54]  S. Vannucci,et al.  Substrates of Energy Metabolism of the Pituitary and Pineal Glands , 1983, Journal of neurochemistry.

[55]  L. Sokoloff,et al.  Local cerebral glucose utilization in the normal conscious macaque monkey , 1978, Annals of neurology.

[56]  R. Auer,et al.  Regional Neuroprotective Effects of the NMDA Receptor Antagonist MK-801 (Dizocilpine) in Hypoglycemic Brain Damage , 1990, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[57]  S. Rapoport,et al.  Glucose transport and metabolism in the brain. , 1986, The American journal of physiology.

[58]  Wei-Hua Lee,et al.  Ontogeny and cellular distribution of brain glucose transporter gene expression , 1992, Molecular and Cellular Neuroscience.

[59]  P. M. Daniel,et al.  The effect of age upon the influx of glucose into the brain. , 1978, The Journal of physiology.

[60]  B. Meldrum,et al.  EXCITOTOXIC MECHANISMS IN HYPOGLYCAEMIC HIPPOCAMPAL INJURY , 1986, Neuropathology and applied neurobiology.

[61]  P. Yakovlev,et al.  The myelogenetic cycles of regional maturation of the brain , 1967 .

[62]  A. McCall,et al.  Chronic hypoglycemia increases brain glucose transport. , 1986, The American journal of physiology.

[63]  G I Bell,et al.  Structure and function of mammalian facilitative sugar transporters. , 1993, The Journal of biological chemistry.

[64]  M. Phelps,et al.  Maturational changes in cerebral function in infants determined by 18FDG positron emission tomography. , 1986, Science.

[65]  J. Biebuyck,et al.  Ketone bodies are selectively used by individual brain regions. , 1979, Science.

[66]  A. Nehlig,et al.  Glucose and ketone body utilization by the brain of neonatal rats , 1993, Progress in Neurobiology.

[67]  E. Kraegen,et al.  In vivo location of the rate-limiting step of hexose uptake in muscle and brain tissue of rats. , 1991, The American journal of physiology.

[68]  L. Sokoloff,et al.  An adaptation of the nitrous oxide method to the study of the cerebral circulation in children; normal values for cerebral blood flow and cerebral metabolic rate in childhood. , 1957, The Journal of clinical investigation.

[69]  A. Nehlig Respective roles of glucose and ketone bodies as substrates for cerebral energy metabolism in the suckling rat. , 1996, Developmental neuroscience.

[70]  S. Gravina,et al.  The glucose transporter of the human brain and blood‐brain barrier , 1988, Annals of neurology.

[71]  R. Auer,et al.  Neuropathologic findings in three cases of profound hypoglycemia. , 1989, Clinical neuropathology.

[72]  M. Cooper,et al.  Change in Hexose Distribution Volume and Fractional Utilization of [18F]-2-Deoxy-2-Fluoro-D-Glucose in Brain During Acute Hypoglycemia in Humans , 1990, Diabetes.

[73]  B. Siesjö,et al.  Local cerebral glucose consumption during insulin-induced hypoglycemia, and in the recovery period following glucose administration. , 1980, Acta physiologica Scandinavica.

[74]  S. Butcher,et al.  Extracellular Overflow of Neuroactive Amino Acids During Severe Insulin‐Induced Hypoglycemia: In Vivo Dialysis of the Rat Hippocampus , 1986, Journal of neurochemistry.

[75]  M. Phelps,et al.  Metabolic Maturation of the Brain: A Study of Local Cerebral Glucose Utilization in the Developing Cat , 1991, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[76]  A. Hamberger,et al.  Cellular Origins of Endogenous Amino Acids Released into the Extracellular Fluid of the Rat Striatum During Severe Insulin‐Induced Hypoglycemia , 1987, Journal of neurochemistry.

[77]  A. Nehlig,et al.  Autoradiographic measurement of local cerebral β-hydroxybutyrate uptake in the rat during postnatal development , 1991, Neuroscience.

[78]  G. Bell,et al.  Mammalian facilitative glucose transporter family: structure and molecular regulation. , 1992, Annual review of physiology.

[79]  L. Sokoloff,et al.  The Lumped Constant of the Deoxyglucose Method in Hypoglycemia: Effects of Moderate Hypoglycemia on Local Cerebral Glucose Utilization in the Rat , 1990, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[80]  D. Choi,et al.  Glucose deprivation neuronal injury in cortical culture , 1989, Brain Research.

[81]  Regional differences in brain glucose content in graded hypoglycemia. , 1986, Neurochemical pathology.

[82]  H. Kraus,et al.  Developmental Changes of Cerebral Ketone Body Utilization in Human Infants , 1974, Hoppe-Seyler's Zeitschrift fur physiologische Chemie.

[83]  C. Agardh,et al.  Endogenous Substrates Utilized by Rat Brain in Severe Insulin‐Induced Hypoglycemia , 1981, Journal of neurochemistry.

[84]  E. Hoffman,et al.  Tomographic measurement of local cerebral glucose metabolic rate in humans with (F‐18)2‐fluoro‐2‐deoxy‐D‐glucose: Validation of method , 1979, Annals of neurology.

[85]  J. E. Cremer Journal of Cerebral Blood Flow and Metabolism Substrate Utilization and Brain Development , 2022 .

[86]  R. Busto,et al.  Effect of insulin hypoglycemia upon cerebral energy metabolism and EEG activity in the rat , 1977, Brain Research.

[87]  K. Keefer,et al.  Regional Cerebral Glucose Utilization During Insulin‐Induced Hypoglycemia in Unanesthetized Rats , 1986, Journal of neurochemistry.

[88]  J. Fawcett,et al.  Regressive events in neurogenesis. , 1984, Science.

[89]  R. Gardiner The effects of hypoglycaemia on cerebral blood flow and metabolism in the new‐born calf. , 1980, The Journal of physiology.

[90]  R. Bryan,et al.  Regional Cerebral and Neural Lobe Blood Flow during Insulin-Induced Hypoglycemia in Unanesthetized Rats , 1987, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[91]  C. Agardh,et al.  Local cerebral blood flow in the rat during severe hypoglycemia, and in the recovery period following glucose injection. , 1980, Acta physiologica Scandinavica.

[92]  P. Prior,et al.  Effect of Antecedent Glucose Control on Cerebral Function During Hypoglycemia , 1991, Diabetes Care.

[93]  M. Permutt,et al.  Glucose transporter gene expression in rat brain: Pretranslational changes associated with chronic insulin-induced hypoglycemia, fasting, and diabetes , 1991, Molecular and Cellular Neuroscience.

[94]  A. Nehlig,et al.  Quantitative autoradiographic measurement of local cerebral glucose utilization in freely moving rats during postnatal development , 1988, The Journal of neuroscience : the official journal of the Society for Neuroscience.

[95]  R. Auer Progress review: hypoglycemic brain damage. , 1986, Stroke.

[96]  F. Plum,et al.  Cerebral Oxidative Metabolism and Blood Flow During Acute Hypoglycemia and Recovery in Unanesthetized Rats , 1982, Journal of neurochemistry.

[97]  A. Maran,et al.  Protection by lactate of cerebral function during hypoglycaemia , 1994, The Lancet.

[98]  A. Nehlig,et al.  Postnatal Changes in Local Cerebral Blood Flow Measured by the Quantitative Autoradiographic [14C]Iodoantipyrine Technique in Freely Moving Rats , 1989, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[99]  S. Vannucci,et al.  Glucose Transporter Isoforms in Brain: Absence of GLUT3 from the Blood—Brain Barrier , 1993, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[100]  C. Patlak,et al.  Local cerebral glucose utilization in fetal and neonatal sheep. , 1981, The American journal of physiology.

[101]  J. A. Schiro,et al.  Lactate Reverses Insulin-Induced Hypoglycemic Stupor in Suckling—Weanling Mice: Biochemical Correlates in Blood, Liver, and Brain , 1983, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[102]  B. Siesjö,et al.  Brain energy metabolism , 1978 .

[103]  Y. Olsson,et al.  Hypoglycemic Brain Injury: Metabolic and Structural Findings in Rat Cerebellar Cortex during Profound Insulin-Induced Hypoglycemia and in the Recovery Period following Glucose Administration , 1981, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[104]  Albert Gjedde,et al.  Autoradiographic Determination of Regional Brain Glucose Content , 1983, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[105]  S. Vannucci Developmental Expression of GLUT1 and GLUT3 Glucose Transporters in Rat Brain , 1994, Journal of neurochemistry.

[106]  A Piepsz,et al.  Functional imaging of brain maturation in humans using iodine-123 iodoamphetamine and SPECT. , 1989, Journal of nuclear medicine : official publication, Society of Nuclear Medicine.

[107]  C. Agardh,et al.  Neurophysiological Recovery after Hypoglycemic Coma in the Rat: Correlation with Cerebral Metabolism , 1983, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[108]  J. Passonneau Cerebral metabolism and neural function , 1980 .

[109]  F. Jöbsis,et al.  Insufficient Supply of Reducing Equivalents to the Respiratory Chain in Cerebral Cortex during Severe Insulin-Induced Hypoglycemia in Cats , 1986, Journal of cerebral blood flow and metabolism : official journal of the International Society of Cerebral Blood Flow and Metabolism.

[110]  Daniel Pm,et al.  The effect of age upon the influx of glucose into the brain. , 1978 .

[111]  P. M. Daniel,et al.  The transport of ketone bodies into the brain of the rat (in vivo) , 1977, Journal of the Neurological Sciences.

[112]  D. James,et al.  Cellular localization and characterization of Glut 3 glucose transporter isoform in human brain. , 1992, Endocrinology.

[113]  D. Devivo,et al.  d‐β‐HYDROXYBUTYRATE: A MAJOR PRECURSOR OF AMINO ACIDS IN DEVELOPING RAT BRAIN , 1975, Journal of neurochemistry.

[114]  Measuring brain glucose phosphorylation with labeled glucose. , 1988, The American journal of physiology.