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CARBOHYDRATE AND AMINO ACID METABOLISM IN RAT CEREBRAL CORTEX IN MODERATE AND EXTREME HYPERCAPNIA (1975)

Folbergrová, J. ; Norberg, K. ; Quistorff, B. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 25 (1975), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: —The time course of changes in glycolytic and citric acid cycle intermediates and in amino acids was studied in acute and steady state hypercapnia. Experiments on unanaesthetized animals exposed to 10% CO2 for 10, 20 and 60s showed that there was a transient decrease in glycogen concentration, progressive increases in glucose-6-phosphate and fructose-6-phosphate and decreases in pyruvate and lactate. During this time the levels of amino acids and Krebs cycle intermediates did not change, except for a small fall in malate at 60s. The results indicate that there was a decrease in glycolytic flux due to an inhibition of the phosphofructokinase reaction. Since the tissue levels of phosphocreatine, ATP, ADP and AMP were unchanged inhibition of phosphofructokinase was probably due to the fall in pH.Anaesthetized animals were exposed to about 5% CO2 (for 2, 5, 15, 30 and 60 min) or to about 45% CO2 (for 5 and 15 min). Except for succinate, which increased, all citric acid cycle metabolites analysed (citrate, α-ketoglutarate, fumarate and malate) decreased with the rise in CO2-tension. The sum of the amino acids analysed (glutamate, glutamine, aspartate, asparagine, alanine and GABA) decreased at extreme hypercapnia. The results suggest that Krebs cycle intermediates and amino acids are partly used as substrates for energy production when there is reduced pyruvate availability due to hypercapnia.It is proposed that amino acid carbon is made available for oxidation via transamination (aspartate aminotransferase reaction) and deamination (glutamate dehydrogenase reaction) and that citric acid cycle intermediates are metabolized following a reversal of reactions usually leading to CO2 fixation.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1975.tb04350.x

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2

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Glucose consumption in the cerebral cortex of rat during bicuculline-induced status epilepticus (1976)

Borgström, L. ; Chapman, A. G. ; Siesjö, B. K.

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 27 (1976), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1976.tb05165.x

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3

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EFFECT OF HYPOTHERMIA UPON ORGANIC PHOSPHATES, GLYCOLYTIC METABOLITES, CITRIC ACID CYCLE INTERMEDIATES AND ASSOCIATED AMINO ACIDS IN RAT CEREBRAL CORTEX (1975)

Hägerdal, M. ; Harp, J. ; Siesjö, B. K.

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 24 (1975), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: —The influence of hypothermia upon the metabolism of the brain was studied by reducing body temperature in N2O-anaesthetized rats to 32, 27 or 22°C, with subsequent measurements of organic phosphates, glycolytic metabolites, citric acid cycle intermediates and associated amino acids. Hypothermia was maintained for either 1 or 2 h and the effect of anaesthesia was evaluated by maintaining unanaesthetized animals at 22°C. Hypothermia had no influence on the cerebral cortical concentrations of ATP, ADP or AMP and there was only a small increase in phosphocreatine. Since the tissue concentrations of glucose and glycogen were reduced, it is concluded that the well known resistance of the hypothermie brain to ischaemia is unrelated to increased energy stores.Hypothermia was accompanied by decreases in the tissue concentrations of fructose-1,6-diphosphate, dihydroxyacetone phosphate, 3-phosphoglycerate, pyruvate, lactate, α-ketoglutarate, succinate and malate, but not of glucose-6-phosphate or citrate. These results indicate that metabolic flux is retarded mainly at the phosphofructokinase and isocitrate dehydrogenase steps. The largest relative reduction was seen in α-ketoglutarate, which was possibly secondary to accumulation of ammonia. There was no change in GABA, but a decrease in glutamate and increases in aspartate and alanine. These, changes are compatible with shifts in the aspartate and alanine aminotransferase reactions, possibly induced by the fall in α-ketoglutarate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1975.tb03858.x

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4

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Energy flux and lactate production in rat cerebral cortex during the first 5-10 s of bicuculline-induced seizures (1978)

Folbergrova, J. ; Nilsson, B. ; Nordström, C.-H. ; [et al.]

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 31 (1978), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Neurochemical studies of induced seizures have provided much information on metabolic capacity in the brain. However, there is no general agreement on the magnitude of changes in cerebral metabolic rate. Presumably, differences in results depend both on the models of epilepsy used and on methodological factors.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1978.tb06582.x

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5

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RESTITUTION OF CEREBRAL ENERGY STATE, AS WELL AS OF GLYCOLYTIC METABOLITES, CITRIC ACID CYCLE INTERMEDIATES AND ASSOCIATED AMINO ACIDS AFTER 30 MINUTES OF COMPLETE ISCHEMIA IN RATS ANAESTHETIZED WITH NITROUS OXIDE OR PHENOBARBITAL (1978)

Nordström, C.-H. ; Rehncrona, S. ; Siesjö, B. K.

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 30 (1978), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Restitution of cerebral cortex concentrations of organic phosphates, glycolytic metabolites, citric acid cycle intermediates, associated amino acids, and ammonia, following a 30 min period of complete ischemia, was studied in rats anaesthetized with either 70% N2O or 150 mg·kg-1 of phenobar-bital.Following a 90 min period of recirculation the pattern of restitution was similar in the two groups. Thus, all animals showed recovery of phosphocreatine concentrations, restitution of the adenylate energy charge to about 99% of control, and disappearance of lactate accumulated during the ischemia. Analyses of glycolytic metabolites indicated inhibition of glycolysis at the phosphofructokinase step, possibly caused by accumulation of citrate. Measured citric acid cycle intermediates indicated extensive normalization of mitochondrial metabolism. Changes in amino acid concentrations consisted of a fall in glutamate concentration, a rise in aspartate/glutamate ratio, a fall in GABA concentration, and a rise in alanine concentration. However, ammonia concentration was close to normal, and the size of the amino acid pool did not change.It is concluded that although the results do not exclude damage to a small part of the neuronal population, they demonstrate that, irrespective of the type of anaesthesia used, the majority of brain cells must have survived 30 min of complete ischemia without signs of irreversible metabolic damage.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1978.tb06553.x

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6

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THE EFFECT OF HYPERTHERMIA UPON OXYGEN CONSUMPTION AND UPON ORGANIC PHOSPHATES, GLYCOLYTIC METABOLITES, CITRIC ACID CYCLE INTERMEDIATES AND ASSOCIATED AMINO ACIDS IN RAT CEREBRAL CORTEX (1976)

Carlsson, C. ; Hägerdal, M. ; Siesjö, B. K.

Oxford, UK : Blackwell Publishing Ltd

Journal of neurochemistry 26 (1976), S. 0

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ISSN: 1471-4159

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: The influence of hyperthermia on cerebral blood flow, cerebral metabolic rate for oxygen and cerebral metabolite levels was studied by increasing body temperature from 37° to 40°C and 42°C in rats under nitrous oxide anaesthesia maintained at constant arterial CO2 tension. The metabolic rate for oxygen increased by 5-6% per degree centigrade. At 42°C the increase in cerebral blood Row was comparable to that in the metabolic rate. The increased temperatures were not accompanied by changes in organic phosphates (phosphocreatine, ATP, ADP or AMP) or in lactate/pyruvate ratio. There was an increase in the tissue to blood glucose concentration ratio. At steady state, there was an increase in glucose-6-phosphate but no other changes in glycolytic metabolites or citric acid cycle intermediates, and the only change in amino acids studied (glutamate, glutamine, aspartate, alanine and GABA) was an increase in glutamate concentration.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1471-4159.1976.tb06484.x

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7

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The influence of hypothermia on hypoglycemia-induced brain damage in the rat (1992)

Agardh, C. -D. ; Smith, M. -L. ; Siesjö, B. K.

Springer

Acta neuropathologica 83 (1992), S. 379-385

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ISSN: 1432-0533

Keywords: Hypoglycemia ; Hypothermia ; Neuronal damage ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The effects of hypothermia on hypoglycemic brain damage were studied in rats after a 30-min period of hypoglycemic coma, defined as cessation of spontaneous EEG activity. The rats were either normothermic (37°C) or moderately hypothermic (33°C). Morphological brain damage was evaluated after various periods of recovery. Hypothermic animals with halothane anesthesia never resumed spontaneous respiration, thus requiring artificial ventilation during recovery (maximally 8h). In contrast, when isoflurane was used as the anesthetic agent, all animals survived and were examined after 1 week of recovery. There was a tendency towards gradually higher arterial plasma glucose levels during hypoglycemia with lower body temperature. The time period from insulin injection until isoelectric EEG appeared was gradually prolonged by hypothermia, and was shorter when isoflurane was used for anesthesia. Brain damage was examined within the neocortex, caudoputamen and hippocampus (CA1, subiculum and the tip of the dentate gyrus). Damage to neurons was found to be of two types, namely condensed dark purple neurons (pre-acidophilic) and shrunken bright red-staining neurons (acidophilic). In the neocortex, no clear influence of temperature on the degree of injury was seen. In the caudoputamen, the number of injured neurons clearly decreased at lower temperature (33°C,P〈0.001) when halothane was used, while no such difference was seen when isoflurane was used as the anesthetic agent. Likewise, a protective effect of hypothermia was seen in subiculum (P〈0.01) when halothane, but not isoflurane was used. Damage to CA1 neurons was mild in both groups with halothane, but slightly less frequent (P〈 0.05) in the hypothermic group, in which the majority of animals showed no damage. No protection of hypothermia was seen in the animals with isoflurane anesthesia. Furthermore, with isoflurane, more damaged CA1 cells were seen in the normothermic situation as compared to when halothane was used (P〈0.01). In contrast, damage to the tip of the dentate gyrus was remarkedely resistant to hypothermia, with the majority of animals showing the same degree of damage as the normothermic ones irrespective of the anesthetic agent used. In summary, hypothermia seemed to have only a partial protective effect on the development of hypoglycemic brain damage, the effects differing between regions previously described to be selectively vulnerable to hypoglycemia, and also differing when halothane or isoflurane were used as anesthetic agents. While long-term survival was achieved with the use of isoflurane, the protective effect of hypothermia seemed to be lost.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00713529

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8

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Ischemic penumbra in a model of reversible middle cerebral artery occlusion in the rat (1992)

Memezawa, H. ; Minamisawa, H. ; Smith, M. -L. ; [et al.]

Springer

Experimental brain research 89 (1992), S. 67-78

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ISSN: 1432-1106

Keywords: Cerebral ischemia ; Experimental stroke ; Recirculation ; Cerebral blood flow ; Brain damage ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary It has become increasingly clear that a stroke lesion usually consists of a densely ischemic focus and of perifocal areas with better upheld flow rates. At least in rats and cats, some of these perifocal (“penumbral”) areas subsequently become recruited in the infarction process. The mechanisms may involve an aberrant cellular calcium metabolism and enhanced production of free radicals. In general, though, the metabolic perturbation in the penumbra requires better characterization. The objective of this article was to define flow distribution in a rat model of reversible middle cerebral artery (MCA) occlusion, so as to allow delineation of the metabolic aberrations responsible for the subsequent infarction. We modified the intraluminal filament occlusion model recently developed by Koizumi et al. (1986), and described in more detail by Nagasawa and Kogure (1989), adopting it for use in both spontaneously breathing and artificially ventilated rats. Successful occlusion of the MCA (achieved in about 9/10 rats) was judged by unilateral EEG depression in ventilated rats, and neurological deficits, such as circling, in spontaneously breathing ones. CBF in the ipsilateral hemisphere was reduced to nearly constant values after 20, 60, and 120 min of occlusion, flow rates in the focus being about 10% and in the perifocal ipsilateral areas about 15–20% of control (contralateral side). When the filament was left in place (permanent occlusion) 2,3,5-triphenyl tetrazolium chloride (TTC) staining and histopathology after 24 h showed a massive infarct on the occluded side, extending from caudoputamen and overlaying cortex to the occipital striate cortex. Animals recirculated after 60 min of MCA occlusion, and allowed to survive 7 days for histopathology, showed infarction of the caudoputamen (lateral part or whole nucleus) in 5/6 animals and selective neuronal necrosis in one animal. The neocortex showed either infarcts, selective neuronal necrosis, or no damage. There was some overlap between neocortical areas which were infarcted and those which were salvaged by reperfusion. In general, though, both the CBF data and the recovery studies with a histopathological endpoint define large parts of the neocortex as perifocal (penumbral) areas which lend themselves to studies of metabolic events leading to infarction.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00229002

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9

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Influence of acid-base changes on the intracellular calcium concentration of neurons in primary culture (1994)

OuYang, Y. B. ; Mellergård, P. ; Kristián, T. ; [et al.]

Springer

Experimental brain research 101 (1994), S. 265-271

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ISSN: 1432-1106

Keywords: Calcium ions ; Neurons ; Acid-base changes ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The influence of changes in intra- and extracellular pH (pHi and pHe, respectively) on the cytosolic, free calcium concentration ([Ca2+]i) of neocortical neurons was studied by microspectrofluorometric techniques and the fluorophore fura-2. When, at constant pHe, pHi was lowered with the NH4Cl prepulse technique, or by a transient increase in CO2 tension, [Ca2+]i invariably increased, the magnitude of the rise being proportional to ΔpHi. Since similar results were obtained in Ca2+-free solutions, the results suggest that the rise in [Ca2+]i was due to calcium release from intracellular stores. The initial alkaline transient during NH4Cl exposure was associated with a rise in [Ca2+]i. However, this rise seemed to reflect influx of Ca2+ from the external solution. Thus, in Ca2+-free solution NH4Cl exposure led to a decrease in [Ca2+]i. This result and others suggest that, at constant pHe, intracellular alkalosis reduces [Ca2+]i, probably by enhancing sequestration of calcium. When cells were exposed to a CO2 transient at reduced pHe, Ca2+ rose initially but then fell, often below basal values. Similar results were obtained when extracellular HCO 3 - concentration was reduced at constant CO2 tension. Unexpectedly, such results were obtained only in Ca2+-containing solutions. In Ca2+-free solutions, acidosis always raised [Ca2+]i. It is suggested that a lowering of pHe stimulates extrusion of Ca2+ by ATP-driven Ca2+/2H+ antiport.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00228746

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Influence of moderate hypothermia on ischemic brain damage incurred under hyperglycemic conditions (1991)

Lundgren, J. ; Smith, M.-L. ; Siesjö, B. K.

Springer

Experimental brain research 84 (1991), S. 91-101

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ISSN: 1432-1106

Keywords: Ischemia ; Hyperglycemia ; Hypothermia ; Seizures ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Preischemic hyperglycemia aggravates brain damage following transient ischemia, and adds some special features to the damage incurred, notably a high frequency of postischemic seizures, cellular edema, and affectation of additional brain structures, such as the substanta nigra pars reticulata (SNPR). We raised the question whether mild intra-ischemic hypothermia (32–33° C), known to reduce selective neuronal vulnerability in normoglycemic subjects, also ameliorates the characteristic damage observed in hyperglycemic animals. To that end, two series of experiments were performed. In the first, normo- and hypothermic animals were subjected to 10 min of ischemia during hyperglycemic conditions (plasma glucose 20–25 mmol · 1-1), and allowed either 15 h or 1 week of recovery. In the second, both normo- and hyperglycemic animals were subjected to 15 min of ischemia (at normal or reduced temperature) and surviving animals were studied after 1 week of recovery. All normothermic, hyperglycemic animals developed postischemic seizures and died within the first 24 h. Mild hypothermia afforded substantial protection. Thus, 6/7 hypothermic animals subjected to 10 min of ischemia survived 1 week of recovery and none developed postischemic seizures. Of the hypothermic animals subjected to 15 min of ischemia 6/11 survived for 1 week, only one of which developed seizures. Protection by hypothermia was also shown by the histopathological analysis. Experiments with 10 min of ischemia and 15 h of recovery showed the expected damage in normothermic, hyperglycemic subjects. Hypothermia markedly reduced damage in all vulnerable structures, including the cingulate cortex and SNPR. The protection was most pronounced in the caudoputamen, where no affected neurons were seen in the hypothermic subjects. The experiments with 15 min of ischemia confirmed previous findings that mild hypothermia protects normoglycemic animals against the insult. The results also showed that hypothermia prevented most of the exaggeration of damage caused by hyperglycemia. However, under hypothermic conditions hyperglycemia still augmented damage in the cingulate cortex, medial and lateral venteroposterior thalamic nuclei, and SNPR, structures specifically damaged under hyperglycemic, normothermic conditions. This suggests that hypothermia has less of a protective effect on mechanisms causing such damage than on neuronal damage in the classic selectively vulnerable regions, particularly the caudoputamen.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231764

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