Journal ArticleDOI
Changes in metabolites of the energy reserves in individual layers of mouse cerebral cortex and subjacent white matter during ischaemia and anaesthesia.
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In this article, the distribution of glucose, glycogen, ATP, P-creatine and inorganic phosphate was measured in layers I, III, IV, V and VI of cerebral cortex and subjacent white matter of mouse brain.Abstract:
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The distribution of glucose, glycogen, ATP, P-creatine and inorganic phosphate was measured in layers I, III, IV, V and VI of cerebral cortex and subjacent white matter of mouse brain. ATP, P-creatine and inorganic phosphate were evenly distributed in all regions examined, whereas levels of glucose and glycogen were higher in white matter than the average for the other layers. Anaesthesia increased levels of glucose and P-creatine in layers I and V and subjacent white matter (other layers were not examined). Anaesthesia doubled the level of glycogen in molecular layer I with lesser increases in layers III, IV, V and VI, but with no change in white matter from the unanaesthetized control value.
The metabolic rates in the individual layers were estimated from the rates of expenditure of energy reserves during total ischaemia. In non-anaesthetized mice, white matter had a higher metabolic rate than either layer I or V. Anaesthesia reduced the metabolic rates in all layers; however, the largest reduction occurred in subjacent white matter (86 per cent), with reductions of 54 per cent and 76 per cent respectively in layers I and V.read more
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Journal ArticleDOI
ATP and brain function
Maria Erecińska,Ian A. Silver +1 more
TL;DR: In the brain, the brain is one of the organs that is particularly sensitive to lack of oxygen and in humans at rest is responsible for 20% of total O2 consumption, even though it accounts for only 2% of the body weight.
Journal ArticleDOI
Cerebral carbohydrate metabolism during acute hypoxia and recovery.
TL;DR: Levels of ATP, ADP, AMP and phosphocreatine were normal or near normal even when convulsions and respiratory collapse appeared imminent and Glycogen decreased and lactate rose markedly in hypoxia.
Journal ArticleDOI
Brain glycogen re-awakened.
TL;DR: Interest in brain glycogen has recently been re‐awakened by the first continuous in vivo measurements using NMR spectroscopy, by the general acceptance of metabolic coupling between glia and neurones involving intercellular transfer of energy substrate, and by studies supporting a prominent physiological role forbrain glycogen as a provider of supplemental energy substrate during periods of increased tissue energy demand.
Journal ArticleDOI
Biochemistry and the Central Nervous System
TL;DR: Biochemistry and the central nervous system always becomes the most wanted book.
References
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Journal ArticleDOI
The quantitative histochemistry of the brain; histological sampling.
TL;DR: The general histochemical procedure of Linderstrøm-Lang and Holter has been altered to permit direct histological control and the use of smaller samples, and is not limited in applicability to the nervous system.
Journal ArticleDOI
The measurement of pyridine nucleotides by enzymatic cycling.
TL;DR: This chapter describes the measurement of pyridine nucleotides by enzymatic cycling and it is found that as pyruvate formation during cycling is not strictly linear with DPN concentration, standards of DPN + are included which increase in steps of two to cover the range of assay.
Journal ArticleDOI
Glycogen, ammonia and related metabolities in the brain during seizures evoked by methionine sulphoximine.
TL;DR: It was found that the greatest increases in glycogen occurred in layers I and III (layers II and IV were not analysed).
Journal ArticleDOI
Regional energy reserves in mouse brain and changes with ischaemia and anaesthesia.
TL;DR: Although this 'closed system' method of measuring metabolic rate is relatively cumbersome it avoids some of the uncertainties of other procedures based on in vitro measurements or blood flow and should be particularly useful for application to small areas of the brain for which there are no other methods available.