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Literature DB >> 16522343

Biochemical quantification of total brain glycogen concentration in rats under different glycemic states.

Florence D Morgenthaler¹, Dee M Koski, Rudolf Kraftsik, Pierre-Gilles Henry, Rolf Gruetter.

Abstract

All (13)C NMR studies of brain glycogen to date relied on observing the incorporation of (13)C label into glycogen, and thus interpretation was potentially affected by changes in (13)C label turnover rates. The goal of this study was to quantify total brain glycogen concentration under conditions of hypoglycemia or normoglycemia using biochemical methods. Rats were sacrificed using a focused microwave fixation device. The results showed that metabolism of brain glycogen was Glc- and insulin-sensitive and that insulin-induced hypoglycemia promoted a gradual glycogenolysis. Moreover, we show that there are very mild effects of isoflurane and alpha-chloralose anesthesia on brain glycogen concentration. Altogether these results show that total brain glycogen serves as a substantial source of glucosyl units during insulin-induced moderate hypoglycemia and therefore may be neuroprotective. Finally we also conclude that previous interpretation of (13)C NMR spectroscopy data accurately reflected the changes in total brain glycogen content.

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Year: 2006 PMID： 16522343 PMCID： PMC1471898 DOI： 10.1016/j.neuint.2005.12.034

Source DB: PubMed Journal: Neurochem Int ISSN： 0197-0186 Impact factor: 3.921

31 in total

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5. Microglia and astrocytes in the adult rat brain: comparative immunocytochemical analysis demonstrates the efficacy of lipocortin 1 immunoreactivity.

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7. Effect of hypoglycemia on brain glycogen metabolism in vivo.

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9. In vivo 13C NMR assessment of brain glycogen concentration and turnover in the awake rat.

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Review 10. Hypoglycemia in diabetes.

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20 in total

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2. Glycogen Supercompensation in the Rat Brain After Acute Hypoglycemia is Independent of Glucose Levels During Recovery.

Authors: João M N Duarte; Florence D Morgenthaler; Rolf Gruetter
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Review 3. Noninvasive measurement of brain glycogen by nuclear magnetic resonance spectroscopy and its application to the study of brain metabolism.

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10. In situ 3D magnetic resonance metabolic imaging of microwave-irradiated rodent brain: a new tool for metabolomics research.

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