Literature DB >> 7477671

Energy metabolism in hypoxic astrocytes: protective mechanism of fructose-1,6-bisphosphate.

J A Kelleher1, P H Chan, T Y Chan, G A Gregory.   

Abstract

The protective effects of fructose-1,6-biphosphate (FBP) during hypoxia/ischemia are thought to result from uptake and utilization of FBP as a substrate for glycolysis or from stimulation of glucose metabolism. To test these hypotheses, we measured CO2 and lactate production from [6-14C]glucose, [1-14C]glucose, and [U-14C]FBP in normoxic and hypoxic cultured astrocytes with and without FBP present. FBP had little effect on CO2 production by glycolysis, but increased CO2 production by the pentose phosphate pathway. Labeled FBP produced very small amounts of CO2. Lactate production from [1-, and 6-14C]glucose increased similarly during hypoxic hypoxia; the increase was independent of added FBP. Labeled lactate from [U-14C]FBP was minimal. We conclude that exogenous FBP is not used by astrocytes as a substrate for glycolysis and that FBP alters glucose metabolism.

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Year:  1995        PMID: 7477671     DOI: 10.1007/bf00969690

Source DB:  PubMed          Journal:  Neurochem Res        ISSN: 0364-3190            Impact factor:   3.996


  45 in total

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Authors:  O H LOWRY; J V PASSONNEAU
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Authors:  E E Kaufman; B F Driscoll
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Authors:  B Tavazzi; L Cerroni; D Di Pierro; G Lazzarino; M Nuutinen; J W Starnes; B Giardina
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Authors:  G Lazzarino; L Cattani; R Costrini; L Mulieri; A Candiani; L Galzigna
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6.  Metabolic disposition of glucose carbon by sensory ganglia of 15-day-old chicken embryos, with new dynamic models of carbohydrate metabolism.

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Authors:  J Edmond; R A Robbins; J D Bergstrom; R A Cole; J de Vellis
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Authors:  J W Kuluz; G A Gregory; Y Han; W D Dietrich; C L Schleien
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Review 10.  Fructose metabolism in the cerebellum.

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