Literature DB >> 23747828

High glucose potentiates L-FABP mediated fibrate induction of PPARα in mouse hepatocytes.

Anca D Petrescu1, Avery L McIntosh, Stephen M Storey, Huan Huang, Gregory G Martin, Danilo Landrock, Ann B Kier, Friedhelm Schroeder.   

Abstract

Although liver fatty acid binding protein (L-FABP) binds fibrates and PPARα in vitro and enhances fibrate induction of PPARα in transformed cells, the functional significance of these findings is unclear, especially in normal hepatocytes. Studies with cultured primary mouse hepatocytes show that: 1) At physiological (6mM) glucose, fibrates (bezafibrate, fenofibrate) only weakly activated PPARα transcription of genes in LCFA β-oxidation; 2) High (11-20mM) glucose, but not maltose (osmotic control), significantly potentiated fibrate-induction of mRNA of these and other PPARα target genes to increase LCFA β-oxidation. These effects were associated with fibrate-mediated redistribution of L-FABP into nuclei-an effect prolonged by high glucose-but not with increased de novo fatty acid synthesis from glucose; 3) Potentiation of bezafibrate action by high glucose required an intact L-FABP/PPARα signaling pathway as shown with L-FABP null, PPARα null, PPARα inhibitor-treated WT, or PPARα-specific fenofibrate-treated WT hepatocytes. High glucose alone in the absence of fibrate was ineffective. Thus, high glucose potentiation of PPARα occurred through FABP/PPARα rather than indirectly through other PPARs or glucose induced signaling pathways. These data indicated L-FABP's importance in fibrate-induction of hepatic PPARα LCFA β-oxidative genes, especially in the context of high glucose levels.
Copyright © 2013 Elsevier B.V. All rights reserved.

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Year:  2013        PMID: 23747828      PMCID: PMC3730521          DOI: 10.1016/j.bbalip.2013.05.008

Source DB:  PubMed          Journal:  Biochim Biophys Acta        ISSN: 0006-3002


  110 in total

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Review 8.  Role of fatty acid binding proteins and long chain fatty acids in modulating nuclear receptors and gene transcription.

Authors:  Friedhelm Schroeder; Anca D Petrescu; Huan Huang; Barbara P Atshaves; Avery L McIntosh; Gregory G Martin; Heather A Hostetler; Aude Vespa; Danilo Landrock; Kerstin K Landrock; H Ross Payne; Ann B Kier
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10.  Fenofibrate: metabolism and species differences for peroxisome proliferation in cultured hepatocytes.

Authors:  M C Cornu-Chagnon; H Dupont; A Edgar
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4.  Impact of SCP-2/SCP-x gene ablation and dietary cholesterol on hepatic lipid accumulation.

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5.  Impact of dietary phytol on lipid metabolism in SCP2/SCPX/L-FABP null mice.

Authors:  Sherrelle Milligan; Gregory G Martin; Danilo Landrock; Avery L McIntosh; John T Mackie; Friedhelm Schroeder; Ann B Kier
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6.  Effect of Fabp1/Scp-2/Scp-x Ablation on Whole Body and Hepatic Phenotype of Phytol-Fed Male Mice.

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7.  The human liver fatty acid binding protein T94A variant alters the structure, stability, and interaction with fibrates.

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8.  Human FABP1 T94A variant impacts fatty acid metabolism and PPAR-α activation in cultured human female hepatocytes.

Authors:  Avery L McIntosh; Huan Huang; Stephen M Storey; Kerstin K Landrock; Danilo Landrock; Anca D Petrescu; Shipra Gupta; Barbara P Atshaves; Ann B Kier; Friedhelm Schroeder
Journal:  Am J Physiol Gastrointest Liver Physiol       Date:  2014-05-29       Impact factor: 4.052

Review 9.  Fatty Acid Binding Protein-1 (FABP1) and the Human FABP1 T94A Variant: Roles in the Endocannabinoid System and Dyslipidemias.

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10.  Structural and functional interaction of fatty acids with human liver fatty acid-binding protein (L-FABP) T94A variant.

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