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Regulation of Hepatic Glucose Metabolism. SEUNG-HOI KOO Sungkyunkwan University, School of Medicine 05-30-2008. Insulin regulates glucose homeostasis. Annu Rev Physiol. 2006;68:123-58. Insulin regulates Foxo activity. Foxo1 regulates hepatic glucose production.
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Regulation of Hepatic Glucose Metabolism SEUNG-HOI KOO Sungkyunkwan University, School of Medicine 05-30-2008
Insulin regulates glucose homeostasis Annu Rev Physiol. 2006;68:123-58
Foxo1 regulates hepatic glucose production • Transcriptionally activate gluconeogenic genes during fasting. • Highly active in livers of diabetic mice due to the hypophosphorylaton of 3 major Akt sites. • Attractive target for controlling hepatic glucose production.
Insulin regulates Foxo activity Arden et al. Arch Biochem Biophys. 2002
High-throughput transfection & imaging • FuGENE 6 + pcDNA-GFP-FOXO1 onto prespotted 384-well containing plasmid DNA from 4800 MGC collection
High-throughput transfection & imaging • FuGENE 6 + pcDNA-GFP-FOXO1 onto prespotted 384-well containing plasmid DNA from 4800 MGC collection • Addition of U2OS cells to each well
High-throughput transfection & imaging • FuGENE 6 + pcDNA-GFP-FOXO1 onto prespotted 384-well containing plasmid DNA from 4800 MGC collection • Addition of U2OS cells to each well • Fixation, nuclei-staining (DAPI), and imaging on inverted fluorescence microscope
High-throughput transfection & imaging • FuGENE 6 + pcDNA-GFP-FOXO1 onto prespotted 384-well containing plasmid DNA from 4800 MGC collection • Addition of U2OS cells to each well • Fixation, nuclei-staining (DAPI), and imaging on inverted fluorescence microscope • Fractional fluorescence in the nucleus (FLIN value) determined for all GFP-positive cells
High-throughput transfection & imaging • FuGENE 6 + pcDNA-GFP-FOXO1 onto prespotted 384-well containing plasmid DNA from 4800 MGC collection • Addition of U2OS cells to each well • Fixation, nuclei-staining (DAPI), and imaging on inverted fluorescence microscope • Fractional fluorescence in the nucleus (FLIN value) determined for all GFP-positive cells • Percentages of cells with cytoplasmic, mixed, and nuclear GFP-FOXO1 reported (GFP-FOXO1 fluorescence > 2-fold over background).
Family of Protein Tyrosine Phosphatases Alonso et al Cell. 2004
Family of Protein Tyrosine Phosphatases • PTPs are a diverse enzyme family with at least 107 members in the human genome • PTP-1b : inhibitors of insulin signaling - PTP-1b KO mice exhibit improved insulin sensitivity compared to wild-type controls and are resistant to weight gain when fed a high-fat diet - PTP-1b is localized to the cytoplasmic surface of the endoplasmic reticulum, and dephosphorylates receptor tyrosine kinases after receptor endocytosis
PTP-MEG2 • Possesses a lipid binding domain homologous to Sec14p, a yeast protein with phosphatidylinositol (PtdIns) transferase activity. • Regulates the secretory pathway through dephosphorylation of the fusion protein N-ethylmaleimide-sensitive factor • Regulation of intracellular traffic of the secretory pathway in T cells.
HepG2 PTP-MEG2 modulates insulin signaling in cultured cells
HepG2 Primary Hepatocytes PTP-MEG2 modulates insulin signaling in cultured cells
Knockdown of PTP-MEG2 potentiates insulin activity in hepatocytes
Knockdown of PTP-MEG2 potentiates insulin activity in hepatocytes
Knockdown of PTP-MEG2 in diabetic mice results in insulin sensitization
Knockdown of PTP-MEG2 in diabetic mice results in insulin sensitization
Knockdown of PTP-MEG2 in diabetic mice results in insulin sensitization
Knockdown of PTP-MEG2 in diabetic mice results in insulin sensitization
Conclusion • PTP-MEG2 expression blunts insulin-mediated transcriptional repression of gluconeogenic genes.
Conclusion • PTP-MEG2 expression blunts insulin-mediated transcriptional repression of gluconeogenic genes. • PTP-MEG2 regulates insulin signal transduction by attenuating the activation of the insulin receptor.
Conclusion • PTP-MEG2 expression blunts insulin-mediated transcriptional repression of gluconeogenic genes. • PTP-MEG2 regulates insulin signal transduction by attenuating the activation of the insulin receptor. • Reduction of PTP-MEG2 expression levels with Ad RNAi in the livers of diabetic (db/db) mice resulted in a reversal of insulin resistance and hyperglycemia.
Conclusion • PTP-MEG2 expression blunts insulin-mediated transcriptional repression of gluconeogenic genes. • PTP-MEG2 regulates insulin signal transduction by attenuating the activation of the insulin receptor. • Reduction of PTP-MEG2 expression levels with Ad RNAi in the livers of diabetic (db/db) mice resulted in a reversal of insulin resistance and hyperglycemia. • These results indicate that PTP-MEG2 regulates glucose homeostasis and hepatic insulin action through the modulation of insulin receptor signaling.
Acknowledgment Sungkyunkwan U Salk Inst SEUNG-HOI KOO Young-Sil Yoon Dongryeol Ryu Hee-Yeon Jo Woo-Young Seo Kyeoung Jin Oh Min-Woo Lee MARC MONTMINY Susan Hedrick Scripps Inst PETER SHULTZ Charles Cho GNF SUMIT CHANDA