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Selective Inhibition of FOXO1 Activator/Repressor Balance Modulates Hepatic Glucose Handling.

Citation
Langlet, F., et al. “Selective Inhibition Of Foxo1 Activator/Repressor Balance Modulates Hepatic Glucose Handling.”. Cell, pp. 824-835.e18.
Center Columbia University
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Author Fanny Langlet, Rebecca A Haeusler, Daniel Lindén, Elke Ericson, Tyrrell Norris, Anders Johansson, Joshua R Cook, Kumiko Aizawa, Ling Wang, Christoph Buettner, Domenico Accili
Keywords diabetes, drug therapy, Hepatic Glucose Production, hepatosteatosis, Insulin resistance, insulin sensitizers, lipogenesis, selective modulators, small molecule inhibitor, transcription repressor
Abstract

Insulin resistance is a hallmark of diabetes and an unmet clinical need. Insulin inhibits hepatic glucose production and promotes lipogenesis by suppressing FOXO1-dependent activation of G6pase and inhibition of glucokinase, respectively. The tight coupling of these events poses a dual conundrum: mechanistically, as the FOXO1 corepressor of glucokinase is unknown, and clinically, as inhibition of glucose production is predicted to increase lipogenesis. Here, we report that SIN3A is the insulin-sensitive FOXO1 corepressor of glucokinase. Genetic ablation of SIN3A abolishes nutrient regulation of glucokinase without affecting other FOXO1 target genes and lowers glycemia without concurrent steatosis. To extend this work, we executed a small-molecule screen and discovered selective inhibitors of FOXO-dependent glucose production devoid of lipogenic activity in hepatocytes. In addition to identifying a novel mode of insulin action, these data raise the possibility of developing selective modulators of unliganded transcription factors to dial out adverse effects of insulin sensitizers.

Year of Publication
2017
Journal
Cell
Volume
171
Issue
4
Number of Pages
824-835.e18
Date Published
11/2017
ISSN Number
1097-4172
DOI
10.1016/j.cell.2017.09.045
Alternate Journal
Cell
PMID
29056338
PMCID
PMC5687849
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