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Review
. 2018 Jan;1411(1):21-35.
doi: 10.1111/nyas.13435. Epub 2017 Sep 3.

Insulin regulation of gluconeogenesis

Maximilian Hatting  1   2 Clint D J Tavares  1   2 Kfir Sharabi  1   2 Amy K Rines  1   2 Pere Puigserver  1   2
Affiliations
Review

Insulin regulation of gluconeogenesis

Maximilian Hatting et al. Ann N Y Acad Sci. 2018 Jan.

Abstract

The coordinated regulation between cellular glucose uptake and endogenous glucose production is indispensable for the maintenance of constant blood glucose concentrations. The liver contributes significantly to this process by altering the levels of hepatic glucose release, through controlling the processes of de novo glucose production (gluconeogenesis) and glycogen breakdown (glycogenolysis). Various nutritional and hormonal stimuli signal to alter hepatic gluconeogenic flux, and suppression of this metabolic pathway during the postprandial state can, to a significant extent, be attributed to insulin. Here, we review some of the molecular mechanisms through which insulin modulates hepatic gluconeogenesis, thus controlling glucose production by the liver to ultimately maintain normoglycemia. Various signaling pathways governed by insulin converge at the level of transcriptional regulation of the key hepatic gluconeogenic genes PCK1 and G6PC, highlighting this as one of the focal mechanisms through which gluconeogenesis is modulated. In individuals with compromised insulin signaling, such as insulin resistance in type 2 diabetes, insulin fails to suppress hepatic gluconeogenesis, even in the fed state; hence, an insight into these insulin-moderated pathways is critical for therapeutic purposes.

Keywords: gluconeogenesis; glucose; glycogenolysis; insulin; regulation.

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Conflict of interest statement

Competing Interests

The author declares no competing interests

Figures

Figure 1
Figure 1
Regulation of gluconeogenic gene expression by hepatic insulin signaling. Insulin action regulates the activity of trancription factors controlling gluconeogenic gene expression. AKT-mediated phosphorylation leads to nuclear export of FOXO1. Inhibitory phosphorylation of CBP/p300 blocks trancription-complex formation of CREB. Modification of PGC-1α by GCN5-mediated acetylation or AKT/CLK2-mediated phosphorylation decreases PGC-1α transcriptional activity.
See this image and copyright information in PMC

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