Abstract
Glucose exerts powerful effects on hepatocyte gene transcription by mechanisms that are incompletely understood. c-Myc regulates hepatic glucose metabolism by increasing glycolytic enzyme gene transcription while concomitantly decreasing gluconeogenic and ketogenic enzyme gene expression. However, the molecular mechanisms by which c-Myc exerts these effects is not known. In this study, the glucose-mediated induction of L-type pyruvate kinase and glucose-6-phosphatase mRNA levels was diminished by maneuvers involving recombinant adenoviral vectors that interfere with (i) c-Myc protein levels by antisense expression or (ii) c-Myc function through a dominant-negative Max protein. These results were obtained using both HL1C rat hepatoma cells and primary rat hepatocytes. Furthermore, a decrease in c-Myc abundance reduced glucose production in HL1C cells, presumably by decreasing glucose-6-phosphatase activity. The repression of hormone-activated phosphoenolpyruvate carboxykinase gene transcription by glucose was not affected by a reduction in c-Myc levels. The basal mRNA levels for L-pyruvate kinase and glucose-6-phosphatase were not altered to any significant degree by adenoviral treatment. Furthermore, adenoviral overexpression of the c-Myc protein induced glucose-6-phosphatase mRNA in the absence of glucose stimulation. We conclude that multiple mechanisms exist to communicate the glucose-derived signal and that c-Myc has a key role in the hepatic glucose signaling pathway.
Highlights
Insulin and glucose act jointly to influence glucose homeostasis by altering hepatic gene expression patterns
HL1C rat hepatoma cells were transduced with AdCMV-ASmyc or a control adenovirus, AdCMV-Gal (20), and the effect of increasing the m.o.i. from 12.5 to 50 pfu/cell on mRNA abundance was assessed by RTPCR (Fig. 1)
We demonstrate several important observations regarding the role of c-Myc in hepatic glucose metabolism as follows
Summary
Insulin and glucose act jointly to influence glucose homeostasis by altering hepatic gene expression patterns. HL1C cells expressing GK, and treated with 20 mM glucose, display a 2- and 4-fold increase in the mRNAs for the L-pyruvate kinase and Glc-6-Pase genes, respectively, when compared with control cells (Fig. 3). Treatment with AdCMV-ASmyc blunted the glucose-mediated increase in the mRNA levels of L-PK and Glc-6-Pase in a concentration-dependent manner in HL1C cells, whereas treatment with AdCMV-Gal over the same concentration range had no significant effect on the expression of these genes (Fig. 3).
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