Abstract
The Pdx-1 transcription factor plays crucial functions both during pancreas development and in the adult β cells. Previous studies have indicated that ectopic Pdx-1 expression in liver or intestinal primary and immortalized cells is sufficient to promote activation of insulin gene expression. This work is focused on the molecular and physiological consequences of Pdx-1 overexpression in liver cells. We present evidence that Pdx-1 affects the level of expression of one of the four mammalian hexokinase isozymes. These are glucose phosphorylating enzymes involved in essential cellular functions such as glucose sensing, metabolic energy production and apoptosis. Specifically, our data show that over-expression of Pdx-1 in cultured hepatocytes is able to repress the expression of hexokinase 2 (Hxk 2) and the phenomenon is mediated via binding of Pdx-1 to a specific sequence on the Hxk 2 gene promoter. As a consequence, liver cells over-expressing Pdx-1 present interesting alterations concerning glucose metabolism.
Highlights
Glucose is the main source of energy in eukaryotes and constitutes the basis for the production of ATP
[23,24,25], we focused our attention on the role of Pdx-1 over-expression in liver cells; we examined the possibility that Pdx-1 over-expression could stimulate insulin production in a differentiated normal rat hepatocyte cell line and tried to evaluate other important metabolic consequences due to its over-expression
We investigated whether Pdx-1 expression in liver cells is per se sufficient to trigger insulin production in our experimental model
Summary
Results were normalized vs the Pdx-1 expression level detected in RIN38 cells (mean ± SEM). Modulation of the Hexokinase 2 (Hxk2) gene in Clone 9 hepatocytes over-expressing Pdx-1. In light of these results we investigated the expression levels of different genes involved in glucose homeostasis and/or pancreatic development and function in hepatocytes over-expressing Pdx-1
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