Abstract
BackgroundGlucose increases the expression of glycolytic enzymes and other hypoxia-response genes in pancreatic beta-cells. Here, we tested whether this effect results from the activation of Hypoxia-Inducible-factors (HIF) 1 and 2 in a hypoxia-dependent manner.Methodology/Principal FindingsIsolated rat islets and insulin-secreting INS-1E cells were stimulated with nutrients at various pO2 values or treated with the HIF activator CoCl2. HIF-target gene mRNA levels and HIF subunit protein levels were measured by real-time RT-PCR, Western Blot and immunohistochemistry. The formation of pimonidazole-protein adducts was used as an indicator of hypoxia. In INS-1E and islet beta-cells, glucose concentration-dependently stimulated formation of pimonidazole-protein adducts, HIF1 and HIF2 nuclear expression and HIF-target gene mRNA levels to a lesser extent than CoCl2 or a four-fold reduction in pO2. Islets also showed signs of HIF activation in diabetic Leprdb/db but not non-diabetic Leprdb/+ mice. In vitro, these glucose effects were reproduced by nutrient secretagogues that bypass glycolysis, and were inhibited by a three-fold increase in pO2 or by inhibitors of Ca2+ influx and insulin secretion. In INS-1E cells, small interfering RNA-mediated knockdown of Hif1α and Hif2α, alone or in combination, indicated that the stimulation of glycolytic enzyme mRNA levels depended on both HIF isoforms while the vasodilating peptide adrenomedullin was a HIF2-specific target gene.Conclusions/SignificanceGlucose-induced O2 consumption creates an intracellular hypoxia that activates HIF1 and HIF2 in rat beta-cells, and this glucose effect contributes, together with the activation of other transcription factors, to the glucose stimulation of expression of some glycolytic enzymes and other hypoxia response genes.
Highlights
Hypoxia-Inducible-Factors (HIFs) are basic helix-loop-helixPAS domain transcription factors composed of a regulated a subunit (HIF1a or HIF2a) and a constitutively expressed HIF1b subunit (Aryl-hydrocarbon-Receptor Nuclear Translocator (ARNT)) [1,2]
Under hypoxic conditions (O2 partial pressure,2.3–38 mmHg) or after inhibition of PHDs with CoCl2, HIFa subunits are no longer degraded and translocate with ARNT to the nucleus where they activate the transcription of HIF-target genes including glucose transporter 1 (Glut1), glycolytic enzymes, monocarboxylate transporter 4 (Mct4), the vasodilating peptide adrenomedullin (Adm), vascular endothelial growth factors (Vegfs), and erythropoietin (Epo)
To characterize the role of HIF in the glucose stimulation of islet gene expression, we first tested the effect of a 18 h culture in the presence of 2, 5, 10 or 30 mmol/l glucose (G2, G5, G10, or G30) on the mRNA levels of known HIF-target genes and compared it with the effect of HIF activation by CoCl2, hypoxia or knockout of vhlh, the gene coding the von Hippel-Lindau protein [22]
Summary
Hypoxia-Inducible-Factors (HIFs) are basic helix-loop-helixPAS domain transcription factors composed of a regulated a subunit (HIF1a or HIF2a) and a constitutively expressed HIF1b subunit (Aryl-hydrocarbon-Receptor Nuclear Translocator (ARNT)) [1,2]. Under hypoxic conditions (O2 partial pressure (pO2),2.3–38 mmHg) or after inhibition of PHDs with CoCl2, HIFa subunits are no longer degraded and translocate with ARNT to the nucleus where they activate the transcription of HIF-target genes including glucose transporter 1 (Glut1), glycolytic enzymes, monocarboxylate transporter 4 (Mct4), the vasodilating peptide adrenomedullin (Adm), vascular endothelial growth factors (Vegfs), and erythropoietin (Epo) This response favours cell survival by triggering a switch from aerobic mitochondrial to anaerobic glycolytic ATP production at the cellular level, an increase in blood flow and capillary growth at the organ level, and an increase in O2 transport capacity at the organism level [1,2,3]. We tested whether this effect results from the activation of Hypoxia-Inducible-factors (HIF) 1 and 2 in a hypoxiadependent manner
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