Abstract
To the editor: We and others have found that either genetic insulin resistance or hyperinsulinemia may dampen insulin ability to activate the PI3-kinase/Akt pathway, leading to perturbation of endothelial nitric oxide synthase (eNOS) activation.1,2 However, little is known about insulin effects on transcription of antiatherogenic and proatherogenic genes in insulin resistant conditions. Therefore, we used a genetic model of vascular insulin resistance, primary human umbilical vein endothelial cells (HUVECs) naturally carrying the G972R Insulin Receptor Substrate-1 (IRS-1) variant,2 to investigate the effect of both genetic insulin resistance and hyperinsulinemia on transcription of atherosclerosis related genes. G972R IRS-1 variant reduces IRS-1 activation of the PI3-K/Akt pathway,3 and it has been associated to coronary artery disease and obesity.3,4 HUVECs carrying the wild-type (WT) or G972R IRS-1 variant were obtained as previously described.3 For the experiments, 3rd through 5th passage HUVEC-WT and 972 were incubated in serum free EGM-2 medium for 16 hours in the presence or absence of insulin 5×10−7 mol/L, to obtain a full effect of insulin on nitric oxide production.5 Total RNA was extracted from the HUVECs with Trizol reagent according to the manufacturer’s protocol. To profile gene expression pattern we made use of U133A Affymetrix DNA microarray containing a total number of 22283 probe sets corresponding to about 15 000 genes, using previously described methods.6 Gene expression profiling was obtained by …
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