A dyslipidaemia-related increase of the concentration of long-chain fatty acids in the plasma is an important pathological factor substantially increasing risk of serious consequences in vascular endothelium. Inflammatory response, atherosclerosis and insulin resistance seem the most severe. Palmitate at excessive concentrations has been shown to have a harmful effect on endothelial cells impairing NO generation, stimulating reactive oxygen species (ROS) formation and affecting their viability. On the other hand we found that palmitate applied for 48 h at 100 μM concentration which is sufficient to induce inflammatory response, increase ROS generation and reduce insulin sensitivity of EA.hy926 cells, unexpectedly also stimulates NO synthesis and increases mitochondrial mass, suggesting a pro-survival rather than anti-survival effect. This finding unveils a potential protective mechanism allowing cells to maintain their energy homeostasis under conditions of a moderate deregulation of lipid metabolism.
Keywords: Endothelial cells; Inflammatory response; Mitochondrial mass; Palmitate; Reactive oxygen species.
Copyright © 2017 Elsevier Inc. All rights reserved.