AI Article Synopsis
- Both plaque-free and plaque-prone conditions increase oxidative stress in endothelial cells (ECs), affecting gene expression differently.
- Exposure to non-pulsed unidirectional shear stress slightly raises oxidative levels and increases NOS III expression, while pulsed flow boosts both ET-1 and NOS III expressions significantly.
- Antioxidants can inhibit ET-1 up-regulation completely but only partially affect NOS III, indicating mechanical forces influence gene expression through both oxidative and non-oxidative pathways.
Article Abstract
Both plaque-free and plaque-prone hemodynamic environments induce an increase in the oxidative state of endothelial cells (ECs), whereas differential gene expression regulation was described in cells exposed to these conditions. In order to investigate the role of the increased oxidative state in flow-regulation of gene expression, we first exposed EC to non-pulsed unidirectional shear stress. These conditions only slightly increases ECs oxidative state and endothelin-1 (ET-1) mRNA expression, whereas endothelial nitric oxide synthase (NOS III) mRNA level were significantly up-regulated. On the contrary, both ET-1 and NOS III gene expression were significantly induced in EC exposed to pulsed-unidirectional flow (plaque-free). Only ET-1 gene expression was up-regulated by oscillatory flow (plaque-prone). Moreover, use of an antioxidant only partially inhibited NOS III gene up-regulation by unidirectional flow, whereas it completely abrogated ET-1 gene up-regulation by unidirectional and oscillatory flows. Thus suggesting that mechanical forces regulate gene expression in ECs both via oxidative stress-dependent and -independent mechanisms.
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