Mineralocorticoid receptor (MR) and its main ligand aldosterone, play a key role in the regulation of blood pressure through their effects increasing sodium and water reabsorption. MR antagonists are effective drugs that are currently used in selected patients with resistant hypertension. In addition, these drugs increase patients survival in specific circumstances such as heart failure, they offer renal protection in chronic kidney disease patients and they have beneficial effects in other pathologies. Besides MR cardiorenal effects, it is now accepted that MR is expressed in other tissues and cells such as vascular smooth muscle cells and endothelial cells where excessive MR activation induces deleterious effects such as vascular remodeling and stiffness and endothelial dysfunction, which are prognostic factors for future cardiovascular events. Moreover, novel evidence demonstrate that MR is also expressed in non-vascular cells adjacent to vessels such as immune cells and adipocytes that might influence vascular function and structure. Among the mechanisms responsible for these effects of MR are genomic and non genomic mechanisms that facilitate reactive oxygen species production mainly from the NADPH oxidase enzyme, as well as production of other inflammatory mediators. Here we review the experimental and clinical evidence that suggest that MR activation by aldosterone is an important mediator of vascular damage through the production of reactive oxygen species.