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Endoplasmic reticulum stress and oxidative stress drive endothelial dysfunction induced by high selenium

Matshediso Zachariah, Hatem Maamoun, Larissa Milano, Margaret P. Rayman, Lisiane B. Meira, Abdelali Agouni

2020Journal of Cellular Physiology55 citationsDOIOpen Access PDF

Abstract

Selenium is an essential trace element important for human health. A balanced intake is, however, crucial to maximize the health benefits of selenium. At physiological concentrations, selenium mediates antioxidant, anti-inflammatory, and pro-survival actions. However, supra-nutritional selenium intake was associated with increased diabetes risk leading potentially to endothelial dysfunction, the initiating step in atherosclerosis. High selenium causes apoptosis in cancer cells via endoplasmic reticulum (ER) stress, a mechanism also implicated in endothelial dysfunction. Nonetheless, whether ER stress drives selenium-induced endothelial dysfunction, remains unknown. Here, we investigated the effects of increasing concentrations of selenium on endothelial cells. High selenite reduced nitric oxide bioavailability and impaired angiogenesis. High selenite also induced ER stress, increased reactive oxygen species (ROS) production, and apoptosis. Pretreatment with the chemical chaperone, 4-phenylbutyrate, prevented the toxic effects of selenium. Our findings support a model where high selenite leads to endothelial dysfunction through activation of ER stress and increased ROS production. These results highlight the importance of tailoring selenium supplementation to achieve maximal health benefits and suggest that prophylactic use of selenium supplements as antioxidants may entail risk.

Topics & Concepts

SeleniumOxidative stressEndoplasmic reticulumEndothelial dysfunctionReactive oxygen speciesUnfolded protein responseNitric oxideAntioxidantApoptosisChemistryEndocrinologyInternal medicineCell biologyBiologyPharmacologyBiochemistryMedicineOrganic chemistrySelenium in Biological SystemsTrace Elements in HealthHeme Oxygenase-1 and Carbon Monoxide
Endoplasmic reticulum stress and oxidative stress drive endothelial dysfunction induced by high selenium | Litcius