Combined deficiency in glutathione peroxidase 4 and vitamin E causes multiorgan thrombus formation and early death in mice
- PMID: 23770613
- DOI: "VSports在线直播" 10.1161/CIRCRESAHA.113.279984
Combined deficiency in glutathione peroxidase 4 and vitamin E causes multiorgan thrombus formation and early death in mice
Abstract
Rationale: Growing evidence indicates that oxidative stress contributes markedly to endothelial dysfunction. The selenoenzyme glutathione peroxidase 4 (Gpx4) is an intracellular antioxidant enzyme important for the protection of membranes by its unique activity to reduce complex hydroperoxides in membrane bilayers and lipoprotein particles. Yet a role of Gpx4 in endothelial cell function has remained enigmatic. VSports手机版.
Objective: To investigate the role of Gpx4 ablation and subsequent lipid peroxidation in the vascular compartment in vivo V体育安卓版. .
Methods and results: Endothelium-specific deletion of Gpx4 had no obvious impact on normal vascular homeostasis, nor did it impair tumor-derived angiogenesis in mice maintained on a normal diet V体育ios版. In stark contrast, aortic explants from endothelium-specific Gpx4 knockout mice showed a markedly reduced number of endothelial branches in sprouting assays. To shed light onto this apparent discrepancy between the in vivo and ex vivo results, we depleted mice of a second antioxidant, vitamin E, which is normally absent under ex vivo conditions. Therefore, mice were fed a vitamin E-depleted diet for 6 weeks before endothelial deletion of Gpx4 was induced by 4-hydroxytamoxifen. Surprisingly, ≈80% of the knockout mice died. Histopathological analysis revealed detachment of endothelial cells from the basement membrane and endothelial cell death in multiple organs, which triggered thrombus formation. Thromboembolic events were the likely cause of various clinical pathologies, including heart failure, renal and splenic microinfarctions, and paraplegia. .
Conclusions: Here, we show for the first time that in the absence of Gpx4, sufficient vitamin E supplementation is crucial for endothelial viability VSports最新版本. .
Keywords: endothelium, vascular; oxidant stress; thrombosis; vascular endothelial function; α-tocopherol V体育平台登录. .
Publication types
MeSH terms
- VSports - Actions
- VSports注册入口 - Actions
- "VSports" Actions
- "V体育官网" Actions
- V体育安卓版 - Actions
- Actions (VSports最新版本)
- Actions (VSports最新版本)
- "V体育2025版" Actions
- Actions (VSports手机版)
- Actions (V体育ios版)
- V体育2025版 - Actions
"VSports注册入口" Substances
- Actions (VSports注册入口)
LinkOut - more resources
Full Text Sources
Other Literature Sources
Medical
V体育官网入口 - Molecular Biology Databases