| 저자(한글) |
Chen, Bo,Lu, Yan-Rong,Chen, You-Nan,Kang, Yu-Jian,Cheng, Jing-Qiu |
| 초록 |
In the endothelium, ROS mainly derive from mitochondria, endothelial nitric oxide synthases and NADPH oxidases 4. Excessive ROS are a major cause of oxidative stress, the primary stimulus of vascular dysfunction and oxidative stress-related diseases. However, cellular evolution has made possible the development of adaptive antioxidant systems that scavenge excessive ROS, such as Nrf2/Keapl-ARE, PPAR-y, SIRT and FOXO, etc. Among them, the Nrf2/Keapl-ARE signaling pathway is perhaps the most prominent. What is more, there are the 'crosstalk' among these antioxidant stress-related signaling pathways aim to alleviate oxidative stress injurys and promote cells survival. The understanding of the relationship between endothelial aging and oxidative stress may serve as a therapeutic clues in the treatment of oxidative stress-related diseases. |
