自噬
活性氧
急性肾损伤
氧化应激
自由基清除剂
抗氧化剂
细胞凋亡
化学
生物物理学
线粒体
药理学
细胞生物学
缺氧(环境)
纳米颗粒
材料科学
氧气
生物化学
医学
纳米技术
生物
内科学
有机化学
作者
Sang-Eun Hong,Jong Hun An,Seong‐Lan Yu,Jaeku Kang,Chang Gyo Park,Hoi Young Lee,Dong Chul Lee,Hwan‐Woo Park,Won-Min Hwang,Sung-Ro Yun,Moon Hyang Park,Kuk Ro Yoon,Se-Hee Yoon
标识
DOI:10.1166/jbn.2020.2948
摘要
Oxidative stress is one of the principal causes of hypoxia-induced kidney injury. The ceria nanoparticle (CNP) is known to exhibit free radical scavenger and catalytic activities. When zirconia is attached to CNPs (CZNPs), the ceria atom tends to remain in a Ce3+ form and its efficacy as a free radical scavenger thus increases. We determined the effectiveness of CNP and CZNP antioxidant activities against hypoxia-induced acute kidney injury (AKI) and observed that these nanoparticles suppress the apoptosis of hypoxic HK-2 cells by restoring autophagy flux and alleviating mitochondrial damage. In vivo experiments revealed that CZNPs effectively attenuate hypoxia-induced AKI by preserving renal structures and glomerulus function. These nanoparticles can successfully diffuse into HK-2 cells and effectively counteract reactive oxygen species (ROS) to block hypoxia-induced AKI. This suggests that these particles represent a novel approach to controlling this condition.
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