化学
活性氧
抗氧化剂
清除
超氧化物歧化酶
香烟烟雾
双金属片
过氧化氢酶
烟雾
羟基自由基
氧化应激
激进的
体内
氧合物
人类健康
过氧化氢
生物化学
氧气
超氧化物
氧化磷酸化
电子烟
药理学
炎症
活性氮物种
环境化学
作者
Yufeng Chen,Ming Song,Ninghong Yin,Jiahong Li,Jiahong Li,Zhizhong Hu,Lingyong Song,Yumei Qian,Dongye Huang,Weize Li,Junqin Li,Junqin Li,Zhong Fan,Dinggeng He,Jianbo Liu
标识
DOI:10.1021/acsanm.5c04512
摘要
Pulmonary diseases caused by cigarette smoke have become a major global health concern, with reactive oxygen species (ROS) in smoke playing a key role in inducing oxidative damage. However, conventional cigarette filters have limited effectiveness in eliminating these harmful radicals. This study presents a promising strategy using a manganese–cerium bimetallic organic framework (Mn/Ce-MOF) as a smoke radical scavenger. Mn/Ce-MOFs show significant free radical scavenging capabilities, including superoxide dismutase (SOD)-like activity, catalase (CAT)-like activity, and hydroxyl radical (·OH) neutralization. When incorporated into cigarette filters, Mn/Ce-MOFs achieve over 72.5% scavenging efficiency for ROS present in cigarette smoke. In vivo experiments demonstrate that cigarettes modified with Mn/Ce-MOF nanozymes reduce lung inflammation caused by oxidative stress, offering significant protection to lung tissue. This work highlights the potential of Mn/Ce-MOFs as powerful antioxidant additives in cigarette filters, representing a promising approach to mitigate the harmful effects of smoking.
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