内生
化学
硫转移酶
细胞生物学
程序性细胞死亡
谷胱甘肽
生物化学
酶
GPX4
活性氧
炎症
细胞
激进的
氧化应激
脂质过氧化
氧化还原
抗氧化剂
过氧化氢
细胞损伤
生物物理学
小分子
硫化氢
生物
抑制器
细胞培养
作者
Simran M. Gupta,Santhosh Duraisamy,Tsuyoshi Takata,Takaaki Akaike,Siddhesh S. Kamat,Dharmaraja Allimuthu,Harinath Chakrapani
摘要
S) such as glutathione hydropersulfide (GS-SH) are excellent hydrogen atom transfer agents, and quench radicals to protect cells from ferroptosis, a form of iron-mediated cell death associated with an unchecked build-up of lipid radicals. Here, using principles of enzyme-inhibitor design, a series of new artificial substrates for the endogenous hydropersulfide-generating enzyme, 3-mercaptopyruvate sulfurtransferase (3-MST) was developed. We find that the lead molecules generated GS-SH, catalyzed by 3-MST, permeated cells to enhance endogenous hydropersulfides, protected cells from ferroptosis, and reduced systemic inflammation in an animal model. Together, this calibrated approach to promote cell's own radical trapping antioxidants using its biosynthetic machinery to prevent ferroptosis has tremendous implications in redox biology and therapeutics.
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