June (2022-05-31 22:42):
#paper:doi: 10.1038/s41556-021-00818-3.该研究通过独立的全基因组 CRISPR-Cas9 和激酶抑制剂文库筛选将 PKCβII 鉴定为铁死亡的关键贡献者。研究结果表明,PKCβII 可感知初始脂质过氧化物,并通过 ACSL4 的磷酸化和激活来放大与铁死亡相关的脂质过氧化。脂质组学分析表明,活化的 ACSL4 催化含多不饱和脂肪酸的脂质生物合成并促进脂质过氧化产物的积累,导致铁死亡。PKCβII-ACSL4 通路的减弱在体外有效地阻断了铁死亡,并在体内削弱了与铁死亡相关的癌症免疫治疗。总之,该研究结果将 PKCβII 确定为脂质过氧化的感应器,脂质过氧化-PKCβII-ACSL4 正反馈轴可能为铁死亡相关疾病治疗提供潜在的靶点。
IF:17.300Q1 Nature cell biology, 2022-01. DOI: 10.1038/s41556-021-00818-3 PMID: 35027735
PKCβII phosphorylates ACSL4 to amplify lipid peroxidation to induce ferroptosis
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Abstract:
The accumulation of lipid peroxides is recognized as a determinant of the occurrence of ferroptosis. However, the sensors and amplifying process of lipid peroxidation linked to ferroptosis remain obscure. Here we identify PKCβII as a critical contributor of ferroptosis through independent genome-wide CRISPR-Cas9 and kinase inhibitor library screening. Our results show that PKCβII senses the initial lipid peroxides and amplifies lipid peroxidation linked to ferroptosis through phosphorylation and activation of ACSL4. Lipidomics analysis shows that activated ACSL4 catalyses polyunsaturated fatty acid-containing lipid biosynthesis and promotes the accumulation of lipid peroxidation products, leading to ferroptosis. Attenuation of the PKCβII-ACSL4 pathway effectively blocks ferroptosis in vitro and impairs ferroptosis-associated cancer immunotherapy in vivo. Our results identify PKCβII as a sensor of lipid peroxidation, and the lipid peroxidation-PKCβII-ACSL4 positive-feedback axis may provide potential targets for ferroptosis-associated disease treatment.
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