磷酸酶 iPLAβ 通过消除氧化还原脂质死亡信号来避免铁死亡。

Phospholipase iPLAβ averts ferroptosis by eliminating a redox lipid death signal.

机构信息

Department of Environmental and Occupational Health and Center for Free Radical and Antioxidant Health, University of Pittsburgh, Pittsburgh, PA, USA.

Guangdong Engineering Research Center of Chinese Medicine & Disease Susceptibility, Jinan University, Guangzhou, China.

出版信息

Nat Chem Biol. 2021 Apr;17(4):465-476. doi: 10.1038/s41589-020-00734-x. Epub 2021 Feb 4.

DOI:10.1038/s41589-020-00734-x

PMID:33542532

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8152680/

Abstract

Ferroptosis, triggered by discoordination of iron, thiols and lipids, leads to the accumulation of 15-hydroperoxy (Hp)-arachidonoyl-phosphatidylethanolamine (15-HpETE-PE), generated by complexes of 15-lipoxygenase (15-LOX) and a scaffold protein, phosphatidylethanolamine (PE)-binding protein (PEBP)1. As the Ca-independent phospholipase Aβ (iPLAβ, PLA2G6 or PNPLA9 gene) can preferentially hydrolyze peroxidized phospholipids, it may eliminate the ferroptotic 15-HpETE-PE death signal. Here, we demonstrate that by hydrolyzing 15-HpETE-PE, iPLAβ averts ferroptosis, whereas its genetic or pharmacological inactivation sensitizes cells to ferroptosis. Given that PLA2G6 mutations relate to neurodegeneration, we examined fibroblasts from a patient with a Parkinson's disease (PD)-associated mutation (fPD) and found selectively decreased 15-HpETE-PE-hydrolyzing activity, 15-HpETE-PE accumulation and elevated sensitivity to ferroptosis. CRISPR-Cas9-engineered Pnpla9 mice exhibited progressive parkinsonian motor deficits and 15-HpETE-PE accumulation. Elevated 15-HpETE-PE levels were also detected in midbrains of rotenone-infused parkinsonian rats and α-synuclein-mutant Snca mice, with decreased iPLAβ expression and a PD-relevant phenotype. Thus, iPLAβ is a new ferroptosis regulator, and its mutations may be implicated in PD pathogenesis.

摘要

铁死亡是由铁、硫醇和脂质的不协调引起的，导致 15-羟基（Hp）-花生四烯酰-磷脂酰乙醇胺（15-HpETE-PE）的积累，由 15-脂氧合酶（15-LOX）和支架蛋白磷脂酰乙醇胺（PE）结合蛋白（PEBP）1 的复合物产生。由于 Ca2+非依赖性磷脂酶 Aβ（iPLAβ，PLA2G6 或 PNPLA9 基因）可以优先水解过氧化物化的磷脂，因此它可能消除铁死亡的 15-HpETE-PE 死亡信号。在这里，我们证明通过水解 15-HpETE-PE，iPLAβ可以避免铁死亡，而其遗传或药理学失活则使细胞对铁死亡敏感。鉴于 PLA2G6 突变与神经退行性变有关，我们检查了一位与帕金森病（PD）相关突变（fPD）相关的患者的成纤维细胞，发现选择性地降低了 15-HpETE-PE 水解活性、15-HpETE-PE 积累以及对铁死亡的敏感性增加。CRISPR-Cas9 工程化的 Pnpla9 小鼠表现出进行性帕金森运动缺陷和 15-HpETE-PE 积累。在鱼藤酮诱导的帕金森大鼠和α-突触核蛋白突变的 Snca 小鼠的中脑中也检测到升高的 15-HpETE-PE 水平，同时 iPLAβ表达降低，表现出与 PD 相关的表型。因此，iPLAβ是一种新的铁死亡调节剂，其突变可能与 PD 的发病机制有关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6d73/8152680/91af66942cd9/nihms-1657286-f0007.jpg

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磷酸酶 iPLAβ 通过消除氧化还原脂质死亡信号来避免铁死亡。

Phospholipase iPLAβ averts ferroptosis by eliminating a redox lipid death signal.

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