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由GPx4缺乏诱导的缓慢进行性细胞死亡,是在铁非依赖性脂质过氧化后,通过MEK1/ERK2激活作为下游信号而发生的。

Slowly progressive cell death induced by GPx4-deficiency occurs via MEK1/ERK2 activation as a downstream signal after iron-independent lipid peroxidation.

作者信息

Tsuruta Kahori, Matsuoka Masaki, Harada Shinsaku, Enomoto Ayaka, Kumagai Takeshi, Yasuda Shu, Koumura Tomoko, Yamada Ken-Ichi, Imai Hirotaka

机构信息

Department of Hygienic Chemistry, School of Pharmaceutical Sciences, Kitasato University, 5-9-1 Shirokane, Minato-ku, Tokyo 108-8641, Japan.

Laboratory of Microbiology, School of Pharmaceutical Sciences, Kitasato University, 5-9-1 Shirokane, Minato-ku, Tokyo 108-8641, Japan.

出版信息

J Clin Biochem Nutr. 2024 Mar;74(2):97-107. doi: 10.3164/jcbn.23-101. Epub 2023 Nov 1.

DOI:10.3164/jcbn.23-101
PMID:38510679
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10948347/
Abstract

Glutathione peroxidase 4 (GPx4) is an antioxidant enzyme that reduces phospholipid hydroperoxide. Studies have reported that the loss of GPx4 activity through anticancer drugs leads to ferroptosis, an iron-dependent lipid peroxidation-induced cell death. In this study, we established Tamoxifen-inducible GPx4-deficient Mouse embryonic fibroblast (MEF) cells (ETK1 cells) and found that Tamoxifen-inducible gene disruption of GPx4 induces slow cell death at ~72 h. In contrast, RSL3- or erastin-induced ferroptosis occurred quickly within 24 h. Therefore, we investigated the differences in these mechanisms between GPx4 gene disruption-induced cell death and RSL3- or erastin-induced ferroptosis. We found that GPx4-deficiency induced lipid peroxidation at 24 h in Tamoxifen-treated ETK1 cells, which was not suppressed by iron chelators, although lipid peroxidation in RSL3- or erastin-treated cells induced ferroptosis that was inhibited by iron chelators. We revealed that GPx4-deficient cell death was MEK1-dependent but RSL3- or erastin-induced ferroptosis was not, although MEK1/2 inhibitors suppressed both GPx4-deficient cell death and RSL3- or erastin-induced ferroptosis. In GPx4-deficient cell death, the phosphorylation of MEK1/2 and ERK2 was observed 39 h after lipid peroxidation, but ERK1 was not phosphorylated. Selective inhibitors of ERK2 inhibited GPx4-deficient cell death but not in RSL3- or erastin-induced cell death. These findings suggest that iron-independent lipid peroxidation due to GPx4 disruption induced cell death via the activation of MEK1/ERK2 as a downstream signal of lipid peroxidation in Tamoxifen-treated ETK1 cells. This indicates that GPx4 gene disruption induces slow cell death and involves a different pathway from RSL3- and erastin-induced ferroptosis in ETK1 cells.

摘要

谷胱甘肽过氧化物酶4(GPx4)是一种可还原磷脂氢过氧化物的抗氧化酶。研究报道,通过抗癌药物导致GPx4活性丧失会引发铁死亡,这是一种铁依赖性脂质过氧化诱导的细胞死亡。在本研究中,我们建立了他莫昔芬诱导的GPx4缺陷型小鼠胚胎成纤维细胞(MEF)(ETK1细胞),并发现他莫昔芬诱导的GPx4基因破坏在约72小时时诱导细胞缓慢死亡。相比之下,RSL3或埃拉斯汀诱导的铁死亡在24小时内迅速发生。因此,我们研究了GPx4基因破坏诱导的细胞死亡与RSL3或埃拉斯汀诱导的铁死亡之间这些机制的差异。我们发现,在他莫昔芬处理的ETK1细胞中,GPx4缺陷在24小时时诱导脂质过氧化,铁螯合剂不能抑制这种脂质过氧化,而RSL3或埃拉斯汀处理的细胞中的脂质过氧化诱导的铁死亡可被铁螯合剂抑制。我们发现,GPx4缺陷型细胞死亡依赖MEK1,但RSL3或埃拉斯汀诱导的铁死亡不依赖MEK1,尽管MEK1/2抑制剂可同时抑制GPx4缺陷型细胞死亡以及RSL3或埃拉斯汀诱导的铁死亡。在GPx4缺陷型细胞死亡中,脂质过氧化39小时后观察到MEK1/2和ERK2的磷酸化,但ERK1未被磷酸化。ERK2的选择性抑制剂可抑制GPx4缺陷型细胞死亡,但不能抑制RSL3或埃拉斯汀诱导的细胞死亡。这些发现表明,在他莫昔芬处理的ETK1细胞中,由于GPx4破坏导致的铁非依赖性脂质过氧化通过激活MEK1/ERK2作为脂质过氧化的下游信号诱导细胞死亡。这表明GPx4基因破坏诱导细胞缓慢死亡,并且在ETK1细胞中涉及与RSL3和埃拉斯汀诱导的铁死亡不同的途径。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/60a916296853/jcbn23-101f06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/d14250b0fe75/jcbn23-101f01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/1abd721e6b5f/jcbn23-101f02.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/35458dec24a3/jcbn23-101f04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/263755ba3411/jcbn23-101f05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/60a916296853/jcbn23-101f06.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/d14250b0fe75/jcbn23-101f01.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/1abd721e6b5f/jcbn23-101f02.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/74205137c10a/jcbn23-101f03.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/35458dec24a3/jcbn23-101f04.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/263755ba3411/jcbn23-101f05.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2955/10948347/60a916296853/jcbn23-101f06.jpg

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