Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis

Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis

Abstract Background Platinum‐based chemotherapy is effective in inducing shrinkage of primary lung cancer lesions; however, it shows finite therapeutic efficacy in patients suffering from brain metastasis (BM). The intrinsic changes of BM cells, which contribute to the poor results remain unknown. M...

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Main Authors: Wenwen Liu, Yang Zhou, Wenzhe Duan, Jing Song, Song Wei, Shengkai Xia, Yingyan Wang, Xiaohui Du, Encheng Li, Caixia Ren, Wei Wang, Qimin Zhan, Qi Wang
Format: Article
Language:English
Published: Wiley 2021-09-01
Series:Clinical and Translational Medicine
Subjects:
brain metastasis
chemotherapeutic resistance
ferroptosis
glutathione metabolism
GPX4 inhibitor
lung cancer
Online Access:https://doi.org/10.1002/ctm2.517
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spelling doaj-79caf3b7d343462394b0bdca71b518fb2021-09-29T12:10:39ZengWileyClinical and Translational Medicine2001-13262021-09-01119n/an/a10.1002/ctm2.517Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasisWenwen Liu0Yang Zhou1Wenzhe Duan2Jing Song3Song Wei4Shengkai Xia5Yingyan Wang6Xiaohui Du7Encheng Li8Caixia Ren9Wei Wang10Qimin Zhan11Qi Wang12Cancer Translational Medicine Research Center, The Second Hospital Dalian Medical University Dalian ChinaLiaoning Clinical Research Center for Lung Cancer, The Second Hospital Dalian Medical University Dalian ChinaDepartment of Respiratory Medicine, The Second Hospital Dalian Medical University Dalian ChinaDepartment of Respiratory Medicine, The Second Hospital Dalian Medical University Dalian ChinaDepartment of Respiratory Medicine, The Second Hospital Dalian Medical University Dalian ChinaDepartment of Respiratory Medicine, The Second Hospital Dalian Medical University Dalian ChinaLaboratory Center for Diagnostics Dalian Medical University Dalian ChinaLiaoning Clinical Research Center for Lung Cancer, The Second Hospital Dalian Medical University Dalian ChinaDepartment of Respiratory Medicine, The Second Hospital Dalian Medical University Dalian ChinaDepartment of Respiratory Medicine, The Second Hospital Dalian Medical University Dalian ChinaInstitute of Microelectronics Peking University Beijing ChinaKey Laboratory of Carcinogenesis and Translational Research (Ministry of Education/Beijing), Laboratory of Molecular Oncology Peking University Cancer Hospital & Institute Beijing ChinaCancer Translational Medicine Research Center, The Second Hospital Dalian Medical University Dalian ChinaAbstract Background Platinum‐based chemotherapy is effective in inducing shrinkage of primary lung cancer lesions; however, it shows finite therapeutic efficacy in patients suffering from brain metastasis (BM). The intrinsic changes of BM cells, which contribute to the poor results remain unknown. Methods Platinum drug‐sensitivity was assessed by utilizing a preclinical BM model of PC9 lung adenocarcinoma cells in vitro and in vivo. High consumption of glutathione (GSH) and two associated upregulated proteins (GPX4 and GSTM1) in BM were identified by integrated metabolomics and proteomics in cell lines and verified by clinical serum sample. Gain‐of‐function and rescue experiments were implemented to reveal the impact and mechanism of GPX4 and GSTM1 on the chemosensitivity in BM. The interaction between GPX4 and GSTM1 was examined by immunoblotting and immunoprecipitation. The mechanism of upregulation of GPX4 was further uncovered by luciferase reporter assay, immunoprecipitation, and electrophoretic mobility shift assay. Results The derivative brain metastatic subpopulations (PC9‐BrMs) of parental cells PC9 developed obvious resistance to platinum. Radically altered profiles of BM metabolism and protein expression compared with primary lung cancer cells were described and GPX4 and GSTM1 were identified as being responsible for the high consumption of GSH, leading to decreased chemosensitivity by negatively regulating ferroptosis. Besides, GSTM1 was found regulated by GPX4, which was transcriptionally activated by the Wnt/NR2F2 signaling axis in BM. Conclusions Collectively, our findings demonstrated that Wnt/NR2F2/GPX4 promoted acquired chemoresistance by suppressing ferroptosis with high consumption of GSH. GPX4 inhibitor was found to augment the anticancer effect of platinum drugs in lung cancer BM, providing novel strategies for lung cancer patients with BM.https://doi.org/10.1002/ctm2.517brain metastasischemotherapeutic resistanceferroptosisglutathione metabolismGPX4 inhibitorlung cancer
collection DOAJ
language English
format Article
sources DOAJ
author Wenwen Liu
Yang Zhou
Wenzhe Duan
Jing Song
Song Wei
Shengkai Xia
Yingyan Wang
Xiaohui Du
Encheng Li
Caixia Ren
Wei Wang
Qimin Zhan
Qi Wang
spellingShingle Wenwen Liu
Yang Zhou
Wenzhe Duan
Jing Song
Song Wei
Shengkai Xia
Yingyan Wang
Xiaohui Du
Encheng Li
Caixia Ren
Wei Wang
Qimin Zhan
Qi Wang
Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis
Clinical and Translational Medicine
brain metastasis
chemotherapeutic resistance
ferroptosis
glutathione metabolism
GPX4 inhibitor
lung cancer
author_facet Wenwen Liu
Yang Zhou
Wenzhe Duan
Jing Song
Song Wei
Shengkai Xia
Yingyan Wang
Xiaohui Du
Encheng Li
Caixia Ren
Wei Wang
Qimin Zhan
Qi Wang
author_sort Wenwen Liu
title Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis
title_short Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis
title_full Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis
title_fullStr Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis
title_full_unstemmed Glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis
title_sort glutathione peroxidase 4‐dependent glutathione high‐consumption drives acquired platinum chemoresistance in lung cancer‐derived brain metastasis
publisher Wiley
series Clinical and Translational Medicine
issn 2001-1326
publishDate 2021-09-01
description Abstract Background Platinum‐based chemotherapy is effective in inducing shrinkage of primary lung cancer lesions; however, it shows finite therapeutic efficacy in patients suffering from brain metastasis (BM). The intrinsic changes of BM cells, which contribute to the poor results remain unknown. Methods Platinum drug‐sensitivity was assessed by utilizing a preclinical BM model of PC9 lung adenocarcinoma cells in vitro and in vivo. High consumption of glutathione (GSH) and two associated upregulated proteins (GPX4 and GSTM1) in BM were identified by integrated metabolomics and proteomics in cell lines and verified by clinical serum sample. Gain‐of‐function and rescue experiments were implemented to reveal the impact and mechanism of GPX4 and GSTM1 on the chemosensitivity in BM. The interaction between GPX4 and GSTM1 was examined by immunoblotting and immunoprecipitation. The mechanism of upregulation of GPX4 was further uncovered by luciferase reporter assay, immunoprecipitation, and electrophoretic mobility shift assay. Results The derivative brain metastatic subpopulations (PC9‐BrMs) of parental cells PC9 developed obvious resistance to platinum. Radically altered profiles of BM metabolism and protein expression compared with primary lung cancer cells were described and GPX4 and GSTM1 were identified as being responsible for the high consumption of GSH, leading to decreased chemosensitivity by negatively regulating ferroptosis. Besides, GSTM1 was found regulated by GPX4, which was transcriptionally activated by the Wnt/NR2F2 signaling axis in BM. Conclusions Collectively, our findings demonstrated that Wnt/NR2F2/GPX4 promoted acquired chemoresistance by suppressing ferroptosis with high consumption of GSH. GPX4 inhibitor was found to augment the anticancer effect of platinum drugs in lung cancer BM, providing novel strategies for lung cancer patients with BM.
topic brain metastasis
chemotherapeutic resistance
ferroptosis
glutathione metabolism
GPX4 inhibitor
lung cancer
url https://doi.org/10.1002/ctm2.517
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