Literature DB >> 33558527

Tetraarsenic hexoxide enhances generation of mitochondrial ROS to promote pyroptosis by inducing the activation of caspase-3/GSDME in triple-negative breast cancer cells.

Haein An1,2, Jin Sun Heo1, Pyunggang Kim1,3, Zenglin Lian4, Siyoung Lee1, Jinah Park1, Eunji Hong1,2, Kyoungwha Pang1, Yuna Park1, Akira Ooshima1, Jihee Lee1,3, Minjung Son1, Hyeyeon Park1,2, Zhaoyan Wu5, Kyung-Soon Park3, Seong-Jin Kim1,6,7, Illju Bae8, Kyung-Min Yang9,10.   

Abstract

Although tetraarsenic hexoxide is known to exert an anti-tumor effect by inducing apoptosis in various cancer cells, its effect on other forms of regulated cell death remains unclear. Here, we show that tetraarsenic hexoxide induces the pyroptotic cell death through activation of mitochondrial reactive oxygen species (ROS)-mediated caspase-3/gasdermin E (GSDME) pathway, thereby suppressing tumor growth and metastasis of triple-negative breast cancer (TNBC) cells. Interestingly, tetraarsenic hexoxide-treated TNBC cells exhibited specific pyroptotic characteristics, including cell swelling, balloon-like bubbling, and LDH releases through pore formation in the plasma membrane, eventually suppressing tumor formation and lung metastasis of TNBC cells. Mechanistically, tetraarsenic hexoxide markedly enhanced the production of mitochondrial ROS by inhibiting phosphorylation of mitochondrial STAT3, subsequently inducing caspase-3-dependent cleavage of GSDME, which consequently promoted pyroptotic cell death in TNBC cells. Collectively, our findings highlight tetraarsenic hexoxide-induced pyroptosis as a new therapeutic strategy that may inhibit cancer progression of TNBC cells.

Entities:  

Year:  2021        PMID: 33558527      PMCID: PMC7870965          DOI: 10.1038/s41419-021-03454-9

Source DB:  PubMed          Journal:  Cell Death Dis            Impact factor:   8.469


  34 in total

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Journal:  N Engl J Med       Date:  2010-11-11       Impact factor: 91.245

2.  Caspase-11 cleaves gasdermin D for non-canonical inflammasome signalling.

Authors:  Nobuhiko Kayagaki; Irma B Stowe; Bettina L Lee; Karen O'Rourke; Keith Anderson; Søren Warming; Trinna Cuellar; Benjamin Haley; Merone Roose-Girma; Qui T Phung; Peter S Liu; Jennie R Lill; Hong Li; Jiansheng Wu; Sarah Kummerfeld; Juan Zhang; Wyne P Lee; Scott J Snipas; Guy S Salvesen; Lucy X Morris; Linda Fitzgerald; Yafei Zhang; Edward M Bertram; Christopher C Goodnow; Vishva M Dixit
Journal:  Nature       Date:  2015-09-16       Impact factor: 49.962

3.  Stress-induced dynamic regulation of mitochondrial STAT3 and its association with cyclophilin D reduce mitochondrial ROS production.

Authors:  Jeremy A Meier; Moonjung Hyun; Marc Cantwell; Ali Raza; Claudia Mertens; Vidisha Raje; Jennifer Sisler; Erin Tracy; Sylvia Torres-Odio; Suzana Gispert; Peter E Shaw; Heinz Baumann; Dipankar Bandyopadhyay; Kazuaki Takabe; Andrew C Larner
Journal:  Sci Signal       Date:  2017-03-28       Impact factor: 8.192

4.  Inhibition of permeability transition pore opening by mitochondrial STAT3 and its role in myocardial ischemia/reperfusion.

Authors:  Kerstin Boengler; Denise Hilfiker-Kleiner; Gerd Heusch; Rainer Schulz
Journal:  Basic Res Cardiol       Date:  2010-10-20       Impact factor: 17.165

5.  Comparison of diarsenic oxide and tetraarsenic oxide on anticancer effects: relation to the apoptosis molecular pathway.

Authors:  Hong-Seok Chang; Su-Mi Bae; Yong-Wan Kim; Sun-Young Kwak; Hyun-Jin Min; Il-Ju Bae; Young-Joo Lee; Jong-Chul Shin; Chong-Kook Kim; Woong-Shick Ahn
Journal:  Int J Oncol       Date:  2007-05       Impact factor: 5.650

6.  STAT3-mediated autophagy dependence identifies subtypes of breast cancer where autophagy inhibition can be efficacious.

Authors:  Paola Maycotte; Christy M Gearheart; Rebecca Barnard; Suraj Aryal; Jean M Mulcahy Levy; Susan P Fosmire; Ryan J Hansen; Michael J Morgan; Christopher C Porter; Daniel L Gustafson; Andrew Thorburn
Journal:  Cancer Res       Date:  2014-03-03       Impact factor: 12.701

7.  Tetra-arsenic oxide (Tetras) enhances radiation sensitivity of solid tumors by anti-vascular effect.

Authors:  Sae-Gwang Park; Jeong-Joo Jung; Hae Jeong Won; Mi Seon Kang; Su-Kil Seo; Il-Whan Choi; Choong Ki Eun; Ki Jung Ahn; Cheol Woo Park; Soo-Woong Lee; Young S Lew; Ill-Ju Bae; In-Hak Choi
Journal:  Cancer Lett       Date:  2009-01-19       Impact factor: 8.679

8.  Cleavage of DFNA5 by caspase-3 during apoptosis mediates progression to secondary necrotic/pyroptotic cell death.

Authors:  Corey Rogers; Teresa Fernandes-Alnemri; Lindsey Mayes; Diana Alnemri; Gino Cingolani; Emad S Alnemri
Journal:  Nat Commun       Date:  2017-01-03       Impact factor: 14.919

9.  Cleavage of GSDME by caspase-3 determines lobaplatin-induced pyroptosis in colon cancer cells.

Authors:  Junhui Yu; Shan Li; Jie Qi; Zilu Chen; Yunhua Wu; Jing Guo; Kai Wang; Xuejun Sun; Jianbao Zheng
Journal:  Cell Death Dis       Date:  2019-02-25       Impact factor: 8.469

Review 10.  Recent advances in triple negative breast cancer: the immunotherapy era.

Authors:  Antonio Marra; Giulia Viale; Giuseppe Curigliano
Journal:  BMC Med       Date:  2019-05-09       Impact factor: 8.775
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  24 in total

1.  Liraglutide Ameliorates Cerebral Ischemia in Mice via Antipyroptotic Pathways.

Authors:  Lan Yang; Junmin Cheng; Guang Shi; Cong Zhang; Yuanyuan Du; Linyu Chen; Huimin Qiao; Rong Chen; Xiangjian Zhang
Journal:  Neurochem Res       Date:  2022-03-29       Impact factor: 3.996

2.  Cyclin-Dependent Kinase Inhibitors Function as Potential Immune Regulators via Inducing Pyroptosis in Triple Negative Breast Cancer.

Authors:  Tao Xu; Zhen Wang; Jiahao Liu; Ge Wang; Dongchen Zhou; Yaying Du; Xingrui Li; Yu Xia; Qinglei Gao
Journal:  Front Oncol       Date:  2022-06-08       Impact factor: 5.738

3.  Identification of the pyroptosis-related prognostic gene signature and characterization of tumor microenvironment infiltration in triple-negative breast cancer.

Authors:  Ji Liu; Jianli Ma; Qingyuan Zhang
Journal:  Front Genet       Date:  2022-08-25       Impact factor: 4.772

4.  Germacrone induces caspase-3/GSDME activation and enhances ROS production, causing HepG2 pyroptosis.

Authors:  Xinfeng Sun; Xin Zhong; Wenfeng Ma; Wenxing Feng; Qi Huang; Mengqing Ma; Minling Lv; Rui Hu; Zhiyi Han; Jing Li; Xiaozhou Zhou
Journal:  Exp Ther Med       Date:  2022-05-20       Impact factor: 2.751

5.  Osthole Induces Apoptosis and Caspase-3/GSDME-Dependent Pyroptosis via NQO1-Mediated ROS Generation in HeLa Cells.

Authors:  Juan Wang; Mengjie Huangfu; Xiaojuan Li; Mengjie Han; Guoxiang Liu; Dan Yu; Luwei Zhou; Tong Dou; Yisa Liu; Xiao Guan; Riming Wei; Xu Chen
Journal:  Oxid Med Cell Longev       Date:  2022-06-08       Impact factor: 7.310

Review 6.  Pyroptosis, metabolism, and tumor immune microenvironment.

Authors:  Tiantian Du; Jie Gao; Peilong Li; Yunshan Wang; Qiuchen Qi; Xiaoyan Liu; Juan Li; Chuanxin Wang; Lutao Du
Journal:  Clin Transl Med       Date:  2021-08

Review 7.  Targeting Reactive Oxygen Species Capacity of Tumor Cells with Repurposed Drug as an Anticancer Therapy.

Authors:  Jiabing Wang; Dongsheng Sun; Lili Huang; Shijian Wang; Yong Jin
Journal:  Oxid Med Cell Longev       Date:  2021-09-07       Impact factor: 6.543

8.  Identification of pyroptosis-related lncRNAs for constructing a prognostic model and their correlation with immune infiltration in breast cancer.

Authors:  Wenchang Lv; Yufang Tan; Chongru Zhao; Yichen Wang; Min Wu; Yiping Wu; Yuping Ren; Qi Zhang
Journal:  J Cell Mol Med       Date:  2021-10-10       Impact factor: 5.310

9.  Comprehensive Analysis of Pyroptosis-Associated in Molecular Classification, Immunity and Prognostic of Glioma.

Authors:  Peng Chen; Yanyan Li; Na Li; Liangfang Shen; Zhanzhan Li
Journal:  Front Genet       Date:  2022-01-07       Impact factor: 4.599

10.  Long non‑coding RNA nuclear paraspeckle assembly transcript 1 regulates ionizing radiation‑induced pyroptosis via microRNA‑448/gasdermin E in colorectal cancer cells.

Authors:  Fei Su; Junzhao Duan; Jie Zhu; Hanjiang Fu; Xiaofei Zheng; Changhui Ge
Journal:  Int J Oncol       Date:  2021-09-03       Impact factor: 5.650
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