Literature DB >> 31464090

RIG-I promotes IFN/JAK2 expression and the endoplasmic reticulum stress response to inhibit chemoradiation resistance in nasopharyngeal carcinoma.

Di Jing1, Weibing Zhou1, Lin Shen1, Qian Zhang2, Wang-Ti Xie3, Erdong Shen3, Zhi Li4, Liang-Fang Shen1, Lun-Quan Sun4.   

Abstract

RIG-I is associated with the occurrence and development of many tumors. However, the role of RIG-I in radiotherapy and chemotherapy in NPC has not been reported to date. In our study, RIG-I expression was significantly reduced in chemoradiotherapy-resistant NPC tissues and cells compared with that in therapy-sensitive tissues and cells. RIG-I expression increased in nonresistant NPC cells, including CNE1 and CNE2, in a dose-dependent manner with increasing chemotherapy drug concentration or radiotherapy dose. RIG-I overexpression promoted radiotherapy and chemotherapy sensitivity in NPC cells, leading to cellular apoptosis and increased expression of the proapoptotic factors BAX and caspase-3. Similarly, RIG-I knockdown in NPC cells promoted chemoradiotherapy resistance and reduced apoptosis. Analysis of microarray data indicated that the expression of IFN/JAK2 and endoplasmic reticulum (ER) stress response markers, such as JAK2, STAT1, IRF9, IFNB1, IRF3, p-IRF3, XBP1, ATF6, IFIT2, and ISG15, was inhibited in chemoradiotherapy-resistant cells compared with that in sensitive cells. Conversely, activation of IFN/JAK2 and ER stress response pathways in NPC cells reduced paclitaxel resistance and increased apoptosis. RIG-I promotes IFN/JAK2 and ER stress response-mediated apoptosis to inhibit chemoradiation resistance in nasopharyngeal carcinoma.
© 2019 The Authors. Cancer Medicine published by John Wiley & Sons Ltd.

Entities:  

Keywords:  IFN/JAK2; RIG-I; apoptosis; endoplasmic reticulum stress; radiotherapy and chemotherapy resistance

Mesh:

Substances:

Year:  2019        PMID: 31464090      PMCID: PMC6797570          DOI: 10.1002/cam4.2501

Source DB:  PubMed          Journal:  Cancer Med        ISSN: 2045-7634            Impact factor:   4.452


  47 in total

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2.  MiR-1204 sensitizes nasopharyngeal carcinoma cells to paclitaxel both in vitro and in vivo.

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Review 4.  Nasopharyngeal carcinoma.

Authors:  Melvin L K Chua; Joseph T S Wee; Edwin P Hui; Anthony T C Chan
Journal:  Lancet       Date:  2015-08-28       Impact factor: 79.321

5.  Prognostic value of multidrug resistance 1, glutathione-S-transferase-pi and p53 in advanced nasopharyngeal carcinoma treated with systemic chemotherapy.

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6.  Paclitaxel with cisplatin in concurrent chemoradiotherapy for locally advanced nasopharyngeal carcinoma.

Authors:  Xia-Yun He; Chao-Su Hu; Hong-Mei Ying; Yong-Ru Wu; Guo-Pei Zhu; Tai-Fu Liu
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Authors:  Sandip N Chakraborty; Xiaohong Leng; Bastianella Perazzona; Xiaoping Sun; Yu-Hsi Lin; Ralph B Arlinghaus
Journal:  Genes Cancer       Date:  2016-05

8.  Dysregulation of the MiR-449b target TGFBI alters the TGFβ pathway to induce cisplatin resistance in nasopharyngeal carcinoma.

Authors:  Pierre-Antoine Bissey; Jacqueline H Law; Jeff P Bruce; Wei Shi; Aline Renoult; Melvin L K Chua; Kenneth W Yip; Fei-Fei Liu
Journal:  Oncogenesis       Date:  2018-05-22       Impact factor: 7.485

9.  Long non-coding RNA ROR promotes proliferation, migration and chemoresistance of nasopharyngeal carcinoma.

Authors:  Li Li; Miao Gu; Bo You; Si Shi; Ying Shan; Lili Bao; Yiwen You
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Authors:  Weilin Xu; Liansheng Gao; Tao Li; Jingwei Zheng; Anwen Shao; Jianmin Zhang
Journal:  Front Mol Neurosci       Date:  2018-05-29       Impact factor: 5.639
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  8 in total

1.  RIG-I promotes IFN/JAK2 expression and the endoplasmic reticulum stress response to inhibit chemoradiation resistance in nasopharyngeal carcinoma.

Authors:  Di Jing; Weibing Zhou; Lin Shen; Qian Zhang; Wang-Ti Xie; Erdong Shen; Zhi Li; Liang-Fang Shen; Lun-Quan Sun
Journal:  Cancer Med       Date:  2019-08-28       Impact factor: 4.452

2.  AZD4547 targets the FGFR/Akt/SOX2 axis to overcome paclitaxel resistance in head and neck cancer.

Authors:  Abdulmelik Aytatli; Neslisah Barlak; Fatma Sanli; Hasan Onur Caglar; Betul Gundogdu; Arzu Tatar; Michael Ittmann; Omer Faruk Karatas
Journal:  Cell Oncol (Dordr)       Date:  2021-11-27       Impact factor: 6.730

3.  Tumor-associated fibroblasts derived exosomes induce the proliferation and cisplatin resistance in esophageal squamous cell carcinoma cells through RIG-I/IFN-β signaling.

Authors:  Yayun Cui; Shu Zhang; Xiaohan Hu; Fei Gao
Journal:  Bioengineered       Date:  2022-05       Impact factor: 6.832

4.  Mesencephalic Astrocyte-Derived Neurotrophic Factor, a Prognostic Factor of Cholangiocarcinoma, Affects Sorafenib Sensitivity of Cholangiocarcinoma Cells by Deteriorating ER Stress.

Authors:  Jingyi He; Guangbing Li; Xihan Liu; Liye Ma; Jiayao Zhang; Shunzhen Zheng; Jianping Wang; Jun Liu
Journal:  Onco Targets Ther       Date:  2020-09-16       Impact factor: 4.147

5.  Endoplasmic reticulum stress confers 5-fluorouracil resistance in breast cancer cell via the GRP78/OCT4/lncRNA MIAT/AKT pathway.

Authors:  Xiaoli Yao; Yi Tu; Yulin Xu; Yueyue Guo; Feng Yao; Xinghua Zhang
Journal:  Am J Cancer Res       Date:  2020-03-01       Impact factor: 6.166

6.  Diagnostic and Prognostic Values of MANF Expression in Hepatocellular Carcinoma.

Authors:  Jingyi He; Guangbing Li; Xihan Liu; Liye Ma; Peng Zhang; Jiayao Zhang; Shunzhen Zheng; Jianping Wang; Jun Liu
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7.  Optimization, Characterization and in vivo Evaluation of Paclitaxel-Loaded Folate-Conjugated Superparamagnetic Iron Oxide Nanoparticles.

Authors:  Gang Gui; Ziqi Fan; Yihuan Ning; Cancan Yuan; Baolin Zhang; Qin Xu
Journal:  Int J Nanomedicine       Date:  2021-03-19

Review 8.  The Role of Genetic Pathways in the Development of Chemoradiation Resistance in Nasopharyngeal Carcinoma (NPC) Patients.

Authors:  Norhafiza Mat Lazim; Che Ismail Che Lah; Wan Khairunnisa Wan Juhari; Sarina Sulong; Bin Alwi Zilfalil; Baharudin Abdullah
Journal:  Genes (Basel)       Date:  2021-11-21       Impact factor: 4.096
  8 in total

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