Literature DB >> 27090797

HDAC6-mediated EGFR stabilization and activation restrict cell response to sorafenib in non-small cell lung cancer cells.

Zhihao Wang1,2, Pengchao Hu3, Fang Tang1,2, Conghua Xie4,5.   

Abstract

Sorafenib is a multi-targeted kinase inhibitor and has been the subject of extensive clinical research in advanced non-small cell lung cancer (NSCLC). However, sorafenib fails to improve overall survival of patients with advanced NSCLC. The molecular mechanisms that account for this phenomenon are unclear. Here we show that sorafenib treatment stabilizes epidermal growth factor receptor (EGFR) and activates EGFR pathway. Moreover, this is partly mediated by stabilization of histone deacetylase 6 (HDAC6), which has been shown to regulate EGFR endocytic trafficking and degradation. Overexpression of HDAC6 confers resistance to sorafenib in NSCLC cells. Inhibition of HDAC6 with selective inhibitors synergizes with sorafenib to kill NSCLC cells via inhibition of sorafenib-mediated EGFR pathway activation. Taken together, our findings might partly explain the failure of Phase III trial of sorafenib in improving overall survival of advanced NSCLC patients and bear possible implications for the improvement on the efficacy of sorafenib in treatment of NSCLC.

Entities:  

Keywords:  EGFR; HDAC6; NSCLC; Sorafenib

Mesh:

Substances:

Year:  2016        PMID: 27090797     DOI: 10.1007/s12032-016-0765-5

Source DB:  PubMed          Journal:  Med Oncol        ISSN: 1357-0560            Impact factor:   3.064


  34 in total

1.  Proteomics. Tissue-based map of the human proteome.

Authors:  Mathias Uhlén; Linn Fagerberg; Björn M Hallström; Cecilia Lindskog; Per Oksvold; Adil Mardinoglu; Åsa Sivertsson; Caroline Kampf; Evelina Sjöstedt; Anna Asplund; IngMarie Olsson; Karolina Edlund; Emma Lundberg; Sanjay Navani; Cristina Al-Khalili Szigyarto; Jacob Odeberg; Dijana Djureinovic; Jenny Ottosson Takanen; Sophia Hober; Tove Alm; Per-Henrik Edqvist; Holger Berling; Hanna Tegel; Jan Mulder; Johan Rockberg; Peter Nilsson; Jochen M Schwenk; Marica Hamsten; Kalle von Feilitzen; Mattias Forsberg; Lukas Persson; Fredric Johansson; Martin Zwahlen; Gunnar von Heijne; Jens Nielsen; Fredrik Pontén
Journal:  Science       Date:  2015-01-23       Impact factor: 47.728

2.  A kinase-independent role for EGF receptor in autophagy initiation.

Authors:  Xiaojun Tan; Narendra Thapa; Yue Sun; Richard A Anderson
Journal:  Cell       Date:  2015-01-15       Impact factor: 41.582

Review 3.  Sorafenib: from literature to clinical practice.

Authors:  V Di Marco; F De Vita; J Koskinas; D Semela; P Toniutto; C Verslype
Journal:  Ann Oncol       Date:  2013-04       Impact factor: 32.976

4.  HDAC6 inhibition restores ciliary expression and decreases tumor growth.

Authors:  Sergio A Gradilone; Brynn N Radtke; Pamela S Bogert; Bing Q Huang; Gabriella B Gajdos; Nicholas F LaRusso
Journal:  Cancer Res       Date:  2013-01-31       Impact factor: 12.701

5.  HDAC6 activity is not required for basal autophagic flux in metastatic prostate cancer cells.

Authors:  Gregory W Watson; Samanthi Wickramasekara; Yufeng Fang; Claudia S Maier; David E Williams; Roderick H Dashwood; Viviana I Perez; Emily Ho
Journal:  Exp Biol Med (Maywood)       Date:  2015-12-06

6.  HDAC6 controls autophagosome maturation essential for ubiquitin-selective quality-control autophagy.

Authors:  Joo-Yong Lee; Hiroshi Koga; Yoshiharu Kawaguchi; Waixing Tang; Esther Wong; Ya-Sheng Gao; Udai B Pandey; Susmita Kaushik; Emily Tresse; Jianrong Lu; J Paul Taylor; Ana Maria Cuervo; Tso-Pang Yao
Journal:  EMBO J       Date:  2010-01-14       Impact factor: 11.598

7.  Comprehensive biomarker analysis and final efficacy results of sorafenib in the BATTLE trial.

Authors:  George R Blumenschein; Pierre Saintigny; Suyu Liu; Edward S Kim; Anne S Tsao; Roy S Herbst; Christine Alden; J Jack Lee; Ximing Tang; David J Stewart; Merrill S Kies; Frank V Fossella; Hai T Tran; L Mao; Marshall E Hicks; Jeremy Erasmus; Sanjay Gupta; Luc Girard; Michael Peyton; Lixia Diao; Jing Wang; Suzanne E Davis; John D Minna; Ignacio Wistuba; Waun K Hong; John V Heymach; Scott M Lippman
Journal:  Clin Cancer Res       Date:  2013-10-28       Impact factor: 12.531

8.  Use of the nitrile oxide cycloaddition (NOC) reaction for molecular probe generation: a new class of enzyme selective histone deacetylase inhibitors (HDACIs) showing picomolar activity at HDAC6.

Authors:  Alan P Kozikowski; Subhasish Tapadar; Doris N Luchini; Ki Hwan Kim; Daniel D Billadeau
Journal:  J Med Chem       Date:  2008-07-22       Impact factor: 7.446

9.  Proteomic identification and functional characterization of MYH9, Hsc70, and DNAJA1 as novel substrates of HDAC6 deacetylase activity.

Authors:  Linlin Zhang; Shanshan Liu; Ningning Liu; Yong Zhang; Min Liu; Dengwen Li; Edward Seto; Tso-Pang Yao; Wenqing Shui; Jun Zhou
Journal:  Protein Cell       Date:  2014-10-15       Impact factor: 14.870

10.  Histone deacetylase 6 and cytoplasmic linker protein 170 function together to regulate the motility of pancreatic cancer cells.

Authors:  Dengwen Li; Xiaodong Sun; Linlin Zhang; Bing Yan; Songbo Xie; Ruming Liu; Min Liu; Jun Zhou
Journal:  Protein Cell       Date:  2014-01-29       Impact factor: 14.870
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  10 in total

Review 1.  Targeting epigenetic regulators for cancer therapy: mechanisms and advances in clinical trials.

Authors:  Yuan Cheng; Cai He; Manni Wang; Xuelei Ma; Fei Mo; Shengyong Yang; Junhong Han; Xiawei Wei
Journal:  Signal Transduct Target Ther       Date:  2019-12-17

2.  Silencing of HDAC6 as a therapeutic target in chronic lymphocytic leukemia.

Authors:  Kamira Maharaj; John J Powers; Alex Achille; Susan Deng; Renee Fonseca; Mibel Pabon-Saldana; Steven N Quayle; Simon S Jones; Alejandro Villagra; Eduardo M Sotomayor; Eva Sahakian; Javier Pinilla-Ibarz
Journal:  Blood Adv       Date:  2018-11-13

Review 3.  Targeting epigenetic regulators for cancer therapy: mechanisms and advances in clinical trials.

Authors:  Yuan Cheng; Cai He; Manni Wang; Xuelei Ma; Fei Mo; Shengyong Yang; Junhong Han; Xiawei Wei
Journal:  Signal Transduct Target Ther       Date:  2019-12-17

4.  Study of the expression and function of ACY1 in patients with colorectal cancer.

Authors:  Bing Yu; Xuezhong Liu; Xiuzhen Cao; Mingyue Zhang; Hong Chang
Journal:  Oncol Lett       Date:  2017-02-08       Impact factor: 2.967

5.  MicroRNA-22 represses glioma development via activation of macrophage-mediated innate and adaptive immune responses.

Authors:  Jiajie Tu; Yilong Fang; Dafei Han; Xuewen Tan; Zhen Xu; Haifeng Jiang; Xinming Wang; Wenming Hong; Wei Wei
Journal:  Oncogene       Date:  2022-03-12       Impact factor: 9.867

6.  Requirement of HDAC6 for activation of Notch1 by TGF-β1.

Authors:  Brian Deskin; Joseph Lasky; Yan Zhuang; Bin Shan
Journal:  Sci Rep       Date:  2016-08-08       Impact factor: 4.379

7.  Analysis of origin and protein-protein interaction maps suggests distinct oncogenic role of nuclear EGFR during cancer evolution.

Authors:  Ainur Sharip; Diyora Abdukhakimova; Xiao Wang; Alexey Kim; Yevgeniy Kim; Aigul Sharip; Askarbek Orakov; Lixia Miao; Qinglei Sun; Yue Chen; Zhenbang Chen; Yingqiu Xie
Journal:  J Cancer       Date:  2017-03-12       Impact factor: 4.207

Review 8.  Targeting HDAC6 to Overcome Autophagy-Promoted Anti-Cancer Drug Resistance.

Authors:  Hyein Jo; Kyeonghee Shim; Dooil Jeoung
Journal:  Int J Mol Sci       Date:  2022-08-24       Impact factor: 6.208

Review 9.  The emerging role of microRNAs and long noncoding RNAs in drug resistance of hepatocellular carcinoma.

Authors:  Ling Wei; Xingwu Wang; Liyan Lv; Jibing Liu; Huaixin Xing; Yemei Song; Mengyu Xie; Tianshui Lei; Nasha Zhang; Ming Yang
Journal:  Mol Cancer       Date:  2019-10-25       Impact factor: 27.401

10.  Structure-based prediction of HDAC6 substrates validated by enzymatic assay reveals determinants of promiscuity and detects new potential substrates.

Authors:  Julia K Varga; Kelsey Diffley; Katherine R Welker Leng; Carol A Fierke; Ora Schueler-Furman
Journal:  Sci Rep       Date:  2022-02-02       Impact factor: 4.379
  10 in total

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