Literature DB >> 31598398

UCHL3 promotes pancreatic cancer progression and chemo-resistance through FOXM1 stabilization.

Zhiwang Song1, Junhe Li1, Ling Zhang1, Jun Deng1, Ziling Fang1, Xiaojun Xiang1, Jianping Xiong1.   

Abstract

The dysregulation of deubiquitinating enzymes has been reported to be important in the development of many human cancers, including pancreatic cancer. However, the precise role and potential mechanism of action of the deubiquitinating enzyme UCHL3 in pancreatic cancer progression and chemo-resistance, are poorly elucidated. In the current study, the consequences of UCHL3 knockdown in pancreatic cancer cells were evaluated via cell viability and colony formation assays. In vivo experiments were also conducted to confirm the effect of UCHL3 and FOXM1 depletion on tumor growth in nude mouse xenograft models. Cell migration and invasion were assessed by wound-healing and transwell assays, respectively. Co-immunoprecipitation (co-IP) and in vitro deubiquitination assays were performed to investigate the interactions between UCHL3 and FOXM1. Immunohistochemical (IHC) staining was utilized to examine the expression of UCHL3 and FOXM1 in pancreatic cancer tissues. Our results demonstrate that UCHL3 deubiquitinated and stabilized FOXM1, thereby potentiating proliferation, migration, and invasion of pancreatic cancer cells. Furthermore, knockdown of UCHL3 increased FOXM1 ubiquitination, which enhanced FOXM1 turnover and promoted pancreatic cancer cells' sensitivity to gemcitabine. High UCHL3 expression was positively associated with FOXM1 expression level in pancreatic cancer patient samples. Collectively, our study established the UCHL3-FOXM1 axis as a pivotal driver of pancreatic cancer progression and gemcitabine resistance and provided evidence for the potential therapeutic benefit of targeting the UCHL3-FOXM1 axis for pancreatic cancer treatment. AJCR
Copyright © 2019.

Entities:  

Keywords:  FOXM1; UCHL3; chemo-resistance; pancreatic cancer; tumorigenesis

Year:  2019        PMID: 31598398      PMCID: PMC6780670     

Source DB:  PubMed          Journal:  Am J Cancer Res        ISSN: 2156-6976            Impact factor:   6.166


  44 in total

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2.  Silencing of FOXM1 transcription factor expression by adenovirus-mediated RNA interference inhibits human hepatocellular carcinoma growth.

Authors:  T Chen; J Xiong; C Yang; L Shan; G Tan; L Yu; Y Tan
Journal:  Cancer Gene Ther       Date:  2014-02-28       Impact factor: 5.987

3.  Ubiquitin C-terminal hydrolase-L3 regulates EMT process and cancer metastasis in prostate cell lines.

Authors:  Hyun Min Song; Jae Eun Lee; Jung Hwa Kim
Journal:  Biochem Biophys Res Commun       Date:  2014-09-04       Impact factor: 3.575

4.  Plk1-dependent phosphorylation of FoxM1 regulates a transcriptional programme required for mitotic progression.

Authors:  Zheng Fu; Liviu Malureanu; Jun Huang; Wei Wang; Hao Li; Jan M van Deursen; Donald J Tindall; Junjie Chen
Journal:  Nat Cell Biol       Date:  2008-09       Impact factor: 28.824

Review 5.  Pancreatic cancer.

Authors:  Terumi Kamisawa; Laura D Wood; Takao Itoi; Kyoichi Takaori
Journal:  Lancet       Date:  2016-01-30       Impact factor: 79.321

6.  FoxM1 drives ADAM17/EGFR activation loop to promote mesenchymal transition in glioblastoma.

Authors:  Chunli Zhang; Xiu Han; Xiao Xu; Zhengrong Zhou; Xi Chen; Yu Tang; Jie Cheng; Nida Fatima Moazzam; Fei Liu; Jing Xu; Wanxin Peng; Fengyi Du; Bin Zhang; Zhiwen Song; Jian Zeng; Aihua Gong
Journal:  Cell Death Dis       Date:  2018-05-01       Impact factor: 8.469

7.  Tp53 Mutation Inhibits Ubiquitination and Degradation of WISP1 via Down-Regulation of Siah1 in Pancreatic Carcinogenesis.

Authors:  Wei Wu; Xu Liu; Lumin Wei; Tong Li; Yi Zang; Yuting Qian; Tingting Bai; Juanjuan Li; Mingping Xie; Ying Zhu; Qi Wang; Lifu Wang
Journal:  Front Pharmacol       Date:  2018-08-03       Impact factor: 5.810

8.  An intrinsic S/G2 checkpoint enforced by ATR.

Authors:  Joshua C Saldivar; Stephan Hamperl; Michael J Bocek; Mingyu Chung; Thomas E Bass; Fernanda Cisneros-Soberanis; Kumiko Samejima; Linfeng Xie; James R Paulson; William C Earnshaw; David Cortez; Tobias Meyer; Karlene A Cimprich
Journal:  Science       Date:  2018-08-24       Impact factor: 47.728

Review 9.  FOXM1 in sarcoma: role in cell cycle, pluripotency genes and stem cell pathways.

Authors:  Fergal C Kelleher; Hazel O'Sullivan
Journal:  Oncotarget       Date:  2016-07-05

10.  RNF168 cooperates with RNF8 to mediate FOXM1 ubiquitination and degradation in breast cancer epirubicin treatment.

Authors:  M Kongsema; S Zona; U Karunarathna; E Cabrera; E P S Man; S Yao; A Shibakawa; U-S Khoo; R H Medema; R Freire; E W-F Lam
Journal:  Oncogenesis       Date:  2016-08-15       Impact factor: 7.485
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  12 in total

1.  c-FLIP promotes drug resistance in non-small-cell lung cancer cells via upregulating FoxM1 expression.

Authors:  Wen-Die Wang; Yue Shang; Chen Wang; Jun Ni; Ai-Min Wang; Gao-Jie Li; Ling Su; Shu-Zhen Chen
Journal:  Acta Pharmacol Sin       Date:  2022-04-14       Impact factor: 6.150

2.  Knockdown of UCHL3 inhibits esophageal squamous cell carcinoma progression by reducing CRY2 methylation.

Authors:  Jijun Xue; Jinyuan Yi; Xiaolong Zhu
Journal:  Hum Cell       Date:  2022-01-28       Impact factor: 4.174

3.  FAT10 promotes chemotherapeutic resistance in pancreatic cancer by inducing epithelial-mesenchymal transition via stabilization of FOXM1 expression.

Authors:  Jinfeng Zhu; Jiefeng Zhao; Chen Luo; Zhengming Zhu; Xingyu Peng; Xiaojian Zhu; Kang Lin; Fanqin Bu; Wenjun Zhang; Qing Li; Kai Wang; Zhigang Hu; Xin Yu; Leifeng Chen; Rongfa Yuan
Journal:  Cell Death Dis       Date:  2022-05-25       Impact factor: 9.685

4.  The Orexin-A/OX1R System Induces Cell Death in Pancreatic Cancer Cells Resistant to Gemcitabine and Nab-Paclitaxel Treatment.

Authors:  Thierry Voisin; Pascal Nicole; Valérie Gratio; Anaïs Chassac; Dounia Mansour; Vinciane Rebours; Anne Couvelard; Alain Couvineau
Journal:  Front Oncol       Date:  2022-06-07       Impact factor: 5.738

5.  UCHL3 promotes aerobic glycolysis of pancreatic cancer through upregulating LDHA expression.

Authors:  Y Fan; D Hu; D Li; C Ma; Y Tang; Q Tao; L Deng; D Tang
Journal:  Clin Transl Oncol       Date:  2021-02-22       Impact factor: 3.405

6.  HDAC class I inhibitor domatinostat sensitizes pancreatic cancer to chemotherapy by targeting cancer stem cell compartment via FOXM1 modulation.

Authors:  Alessandra Leone; Alfredo Budillon; Maria Serena Roca; Tania Moccia; Federica Iannelli; Cristina Testa; Carlo Vitagliano; Michele Minopoli; Rosa Camerlingo; Giulia De Riso; Rossella De Cecio; Francesca Bruzzese; Mariarosaria Conte; Lucia Altucci; Elena Di Gennaro; Antonio Avallone
Journal:  J Exp Clin Cancer Res       Date:  2022-03-03

Review 7.  Impact of posttranslational modifications in pancreatic carcinogenesis and treatments.

Authors:  Nianhong Chen; Qiaoqiao Zheng; Guoqing Wan; Feng Guo; Xiaobin Zeng; Ping Shi
Journal:  Cancer Metastasis Rev       Date:  2021-08-03       Impact factor: 9.264

8.  Engineered unnatural ubiquitin for optimal detection of deubiquitinating enzymes.

Authors:  Wioletta Rut; Mikolaj Zmudzinski; Scott J Snipas; Miklos Bekes; Tony T Huang; Marcin Drag
Journal:  Chem Sci       Date:  2020-05-27       Impact factor: 9.825

9.  Rational Development and Characterization of a Ubiquitin Variant with Selectivity for Ubiquitin C-Terminal Hydrolase L3.

Authors:  Chad S Hewitt; Chittaranjan Das; Daniel P Flaherty
Journal:  Biomolecules       Date:  2022-01-01

10.  Repurposing the Pathogen Box compounds for identification of potent anti-malarials against blood stages of Plasmodium falciparum with PfUCHL3 inhibitory activity.

Authors:  Hina Bharti; Aakriti Singal; Manisha Saini; Pradeep Singh Cheema; Mohsin Raza; Suman Kundu; Alo Nag
Journal:  Sci Rep       Date:  2022-01-18       Impact factor: 4.379
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