Literature DB >> 23821457

MicroRNA-200c regulates the sensitivity of chemotherapy of gastric cancer SGC7901/DDP cells by directly targeting RhoE.

Liang Chang1, Fengjie Guo, Yudong Wang, Yalei Lv, Bingjie Huo, Long Wang, Wei Liu.   

Abstract

Gastric cancer remains a worldwide burden as the second leading cause of cancer-related death. Drug resistance of chemotherapy looms as a major clinical obstacle to successful treatment. Recent evidence indicated that miRNA-200c can restore the sensitivity of NSCLC cells to cisplatin and cetuximab. The expression of miRNA-200c and RhoE were investigated in gastric cancer tissues and cells (SGC7901 and SGC7901/DDP) by qRT-PCR. A luciferase reporter assay was done to understand the potential correlation between miRNA-200c and RhoE. Pre-miR-200c was transfected in SGC7901/DDP cells to confirm whether miRNA-200c could regulate RhoE expression. RhoE was knocked down to explore the role of RhoE on sensitivity of chemotherapy in gastric cancer by MTT. Western blot analysis was performed to further explore the mechanism of RhoE in regulating drug resistance. The results showed that miRNA-200c was significantly lower in cancerous tissues than those in the paired normal tissues, whereas the expression of RhoE was just the opposite. The significant difference of miRNA-200c and RhoE were observed between SGC7901 cells and SGC7901/DDP cells. miRNA-200c has target sites in the 3'-UTR of RhoE mRNA by luciferase reporter assay. Transfection of pre-miR-200c reduces RhoE expression. Meanwhile, the knockdown of RhoE enhanced the sensitivity of SGC7901/DDP cells and changed expression of some genes. These suggested that miRNA-200c regulated the sensitivity of chemotherapy to cisplatin (DDP) in gastric cancer by possibly targeting RhoE.

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Year:  2013        PMID: 23821457     DOI: 10.1007/s12253-013-9664-7

Source DB:  PubMed          Journal:  Pathol Oncol Res        ISSN: 1219-4956            Impact factor:   3.201


  28 in total

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Journal:  Mol Cell Biol       Date:  2004-09       Impact factor: 4.272

2.  RhoE interferes with Rb inactivation and regulates the proliferation and survival of the U87 human glioblastoma cell line.

Authors:  Enric Poch; Rebeca Miñambres; Enric Mocholí; Carmen Ivorra; Amparo Pérez-Aragó; Consuelo Guerri; Ignacio Pérez-Roger; Rosa M Guasch
Journal:  Exp Cell Res       Date:  2006-11-18       Impact factor: 3.905

3.  The miR-200 family controls beta-tubulin III expression and is associated with paclitaxel-based treatment response and progression-free survival in ovarian cancer patients.

Authors:  Susanna Leskelä; Luis J Leandro-García; Marta Mendiola; Jorge Barriuso; Lucía Inglada-Pérez; Iván Muñoz; Beatriz Martínez-Delgado; Andrés Redondo; Javier de Santiago; Mercedes Robledo; David Hardisson; Cristina Rodríguez-Antona
Journal:  Endocr Relat Cancer       Date:  2010-12-21       Impact factor: 5.678

4.  miR-200 Inhibits lung adenocarcinoma cell invasion and metastasis by targeting Flt1/VEGFR1.

Authors:  Jonathon D Roybal; Yi Zang; Young-Ho Ahn; Yanan Yang; Don L Gibbons; Brandi N Baird; Cristina Alvarez; Nishan Thilaganathan; Diane D Liu; Pierre Saintigny; John V Heymach; Chad J Creighton; Jonathan M Kurie
Journal:  Mol Cancer Res       Date:  2010-11-29       Impact factor: 5.852

5.  MicroRNA-200c attenuates tumour growth and metastasis of presumptive head and neck squamous cell carcinoma stem cells.

Authors:  Wen-Liang Lo; Cheng-Chia Yu; Guang-Yuh Chiou; Yi-Wei Chen; Pin-I Huang; Chian-Shiu Chien; Ling-Ming Tseng; Pen-Yuan Chu; Kai-Hsi Lu; Kuo-Wei Chang; Shou-Yen Kao; Shih-Hwa Chiou
Journal:  J Pathol       Date:  2011-01-05       Impact factor: 7.996

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Journal:  Cancer Biol Ther       Date:  2007-03-04       Impact factor: 4.742

7.  A double-negative feedback loop between ZEB1-SIP1 and the microRNA-200 family regulates epithelial-mesenchymal transition.

Authors:  Cameron P Bracken; Philip A Gregory; Natasha Kolesnikoff; Andrew G Bert; Jun Wang; M Frances Shannon; Gregory J Goodall
Journal:  Cancer Res       Date:  2008-10-01       Impact factor: 12.701

8.  MicroRNAs in cancer treatment and prognosis.

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Journal:  Am J Cancer Res       Date:  2012-06-28       Impact factor: 6.166

9.  Regulation of Rnd3 localization and function by protein kinase C alpha-mediated phosphorylation.

Authors:  James P Madigan; Brian O Bodemann; Donita C Brady; Brian J Dewar; Patricia J Keller; Michael Leitges; Mark R Philips; Anne J Ridley; Channing J Der; Adrienne D Cox
Journal:  Biochem J       Date:  2009-10-23       Impact factor: 3.857

10.  A reciprocal repression between ZEB1 and members of the miR-200 family promotes EMT and invasion in cancer cells.

Authors:  Ulrike Burk; Jörg Schubert; Ulrich Wellner; Otto Schmalhofer; Elizabeth Vincan; Simone Spaderna; Thomas Brabletz
Journal:  EMBO Rep       Date:  2008-05-16       Impact factor: 8.807
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  21 in total

Review 1.  Pathophysiological Functions of Rnd3/RhoE.

Authors:  Wei Jie; Kelsey C Andrade; Xi Lin; Xiangsheng Yang; Xiaojing Yue; Jiang Chang
Journal:  Compr Physiol       Date:  2015-12-15       Impact factor: 9.090

2.  miR-152 suppresses gastric cancer cell proliferation and motility by targeting CD151.

Authors:  Ronglin Zhai; Xuefeng Kan; Bo Wang; Hansong Du; Yueping Long; Heshui Wu; Kaixiong Tao; Guobin Wang; Lihong Bao; Fen Li; Wanli Zhang
Journal:  Tumour Biol       Date:  2014-08-15

3.  A miRNA-200c/cathepsin L feedback loop determines paclitaxel resistance in human lung cancer A549 cells in vitro through regulating epithelial-mesenchymal transition.

Authors:  Yi-Fan Zhao; Mei-Ling Han; Ya-Jie Xiong; Long Wang; Yao Fei; Xiao Shen; Ying Zhu; Zhong-Qin Liang
Journal:  Acta Pharmacol Sin       Date:  2017-12-07       Impact factor: 6.150

Review 4.  Dysregulation of non-coding RNAs in gastric cancer.

Authors:  Qing Yang; Ren-Wen Zhang; Peng-Cheng Sui; Hai-Tao He; Lei Ding
Journal:  World J Gastroenterol       Date:  2015-10-21       Impact factor: 5.742

Review 5.  Pathophysiological functions of Rnd proteins.

Authors:  Sara Basbous; Roberta Azzarelli; Emilie Pacary; Violaine Moreau
Journal:  Small GTPases       Date:  2020-10-15

6.  Identification of potential novel drug resistance mechanisms by genomic and transcriptomic profiling of colon cancer cells with p53 deletion.

Authors:  Onat Kadioglu; Mohamed Saeed; Nuha Mahmoud; Shaymaa Azawi; Kristin Mrasek; Thomas Liehr; Thomas Efferth
Journal:  Arch Toxicol       Date:  2021-01-30       Impact factor: 5.153

Review 7.  Potential Diagnostic, Prognostic and Therapeutic Targets of MicroRNAs in Human Gastric Cancer.

Authors:  Ming-Ming Tsai; Chia-Siu Wang; Chung-Ying Tsai; Hsiang-Wei Huang; Hsiang-Cheng Chi; Yang-Hsiang Lin; Pei-Hsuan Lu; Kwang-Huei Lin
Journal:  Int J Mol Sci       Date:  2016-06-16       Impact factor: 5.923

Review 8.  Proposed Molecular and miRNA Classification of Gastric Cancer.

Authors:  Lara Alessandrini; Melissa Manchi; Valli De Re; Riccardo Dolcetti; Vincenzo Canzonieri
Journal:  Int J Mol Sci       Date:  2018-06-06       Impact factor: 5.923

9.  Clinical Impact of a Novel MicroRNA Chemo-Sensitivity Predictor in Gastrooesophageal Cancer.

Authors:  Mette Winther; Steen Knudsen; Jesper Dahlgaard; Thomas Jensen; Anker Hansen; Peter Buhl Jensen; Trine Tramm; Jan Alsner; Marianne Nordsmark
Journal:  PLoS One       Date:  2016-02-17       Impact factor: 3.240

Review 10.  Role of miRNAs and their potential to be useful as diagnostic and prognostic biomarkers in gastric cancer.

Authors:  Kelly Cristina da Silva Oliveira; Taíssa Maíra Thomaz Araújo; Camila Inagaki Albuquerque; Gabriela Alcantara Barata; Carolina Oliveira Gigek; Mariana Ferreira Leal; Fernanda Wisnieski; Fernando Augusto Rodrigues Mello Junior; André Salim Khayat; Paulo Pimentel de Assumpção; Rommel Mário Rodriguez Burbano; Marília Cardoso Smith; Danielle Queiroz Calcagno
Journal:  World J Gastroenterol       Date:  2016-09-21       Impact factor: 5.742
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