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Literature DB >> 27435395

miR-206 Inhibits Stemness and Metastasis of Breast Cancer by Targeting MKL1/IL11 Pathway.

Ravand Samaeekia¹, Valery Adorno-Cruz^2,3, Jessica Bockhorn^1,4, Ya-Fang Chang¹, Simo Huang³, Aleix Prat^5,6, Nahun Ha³, Golam Kibria³, Dezheng Huo⁷, Hui Zheng⁸, Rachel Dalton¹, Yuhao Wang¹, Grigoriy Y Moskalenko¹, Huiping Liu^9,10,11.

Abstract

Purpose: Effective targeting of cancer stem cells is necessary and important for eradicating cancer and reducing metastasis-related mortality. Understanding of cancer stemness-related signaling pathways at the molecular level will help control cancer and stop metastasis in the clinic.Experimental Design: By analyzing miRNA profiles and functions in cancer development, we aimed to identify regulators of breast tumor stemness and metastasis in human xenograft models in vivo and examined their effects on self-renewal and invasion of breast cancer cells in vitro To discover the direct targets and essential signaling pathways responsible for miRNA functions in breast cancer progression, we performed microarray analysis and target gene prediction in combination with functional studies on candidate genes (overexpression rescues and pheno-copying knockdowns).
Results: In this study, we report that hsa-miR-206 suppresses breast tumor stemness and metastasis by inhibiting both self-renewal and invasion. We identified that among the candidate targets, twinfilin (TWF1) rescues the miR-206 phenotype in invasion by enhancing the actin cytoskeleton dynamics and the activity of the mesenchymal lineage transcription factors, megakaryoblastic leukemia (translocation) 1 (MKL1), and serum response factor (SRF). MKL1 and SRF were further demonstrated to promote the expression of IL11, which is essential for miR-206's function in inhibiting both invasion and stemness of breast cancer.Conclusions: The identification of the miR-206/TWF1/MKL1-SRF/IL11 signaling pathway sheds lights on the understanding of breast cancer initiation and progression, unveils new therapeutic targets, and facilitates innovative drug development to control cancer and block metastasis. Clin Cancer Res; 23(4); 1091-103. ©2016 AACR. ©2016 American Association for Cancer Research.

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Year: 2016 PMID： 27435395 PMCID： PMC5247402 DOI： 10.1158/1078-0432.CCR-16-0943

Source DB: PubMed Journal: Clin Cancer Res ISSN： 1078-0432 Impact factor: 12.531

50 in total

1. Cancer stem cells from human breast tumors are involved in spontaneous metastases in orthotopic mouse models.

Authors: Huiping Liu; Manishkumar R Patel; Jennifer A Prescher; Antonia Patsialou; Dalong Qian; Jiahui Lin; Susanna Wen; Ya-Fang Chang; Michael H Bachmann; Yohei Shimono; Piero Dalerba; Maddalena Adorno; Neethan Lobo; Janet Bueno; Frederick M Dirbas; Sumanta Goswami; George Somlo; John Condeelis; Christopher H Contag; Sanjiv Sam Gambhir; Michael F Clarke
Journal: Proc Natl Acad Sci U S A Date: 2010-10-04 Impact factor: 11.205

2. MicroRNAs and small interfering RNAs can inhibit mRNA expression by similar mechanisms.

Authors: Yan Zeng; Rui Yi; Bryan R Cullen
Journal: Proc Natl Acad Sci U S A Date: 2003-08-05 Impact factor: 11.205

3. N-WASP-mediated invadopodium formation is involved in intravasation and lung metastasis of mammary tumors.

Authors: Bojana Gligorijevic; Jeffrey Wyckoff; Hideki Yamaguchi; Yarong Wang; Evanthia T Roussos; John Condeelis
Journal: J Cell Sci Date: 2012-02-01 Impact factor: 5.285

4. RAS is regulated by the let-7 microRNA family.

Authors: Steven M Johnson; Helge Grosshans; Jaclyn Shingara; Mike Byrom; Rich Jarvis; Angie Cheng; Emmanuel Labourier; Kristy L Reinert; David Brown; Frank J Slack
Journal: Cell Date: 2005-03-11 Impact factor: 41.582

5. The muscle-specific microRNA miR-206 blocks human rhabdomyosarcoma growth in xenotransplanted mice by promoting myogenic differentiation.

Authors: Riccardo Taulli; Francesca Bersani; Valentina Foglizzo; Alessandra Linari; Elisa Vigna; Marc Ladanyi; Thomas Tuschl; Carola Ponzetto
Journal: J Clin Invest Date: 2009-07-20 Impact factor: 14.808

6. miR-206 Expression is down-regulated in estrogen receptor alpha-positive human breast cancer.

Authors: Naoto Kondo; Tatsuya Toyama; Hiroshi Sugiura; Yoshitaka Fujii; Hiroko Yamashita
Journal: Cancer Res Date: 2008-07-01 Impact factor: 12.701

Review 7. The cofilin pathway in breast cancer invasion and metastasis.

Authors: Weigang Wang; Robert Eddy; John Condeelis
Journal: Nat Rev Cancer Date: 2007-06 Impact factor: 60.716

8. GeneSet2miRNA: finding the signature of cooperative miRNA activities in the gene lists.

Authors: Alexey V Antonov; Sabine Dietmann; Philip Wong; Dominik Lutter; Hans W Mewes
Journal: Nucleic Acids Res Date: 2009-05-06 Impact factor: 16.971

9. The possible correlation of Notch-1 and Notch-2 with clinical outcome and tumour clinicopathological parameters in human breast cancer.

Authors: C Parr; G Watkins; W G Jiang
Journal: Int J Mol Med Date: 2004-11 Impact factor: 4.101

10. Down-regulation of c-Met and Bcl2 by microRNA-206, activates apoptosis, and inhibits tumor cell proliferation, migration and colony formation.

Authors: Chengcao Sun; Zhidong Liu; Shujun Li; Cuili Yang; Ruilin Xue; Yongyong Xi; Liang Wang; Suqing Wang; Qiqiang He; Jie Huang; Songping Xie; Wenyang Jiang; Dejia Li
Journal: Oncotarget Date: 2015-09-22

49 in total

1. Tumour-suppressive microRNA-424-5p directly targets CCNE1 as potential prognostic markers in epithelial ovarian cancer.

Authors: Jingjing Liu; Zhenpeng Gu; Yujie Tang; Junmei Hao; Cuiping Zhang; Xingsheng Yang
Journal: Cell Cycle Date: 2018-01-02 Impact factor: 4.534

2. New Advances and Challenges of Targeting Cancer Stem Cells.

Authors: Nurmaa K Dashzeveg; Rokana Taftaf; Erika K Ramos; Luke Torre-Healy; Anastasia Chumakova; Daniel J Silver; Tyler J Alban; Maksim Sinyuk; Praveena S Thiagarajan; Awad M Jarrar; Soumya M Turaga; Caner Saygin; Erin Mulkearns-Hubert; Masahiro Hitomi; Jeremy N Rich; Stanton L Gerson; Justin D Lathia; Huiping Liu
Journal: Cancer Res Date: 2017-09-19 Impact factor: 12.701

3. MicroRNA-206 acts as a tumor suppressor in bladder cancer via targeting YRDC.

Authors: Bisheng Huang; Wei Zhai; Guanghui Hu; Chi Huang; Tiancheng Xie; Jingwei Zhang; Yunfei Xu
Journal: Am J Transl Res Date: 2016-11-15 Impact factor: 4.060

4. miR-491 Inhibits Osteosarcoma Lung Metastasis and Chemoresistance by Targeting αB-crystallin.

Authors: Shu-Nan Wang; Song Luo; Chang Liu; Zhenghao Piao; Wenlong Gou; Yun Wang; Wei Guan; Qing Li; Hua Zou; Zhen-Zhou Yang; Dong Wang; Yan Wang; Meng Xu; Hua Jin; Cheng-Xiong Xu
Journal: Mol Ther Date: 2017-06-23 Impact factor: 11.454

5. Identification of cancer stemness related miRNA(s) using integrated bioinformatics analysis and in vitro validation.

Authors: Kumari Sunita Prajapati; Mohd Shuaib; Prem Prakash Kushwaha; Atul Kumar Singh; Shsahank Kumar
Journal: 3 Biotech Date: 2021-09-23 Impact factor: 2.893

6. βKlotho, a direct target of miR-206, contributes to the growth of hepatoblastoma through augmenting PI3K/Akt/mTOR signaling.

Authors: Tong Chen; Jianglong Chen; Xiuhao Zhao; Jing Zhou; Qingfeng Sheng; Linlin Zhu; Zhibao Lv
Journal: Am J Cancer Res Date: 2021-05-15 Impact factor: 6.166