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Literature DB >> 19829088

MicroRNA-145 in vascular smooth muscle cell biology: a new therapeutic target for vascular disease.

Abstract

Vascular smooth muscle cell (VSMC) phenotypic modulation and proliferation are critical cellular events in the development of a variety of proliferative vascular diseases. However, the molecular mechanisms involved in these cellular events are still unclear. MicroRNAs (miRNAs) represent a novel class of small, non-coding RNAs that negatively regulate gene expression via degradation or translational inhibition of their target mRNAs. In a previous study, we identified that miR-145 is the most abundant miRNA in normal arteries and VSMCs. However, the roles of miR-145 in VSMC biology and vascular disease are unknown. In our recent Circulation Research article, we found that the expression of miR-145 is significantly downregulated in dedifferentiated VSMCs and in balloon-injured arteries. Moreover, both in vitro and in vivo studies demonstrated that miR-145 is a critical modulator of VSMC phenotype and proliferation. This review article summarizes the current research progress regarding the roles of miR-145 in VSMC biology and discusses the potential therapeutic opportunities surrounding this miRNA in vascular disease.

Entities: Chemical Disease Gene Species

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Year: 2009 PMID： 19829088 PMCID： PMC3593963 DOI： 10.4161/cc.8.21.9837

Source DB: PubMed Journal: Cell Cycle ISSN： 1551-4005 Impact factor: 4.534

34 in total

Review 1. The functions of animal microRNAs.

Authors: Victor Ambros
Journal: Nature Date: 2004-09-16 Impact factor: 49.962

2. Conserved seed pairing, often flanked by adenosines, indicates that thousands of human genes are microRNA targets.

Authors: Benjamin P Lewis; Christopher B Burge; David P Bartel
Journal: Cell Date: 2005-01-14 Impact factor: 41.582

Review 3. Regulation of smooth muscle cells in development and vascular disease: current therapeutic strategies.

Authors: Xinjiang Cai
Journal: Expert Rev Cardiovasc Ther Date: 2006-11

Review 4. The evolution of gene regulation by transcription factors and microRNAs.

Authors: Kevin Chen; Nikolaus Rajewsky
Journal: Nat Rev Genet Date: 2007-02 Impact factor: 53.242

5. MicroRNA gene expression deregulation in human breast cancer.

Authors: Marilena V Iorio; Manuela Ferracin; Chang-Gong Liu; Angelo Veronese; Riccardo Spizzo; Silvia Sabbioni; Eros Magri; Massimo Pedriali; Muller Fabbri; Manuela Campiglio; Sylvie Ménard; Juan P Palazzo; Anne Rosenberg; Piero Musiani; Stefano Volinia; Italo Nenci; George A Calin; Patrizia Querzoli; Massimo Negrini; Carlo M Croce
Journal: Cancer Res Date: 2005-08-15 Impact factor: 12.701

6. MicroRNA expression signature and antisense-mediated depletion reveal an essential role of MicroRNA in vascular neointimal lesion formation.

Authors: Ruirui Ji; Yunhui Cheng; Junming Yue; Jian Yang; Xiaojun Liu; He Chen; David B Dean; Chunxiang Zhang
Journal: Circ Res Date: 2007-05-03 Impact factor: 17.367

7. Reduced accumulation of specific microRNAs in colorectal neoplasia.

Authors: Michael Z Michael; Susan M O' Connor; Nicholas G van Holst Pellekaan; Graeme P Young; Robert J James
Journal: Mol Cancer Res Date: 2003-10 Impact factor: 5.852

8. Cyclin G1 is a target of miR-122a, a microRNA frequently down-regulated in human hepatocellular carcinoma.

Authors: Laura Gramantieri; Manuela Ferracin; Francesca Fornari; Angelo Veronese; Silvia Sabbioni; Chang-Gong Liu; George A Calin; Catia Giovannini; Eros Ferrazzi; Gian Luca Grazi; Carlo M Croce; Luigi Bolondi; Massimo Negrini
Journal: Cancer Res Date: 2007-07-01 Impact factor: 12.701

9. Identification by Real-time PCR of 13 mature microRNAs differentially expressed in colorectal cancer and non-tumoral tissues.

Authors: E Bandrés; E Cubedo; X Agirre; R Malumbres; R Zárate; N Ramirez; A Abajo; A Navarro; I Moreno; M Monzó; J García-Foncillas
Journal: Mol Cancer Date: 2006-07-19 Impact factor: 27.401

10. miR-145 and miR-143 regulate smooth muscle cell fate and plasticity.

Authors: Kimberly R Cordes; Neil T Sheehy; Mark P White; Emily C Berry; Sarah U Morton; Alecia N Muth; Ting-Hein Lee; Joseph M Miano; Kathryn N Ivey; Deepak Srivastava
Journal: Nature Date: 2009-07-05 Impact factor: 49.962

34 in total

1. MicroRNA-21 inhibits platelet-derived growth factor-induced human aortic vascular smooth muscle cell proliferation and migration through targeting activator protein-1.

Authors: Yumei Li; Limei Yan; Wenyu Zhang; Nan Hu; Wei Chen; Hui Wang; Min Kang; Hesheng Ou
Journal: Am J Transl Res Date: 2014-10-11 Impact factor: 4.060

Review 2. miRNAs: roles and clinical applications in vascular disease.

Authors: Md Saha Jamaluddin; Sarah M Weakley; Lidong Zhang; Panagiotis Kougias; Peter H Lin; Qizhi Yao; Changyi Chen
Journal: Expert Rev Mol Diagn Date: 2011-01 Impact factor: 5.225

3. Intracellular delivery strategies for microRNAs and potential therapies for human cardiovascular diseases.

Authors: Michael A Shi; Guo-Ping Shi
Journal: Sci Signal Date: 2010-11-02 Impact factor: 8.192

Review 4. Angiogenesis-regulating microRNAs and Ischemic Stroke.

Authors: Ke-Jie Yin; Milton Hamblin; Y Eugene Chen
Journal: Curr Vasc Pharmacol Date: 2015 Impact factor: 2.719

Review 5. microRNAs as Developmental Regulators.

Authors: Kathryn N Ivey; Deepak Srivastava
Journal: Cold Spring Harb Perspect Biol Date: 2015-07-01 Impact factor: 10.005

6. Downregulation of microRNA-145 is associated with aggressive progression and poor prognosis in human cervical cancer.

Authors: Qingying Wang; Jinlong Qin; Aozhen Chen; Jianhong Zhou; Jie Liu; Jiajing Cheng; Jin Qiu; Jiawen Zhang
Journal: Tumour Biol Date: 2015-01-06

Review 7. MicroRNAs in vascular disease.

Authors: Shanshan Qin; Chunxiang Zhang
Journal: J Cardiovasc Pharmacol Date: 2011-01 Impact factor: 3.105