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| Research progress of microRNA and lncRNA in myocardial fibrosis |
| GAO Yuqiu JIAO Lei ZHANG Ying |
| Department of Pharmacology, College of Pharmacy, Harbin Medical University Key Laboratory of Cardiovascular Medicine Research, Heilongjiang Province, Harbin 150086, China |
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Abstract Myocardial fibrosis is the process of excessive accumulation of collagen fibers in myocardial tissue. In recent years, the role of non coding RNA including small RNA (miRNA) and long non-coding RNA (lncRNA), has become a hot topic. miRNA and lncRNA regulate the occurrence and development of myocardial fibrosis by activating multiple signaling pathways and mechanisms. This article reviews the mechanism and research progress of miRNA and lncRNA in myocardial fibrosis.
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[1] Travers JG,Kamal FA,Robbins J,et al. Cardiac fibrosis: the fibroblast awakens[J]. Circ Res,2016,118(6):1021-1040.
[2] Bartel DP. MicroRNAs:target recognition and regulatory functions [J]. Cell,2009,136(2):215-233.
[3] Kawamata T,Seitz H,Tomari Y. Structural determinants of miRNAs for RISC loading and slicer-independent unwinding [J]. Nat Struct Mol Biol,2009,16(9):953-960.
[4] Bartel DP. MicroRNAs:genomics,biogenesis,mechanism,and function [J]. Cell,2004,116(2):281-297.
[5] Ul Hussain M. Micro-RNAs(miRNAs):genomic organisation,biogenesis and mode of action [J]. Cell Tissue Res,2012,349(2):405-413.
[6] Geisler S,Coller J. RNA in unexpected places:long non-coding RNA functions in diverse cellular contexts [J]. Nat Rev Mol Cell Biol,2013,14(11):699-712.
[7] Quinodoz S,Guttman M. Long noncoding RNAs:an emerging link between gene regulation and nuclear organization [J]. Trends Cell Biol,2014,24(11):651-663.
[8] Du W,Liang H,Gao X,et al. MicroRNA-328,a Potential Anti-Fibrotic Target in Cardiac Interstitial Fibrosis [J]. Cell Physiol Biochem,2016,39(3):827-836.
[9] Wang J,Huang W,Xu R,et al. MicroRNA-24 regulates cardiac fibrosis after myocardial infarction [J]. J Cell Mol Med,2012,16(9):2150-2160.
[10] Chen Z,Lu S,Xu M,et al. Role of miR-24,Furin,and Transforming Growth Factor-beta1 Signal Pathway in Fibrosis After Cardiac Infarction [J]. Med Sci Monit,2017, 23:65-70.
[11] Guo C,Deng Y,Liu J,et al. Cardiomyocyte-specific role of miR-24 in promoting cell survival [J]. J Cell Mol Med,2015,19(1):103-112.
[12] Kumarswamy R,Volkmann I,Thum T. Regulation and function of miRNA-21 in health and disease [J]. RNA Biol,2011,8(5):706-713.
[13] Thum T,Gross C,Fiedler J,et al. MicroRNA-21 contributes to myocardial disease by stimulating MAP kinase signalling in fibroblasts [J]. Nature,2008,456(7224):980-984.
[14] Doka G,Radik M,Krenek P,et al. 1a.02:Microrna-208a and Its Host Gene Cardiac Myosin Heavy Chain Myh6 Are Involved in Hypertrophic Heart Dysfunction [J]. J Hypertens,2015,33 Suppl 1:e1.
[15] Wang BW,Wu GJ,Cheng WP,et al. MicroRNA-208a increases myocardial fibrosis via endoglin in volume overloading heart [J]. PLoS One,2014,9(1):e84188.
[16] Shyu KG,Wang BW,Cheng WP,et al. MicroRNA-208a Increases Myocardial Endoglin Expression and Myocardial Fibrosis in Acute Myocardial Infarction [J]. Can J Cardiol,2015,31(5):679-690.
[17] Wang K,Liu F,Zhou LY,et al. The long noncoding RNA CHRF regulates cardiac hypertrophy by targeting miR-489 [J]. Circ Res,2014,114(9):1377-1388.
[18] van Rooij E,Sutherland LB,Liu N,et al. A signature pattern of stress-responsive microRNAs that can evoke cardiac hypertrophy and heart failure [J]. Proc Natl Acad Sci USA,2006,103(48):18255-18260.
[19] Callis TE,Wang DZ. Taking microRNAs to heart [J]. Trends Mol Med,2008,14(6):254-260.
[20] Feng Y,Zou L,Si R,et al. Bone marrow MyD88 signaling modulates neutrophil function and ischemic myocardial injury [J]. Am J Physiol Cell Physiol,2010,299(4):C760-C769.
[21] Li Y,Si R,Feng Y,et al. Myocardial ischemia activates an injurious innate immune signaling via cardiac heat shock protein 60 and Toll-like receptor 4 [J]. J Biol Chem,2011,286(36):31308-31319.
[22] Oka T,Akazawa H,Naito AT,et al. Angiogenesis and cardiac hypertrophy:maintenance of cardiac function and causative roles in heart failure [J]. Circ Res,2014,114(3):565-571.
[23] Gao WL,Liu M,Yang Y,et al. The imprinted H19 gene regulates human placental trophoblast cell proliferation via encoding miR-675 that targets Nodal Modulator 1(NOMO1) [J]. RNA Biol,2012,9(7):1002-1010.
[24] Ferguson BS,Harrison BC,Jeong MY,et al. Signal-dependent repression of DUSP5 by class I HDACs controls nuclear ERK activity and cardiomyocyte hypertrophy [J]. Proc Natl Acad Sci USA,2013,110(24):9806-9811.
[25] Tao H,Cao W,Yang JJ,et al. Long noncoding RNA H19 controls DUSP5/ERK1/2 axis in cardiac fibroblast proliferation and fibrosis [J]. Cardiovasc Pathol,2016,25(5):381-389.
[26] Frade AF,Laugier L,Ferreira LR,et al. Myocardial Infarction-Associated Transcript,a Long Noncoding RNA,Is Overexpressed During Dilated Cardiomyopathy Due to Chronic Chagas Disease [J]. J Infect Dis,2016,214(1):161-165.
[27] Qu X,Song X,Yuan W,et al. Expression signature of lncRNAs and their potential roles in cardiac fibrosis of post-infarct mice [J]. Biosci Rep,2016,36(3). pii: e00337. doi: 10.1042/BSR20150278. Print 2016 Jul. |
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