MicroRNA-133a Protects Against Myocardial Fibrosis and Modulates Electrical Repolarization Without Affecting Hypertrophy in Pressure-Overloaded Adult Hearts

Matkovich, Scot J.; Wang, Wei; Tu, Yizheng; Eschenbacher, William H.; Dorn, Lisa E.; Condorelli, Gianluigi; Diwan, Abhinav; Nerbonne, Jeanne M.; Dorn, Gerald W.

doi:10.1161/circresaha.109.202176

Cited by 354 publications

(288 citation statements)

References 48 publications

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“…Both miR-30 and miR-133 condition the protein level of CTGF, and their decrease after myocardial damage leads to fibrosis and conduction anomalies (10,46). In agreement with these findings reported by other authors, we found that the T3-dependent miRNA modulation was accompanied by decreased MMP-2 and CTGF expression 3 d post-I/R.…”

Section: Disclosuresupporting

confidence: 92%

Early and Short-term Triiodothyronine Supplementation Prevents Adverse Postischemic Cardiac Remodeling: Role of Transforming Growth Factor-β1 and Antifibrotic miRNA Signaling

Nicolini

Forini

Kusmic

et al. 2015

Mol Med

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Activation of transforming growth factor (TGF)-β1 signaling in the ischemia/reperfusion (I/R) injured myocardium leads to dysregulation of miR-29-30-133, favoring the profibrotic process that leads to adverse cardiac remodeling (CR). We have previously shown that timely correction of the postischemic low-T3 syndrome (Low-T3S) exerts antifibrotic effects, but the underlying molecular players are still unknown. Here we hypothesize that a prompt, short-term infusion of T3 in a rat model of post I/R Low-T3S could hamper the early activation of the TGFβ1-dependent profibrotic cascade to confer long-lasting cardioprotection against adverse CR. Twenty-four hours after I/R, rats that developed the Low-T3S were randomly assigned to receive a 48-h infusion of 6 μg/kg/d T3 (I/R-L+T3) or saline (I/R-L) and sacrificed at 3 or 14 d post-I/R. Three days post-I/R, Low-T3S correction favored functional cardiac recovery. This effect was paralleled by a drop in TGFβ1 and increased miR-133a, miR-30c and miR-29c in the infarcted myocardium. Consistently, connective transforming growth factor (CTGF) and matrix metalloproteinase-2 (MMP-2), validated targets of the above miRNAs, were significantly reduced. Fourteen days post-I/R, the I/R-L+T3 rats presented a significant reduction of scar size with a better preservation of cardiac performance and LV chamber geometry. At this time, TGFβ1 and miR-29c levels were in the normal range in both groups, whereas miR-30c-133a, MMP-2 and CTGF remained significantly altered in the I/R group. In conclusion, the antifibrotic effect exerted by T3 in the early phase of postischemic wound healing triggers a persistent cardioprotective response that hampers the progression of heart dysfunction and adverse CR.

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Section: Disclosuresupporting

confidence: 92%

Early and Short-term Triiodothyronine Supplementation Prevents Adverse Postischemic Cardiac Remodeling: Role of Transforming Growth Factor-β1 and Antifibrotic miRNA Signaling

Nicolini

Forini

Kusmic

et al. 2015

Mol Med

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“…So far, there seems to be about 150-200 miRNAs expressed in the cardiovascular system. Many of these miRNAs are dynamically regulated in response to acute cardiac stress and in some cases during long-term compensatory response of the heart to a chronic injury or hemodynamic overload 13,14 . Therefore, there is growing evidence that the expression of miRNAs is an important part of the mechanism of response to acute stress of the heart, contributing both to cardiac homeostasis and to the heart disease.…”

Section: Micrornas and The Cardiovascular Systemmentioning

confidence: 99%

“…In a recent study, the expression of miR-133 was induced in a rat model subjected to acute hypertrophic stimulus. Although the weight of the heart has not been standardized, other aspects of hypertrophy, such as apoptosis and fibrosis were restored to basal levels 14 .…”

Section: Micrornas In Cardiac Hypertrophy and Heart Failurementioning

confidence: 99%

MicroRNAs: um novo paradigma no tratamento e diagnóstico da insuficiência cardíaca?

Oliveira-Carvalho¹,

Carvalho²,

Silva³

et al. 2012

Arq. Bras. Cardiol.

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MicroRNAs (miRNAs) are a group of newly discovered small RNAs, non-coding, which represent one of the most exciting areas of modern medical science as they modulate a huge and complex regulatory network of gene expression. Lines of evidence have recently suggested that miRNAs play a key role in the pathogenesis of heart failure. Some miRNAs highly expressed in the heart, such as miR-1, miR-133 and miR-208, are strongly associated with the development of cardiac hypertrophy, while the exact role of miR-21 in the cardiovascular system remains controversial. Serum levels of circulating miRNAs such as miR-423-5p are being evaluated as potential biomarkers in the diagnosis and prognosis of heart failure. On the other hand, the manipulation of levels of miRNAs using techniques such as mimicking the miRNAs (miRmimics) and antagonistic miRNAs (antagomiRs) is making increasingly evident the enormous potential of miRNAs as promising therapeutic strategies in heart failure.

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“…They are also upregulated during cardiac hypertrophy and failure, and have been implicated in arrhythmogenesis [56]. The downregulation of miR-133 during cardiac hypertrophy is also associated with a decrease in K cnip2, the I to,f accessory subunit, albeit via an indirect mechanism, and is accordingly, responsible for prolongation of the QT interval [57]. Taken together, miR-1 and miR-133 are multifaceted molecules involved in hypertrophic and ischemic heart by targeting of a spectrum of mRNAs.…”

Section: Arrhythmiamentioning

confidence: 99%

Cardinal roles of miRNA in cardiac development and disease

Feng

2011

Sci. China Life Sci.

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MicroRNAs (miRNAs) are small noncoding RNAs that are emerging as pivotal modulators in virtually all aspects of cardiac biology, from cardiac development to cardiomyocyte survival and hypertrophy. The miRNA profiling, following gain-and loss-of-function studies using in vitro and in vivo models, has identified wide-ranging functions for miRNAs in the heart, providing new perspectives on their contributions to cardiac pathogenesis, and revealing potential therapeutic targets and diagnostic biomarkers. This review summarizes current progress in regulation of miRNAs in heart development and disease. miRNA, cardiac, development, disease Citation:Feng Y L, Yu X Y. Cardinal roles of miRNA in cardiac development and disease.

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MicroRNA-133a Protects Against Myocardial Fibrosis and Modulates Electrical Repolarization Without Affecting Hypertrophy in Pressure-Overloaded Adult Hearts

Cited by 354 publications

References 48 publications

Early and Short-term Triiodothyronine Supplementation Prevents Adverse Postischemic Cardiac Remodeling: Role of Transforming Growth Factor-β1 and Antifibrotic miRNA Signaling

Early and Short-term Triiodothyronine Supplementation Prevents Adverse Postischemic Cardiac Remodeling: Role of Transforming Growth Factor-β1 and Antifibrotic miRNA Signaling

MicroRNAs: um novo paradigma no tratamento e diagnóstico da insuficiência cardíaca?

Cardinal roles of miRNA in cardiac development and disease

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