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miR-21 is associated with fibrosis and right ventricular failure
Sushma Reddy, Dong-Qing Hu, Mingming Zhao, Eddie Blay Jr., Nefthi Sandeep, Sang-Ging Ong, Gwanghyun Jung, Kristina B. Kooiker, Michael Coronado, Giovanni Fajardo, Daniel Bernstein
Sushma Reddy, Dong-Qing Hu, Mingming Zhao, Eddie Blay Jr., Nefthi Sandeep, Sang-Ging Ong, Gwanghyun Jung, Kristina B. Kooiker, Michael Coronado, Giovanni Fajardo, Daniel Bernstein
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Research Article Cardiology

miR-21 is associated with fibrosis and right ventricular failure

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Abstract

Combined pulmonary insufficiency (PI) and stenosis (PS) is a common long-term sequela after repair of many forms of congenital heart disease, causing progressive right ventricular (RV) dilation and failure. Little is known of the mechanisms underlying this combination of preload and afterload stressors. We developed a murine model of PI and PS (PI+PS) to identify clinically relevant pathways and biomarkers of disease progression. Diastolic dysfunction was induced (restrictive RV filling, elevated RV end-diastolic pressures) at 1 month after generation of PI+PS and progressed to systolic dysfunction (decreased RV shortening) by 3 months. RV fibrosis progressed from 1 month (4.4% ± 0.4%) to 3 months (9.2% ± 1%), along with TGF-β signaling and tissue expression of profibrotic miR-21. Although plasma miR-21 was upregulated with diastolic dysfunction, it was downregulated with the onset of systolic dysfunction), correlating with RV fibrosis. Plasma miR-21 in children with PI+PS followed a similar pattern. A model of combined RV volume and pressure overload recapitulates the evolution of RV failure unique to patients with prior RV outflow tract surgery. This progression was characterized by enhanced TGF-β and miR-21 signaling. miR-21 may serve as a plasma biomarker of RV failure, with decreased expression heralding the need for valve replacement.

Authors

Sushma Reddy, Dong-Qing Hu, Mingming Zhao, Eddie Blay Jr., Nefthi Sandeep, Sang-Ging Ong, Gwanghyun Jung, Kristina B. Kooiker, Michael Coronado, Giovanni Fajardo, Daniel Bernstein

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Figure 5

miR-21 is a potential biomarker for RV dysfunction in patients with tetralogy of Fallot.

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miR-21 is a potential biomarker for RV dysfunction in patients with tetr...
(A) Plasma miR-21 expression is increased in patients with PI+PS without RV systolic dysfunction (n = 7) but switches to being decreased in patients with systolic dysfunction (n = 9) compared with controls (n = 12). (B) miR-21 expression correlates negatively with RV end-diastolic volume and (C) positively with RV ejection fraction. (D) TEM demonstrating exosomes (arrow) with characteristic cup shape (arrowhead). Scale bar: 500 nm (top); 200 nm (bottom). (E) Exosome marker expression was similar between control and PI+PS. n = 2/group. (F) Electropherogram of exosomes showing small RNAs in the 10- to 40-nucleotide region indicative of miRs and no contamination from larger RNAs. (G) miR-21 expression is enriched in exosomes compared with the nonexosome fraction. n = 4/control; n = 9/PI+PS. RV, right ventricle; PI+PS,; TEM, transmission electron microscopy. Data are presented as mean ± SEM. An unpaired, 2-tailed Student’s t test was utilized for 2-group comparisons and ANOVA with multiple testing correction for 3 or more group comparisons. Correlation was assessed using Pearson’s correlation. *P < 0.01, ***P < 0.001.

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