miR-21 is associated with fibrosis and right ventricular failure
Sushma Reddy, … , Giovanni Fajardo, Daniel Bernstein
Sushma Reddy, … , Giovanni Fajardo, Daniel Bernstein
Published May 4, 2017
Citation Information: JCI Insight. 2017;2(9):e91625. https://doi.org/10.1172/jci.insight.91625.
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Research Article Cardiology

miR-21 is associated with fibrosis and right ventricular failure

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 2

TGF-β pathway is upregulated with PI+PS.

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TGF-β pathway is upregulated with PI+PS. (A) Transcriptional profiling o...
(A) Transcriptional profiling of the failing right ventricle. Agilent whole-genome oligonucleotide microarrays were used to evaluate gene expression at 1 and 2 months (diastolic dysfunction) as well as 3 months (systolic dysfunction) following surgery and compared with sham-operated controls. Metabolic, transport, and ion channel pathways were downregulated over time, while structural, inflammation, and fibrosis-related pathways were upregulated (fold change ≥ 2, Benjamini-Hochberg multiple testing correction with corrected P < 0.05). n = 4–6/sham and PI+PS/time point. (B) Schematic of TGF-β signaling and its regulation of profibrotic miRs. White box, unchanged protein expression; green box, upregulated protein and miR expression; orange box, downregulated protein expression. (C) Phosphorylated/total SMAD2/3 protein expression is upregulated in PI+PS during the stages of diastolic (1 month and 2 months) and systolic dysfunction (3 months). (D and E) miR-21 downstream target proteins involved in ECM regulation, Smad 7 and Sprouty 1, were downregulated as miR-21 expression increased, while (F) PTEN expression was not changed. n = 4–6/sham and PI+PS. PI+PS, pulmonary insufficiency and pulmonary stenosis; ECM, extracellular matrix. Data are presented as mean ± SEM. Microarray data was analyzed using GeneSpring GX 11.5 software. 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. *P < 0.05, **P < 0.01.