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Myocardial fibrosis and calcification are attenuated by microRNA–129-5p targeting Asporin and Sox9 in cardiac fibroblasts
Lejla Medzikovic, Laila Aryan, Grégoire Ruffenach, Min Li, Nicoletta Savalli, Wasila Sun, Shervin Sarji, Jason Hong, Salil Sharma, Riccardo Olcese, Gregory Fishbein, Mansoureh Eghbali
Lejla Medzikovic, Laila Aryan, Grégoire Ruffenach, Min Li, Nicoletta Savalli, Wasila Sun, Shervin Sarji, Jason Hong, Salil Sharma, Riccardo Olcese, Gregory Fishbein, Mansoureh Eghbali
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Research Article Cardiology

Myocardial fibrosis and calcification are attenuated by microRNA–129-5p targeting Asporin and Sox9 in cardiac fibroblasts

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Abstract

Myocardial fibrosis and calcification associate with adverse outcomes in nonischemic heart failure. Cardiac fibroblasts (CF) transition into myofibroblasts (MF) and osteogenic fibroblasts (OF) to promote myocardial fibrosis and calcification. However, common upstream mechanisms regulating both CF-to-MF transition and CF-to-OF transition remain unknown. microRNAs are promising targets to modulate CF plasticity. Our bioinformatics revealed downregulation of miR–129-5p and upregulation of its targets small leucine–rich proteoglycan Asporin (ASPN) and transcription factor SOX9 as common in mouse and human heart failure (HF). We experimentally confirmed decreased miR–129-5p and enhanced SOX9 and ASPN expression in CF in human hearts with myocardial fibrosis and calcification. miR–129-5p repressed both CF-to-MF and CF-to-OF transition in primary CF, as did knockdown of SOX9 and ASPN. Sox9 and Aspn are direct targets of miR–129-5p that inhibit downstream β-catenin expression. Chronic Angiotensin II infusion downregulated miR–129-5p in CF in WT and TCF21-lineage CF reporter mice, and it was restored by miR–129-5p mimic. Importantly, miR–129-5p mimic not only attenuated progression of myocardial fibrosis, calcification marker expression, and SOX9 and ASPN expression in CF but also restored diastolic and systolic function. Together, we demonstrate miR–129-5p/ASPN and miR–129-5p/SOX9 as potentially novel dysregulated axes in CF-to-MF and CF-to-OF transition in myocardial fibrosis and calcification and the therapeutic relevance of miR–129-5p.

Authors

Lejla Medzikovic, Laila Aryan, Grégoire Ruffenach, Min Li, Nicoletta Savalli, Wasila Sun, Shervin Sarji, Jason Hong, Salil Sharma, Riccardo Olcese, Gregory Fishbein, Mansoureh Eghbali

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Figure 2

miR–129-5p is downregulated and SOX9 and ASPN are upregulated in CF of patients with HF with LV fibrosis and calcification.

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miR–129-5p is downregulated and SOX9 and ASPN are upregulated in CF of p...
(A) miR–129-5p (red) expression in CF assessed by FISH with CF marker Ddr2 (green). Scale bar: 20 μm. Arrows are miR-129-5p+ Ddr2+ cells. (B) Interstitial myocardial fibrosis (blue) assessed by Masson’s trichrome staining. Scale bar: 100 μm. (C) Calcification (black) in myocardial fibrotic areas assessed by von Kossa staining. Scale bar: 50 μm. Arrows are calcified fibrotic areas. (D) Nuclear expression of SOX9 (red) in COL1a1-expressing cells (green) — i.e., CF, assessed by immunofluorescence. Scale bar: 20 μm. Arrows are COL1a1+SOX9+ cells. (E) Intra- and extracellular ASPN (pink) expression in COL1a1-expressing cells (green) — i.e., CF, assessed by immunofluorescence. Scale bar: 20 μm. Arrows are COL1a1+ ASPN+ cells. (B–E) Correlations between the miR–129-5p/Ddr2 ratio and interstitial fibrosis, calcified interstitial fibrosis, percentage of SOX9-expressing COL1a1+ cells, and percentage of ASPN expressing COL1a1+ cells in human LV. Data are presented as mean ± SEM; n = 3–4 subjects/group. Student’s t test. Correlations tested by Pearson’s r. *P < 0.05, **P < 0.01. COL1a1: collagen type 1a1, Ddr2: discoidin domain-containing receptor 2.

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