miR-181b targets semaphorin 3A to mediate TGF-β–induced endothelial-mesenchymal transition related to atrial fibrillation
Ying-Ju Lai, Feng-Chun Tsai, Gwo-Jyh Chang, Shang-Hung Chang, Chung-Chi Huang, Wei-Jan Chen, Yung-Hsin Yeh
Ying-Ju Lai, Feng-Chun Tsai, Gwo-Jyh Chang, Shang-Hung Chang, Chung-Chi Huang, Wei-Jan Chen, Yung-Hsin Yeh
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Research Article Cardiology

miR-181b targets semaphorin 3A to mediate TGF-β–induced endothelial-mesenchymal transition related to atrial fibrillation

Abstract

Atrial fibrosis is an essential contributor to atrial fibrillation (AF). It remains unclear whether atrial endocardial endothelial cells (AEECs) that undergo endothelial-mesenchymal transition (EndMT) are among the sources of atrial fibroblasts. We studied human atria, TGF-β–treated human AEECs, cardiac-specific TGF-β–transgenic mice, and heart failure rabbits to identify the underlying mechanism of EndMT in atrial fibrosis. Using isolated AEECs, we found that miR-181b was induced in TGF-β–treated AEECs, which decreased semaphorin 3A (Sema3A) and increased EndMT markers, and these effects could be reversed by a miR-181b antagomir. Experiments in which Sema3A was increased by a peptide or decreased by a siRNA in AEECs revealed a mechanistic link between Sema3A and LIM-kinase 1/phosphorylated cofilin (LIMK/p-cofilin) signaling and suggested that Sema3A is upstream of LIMK in regulating actin remodeling through p-cofilin. Administration of the miR-181b antagomir or recombinant Sema3A to TGF-β–transgenic mice evoked increased Sema3A, reduced EndMT markers, and significantly decreased atrial fibrosis and AF vulnerability. Our study provides a mechanistic link between the induction of EndMT by TGF-β via miR-181b/Sema3A/LIMK/p-cofilin signaling to atrial fibrosis. Blocking miR-181b and increasing Sema3A are potential strategies for AF therapeutic intervention.

Authors

Ying-Ju Lai, Feng-Chun Tsai, Gwo-Jyh Chang, Shang-Hung Chang, Chung-Chi Huang, Wei-Jan Chen, Yung-Hsin Yeh

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Figure 7

Antagomir-181b inhibits the development of atrial subendocardial fibrosis in TGF-β–transgenic mice.

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Antagomir-181b inhibits the development of atrial subendocardial fibrosi...
(A) Design and optimization of the appropriate treatment strategy. (B) Histological morphology analysis of trichrome-stained atrial tissue demonstrating collagen (blue) deposition. Scale bar: 25 μm. (C) Quantitative analysis of endocardial fibrotic tissue thickness, (D) miR-181b expression in atrial tissue lysates, (E) AF duration, and (F) AF inducibility. (CF) Data are presented as the mean ± SEM (n = 5–7 per group). **P < 0.01 and ***P < 0.001 versus WT mice; #P < 0.05 and ##P < 0.01, versus TGF-β–transgenic mice; 1-way ANOVA with Bonferroni’s post hoc test. (G) Immunohistochemical analysis of CD31 with Sema3A, Twist, SMA and vimentin in the endocardium (n = 5). Scale bars: 50 μm. (H) Western blot analysis of proteins in atrial tissue from WT, TGF-β–transgenic mice (TGF transgene), and TGF-β–transgenic mice with antagomir-181b treatment showing increased SMA, Twist, vimentin, Snail, Slug, SM22α, and collagen I levels but decreased Sema3A and VE-cadherin levels in TGF-β–transgenic mice compared with WT mice. TGF-β–transgenic mice with antagomir-181b treatment showed a reversal of Sema3A and VE-cadherin protein levels and reduced expression of EndMT markers.