MIR448 antagomir reduces arrhythmic risk after myocardial infarction by upregulating the cardiac sodium channel
Gyeoung-Jin Kang, An Xie, Hong Liu, Samuel C. Dudley Jr.
Gyeoung-Jin Kang, An Xie, Hong Liu, Samuel C. Dudley Jr.
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Research Article Cardiology

MIR448 antagomir reduces arrhythmic risk after myocardial infarction by upregulating the cardiac sodium channel

Abstract

Cardiac ischemia is associated with arrhythmias; however, effective therapies are currently limited. The cardiac voltage-gated sodium channel α subunit (SCN5A), encoding the Nav1.5 current, plays a key role in the cardiac electrical conduction and arrhythmic risk. Here, we show that hypoxia reduces Nav1.5 through effects on a miR, miR-448. miR-448 expression is increased in ischemic cardiomyopathy. miR-448 has a conserved binding site in 3′-UTR of SCN5A. miR-448 binding to this site suppressed SCN5A expression and sodium currents. Hypoxia-induced HIF-1α and NF-κB were major transcriptional regulators for MIR448. Moreover, hypoxia relieved MIR448 transcriptional suppression by RE1 silencing transcription factor. Therefore, miR-448 inhibition reduced arrhythmic risk after myocardial infarction. Here, we show that ischemia drove miR-448 expression, reduced Nav1.5 current, and increased arrhythmic risk. Arrhythmic risk was improved by preventing Nav1.5 downregulation, suggesting a new approach to antiarrhythmic therapy.

Authors

Gyeoung-Jin Kang, An Xie, Hong Liu, Samuel C. Dudley Jr.

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Figure 4

Sodium channel currents are reduced by miR-448 mimic in human iPSC-CMs.

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Sodium channel currents are reduced by miR-448 mimic in human iPSC-CMs. ...
(A) Effect of miR-448 mimic on the SCN5A mRNA level in iPSC- CMs. Cells were transfected with miR-448 mimic (10 nM) and then incubated for 24 hours. (B) Representative whole-cell sodium current traces in response to increasing step depolarizations from either control (black) or miR-448 mimic-transfected iPSC-CMs (red). (C) Average sodium current–voltage relationship of voltage-dependent sodium channels from either control (black)- or miR-448 mimic (red)-transfected iPSC-CMs. (D) Average voltage-dependence of activation and steady-state inactivation in control (black) and miR-448 mimic-transfected iPSC-CMs (red). For the activation curve, normalized peak conductance was plotted as a function of the membrane potential. For the inactivation curve, peak sodium currents were normalized to maximum values in each cell and plotted as a function of the voltage of the conditioning step. Data are represented as the mean + SD or mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001 (when compared between indicated groups by Student’s t test).