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Iron Oxide Nanoparticle-Mediated Development of Cellular Gap Junction Crosstalk to Improve Mesenchymal Stem Cells’ Therapeutic Efficacy for Myocardial Infarction
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    Iron Oxide Nanoparticle-Mediated Development of Cellular Gap Junction Crosstalk to Improve Mesenchymal Stem Cells’ Therapeutic Efficacy for Myocardial Infarction
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    School of Chemical and Biological Engineering, Seoul National University, Seoul 151-744, Republic of Korea
    Severance Integrative Research Institute for Cerebral & Cardiovascular Diseases, Yonsei University Health System, Seoul 120-752, Republic of Korea
    § Interdisciplinary Program of Bioengineering, Seoul National University, Seoul 151-744, Republic of Korea
    Center for Nanoparticle Research, Institute for Basic Science (IBS), Seoul 151-744, Republic of Korea
    School of Advanced Materials Engineering, Kookmin University, Seoul 136-702, Republic of Korea
    *Address correspondence to [email protected], [email protected]
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    ACS Nano

    Cite this: ACS Nano 2015, 9, 3, 2805–2819
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    https://doi.org/10.1021/nn506732n
    Published February 17, 2015
    Copyright © 2015 American Chemical Society

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    Electrophysiological phenotype development and paracrine action of mesenchymal stem cells (MSCs) are the critical factors that determine the therapeutic efficacy of MSCs for myocardial infarction (MI). In such respect, coculture of MSCs with cardiac cells has windowed a platform for cardiac priming of MSCs. Particularly, active gap junctional crosstalk of MSCs with cardiac cells in coculture has been known to play a major role in the MSC modification through coculture. Here, we report that iron oxide nanoparticles (IONPs) significantly augment the expression of connexin 43 (Cx43), a gap junction protein, of cardiomyoblasts (H9C2), which would be critical for gap junctional communication with MSCs in coculture for the generation of therapeutic potential-improved MSCs. MSCs cocultured with IONP-harboring H9C2 (cocultured MSCs: cMSCs) showed active cellular crosstalk with H9C2 and displayed significantly higher levels of electrophysiological cardiac biomarkers and a cardiac repair-favorable paracrine profile, both of which are responsible for MI repair. Accordingly, significantly improved animal survival and heart function were observed upon cMSC injection into rat MI models compared with the injection of unmodified MSCs. The present study highlights an application of IONPs in developing gap junctional crosstalk among the cells and generating cMSCs that exceeds the reparative potentials of conventional MSCs. On the basis of our finding, the potential application of IONPs can be extended in cell biology and stem cell-based therapies.

    Copyright © 2015 American Chemical Society

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    Published February 17, 2015
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