Abstract
Bone marrow-derived mesenchymal stem cells (MSCs) have successfully progressed to phase III clinical trials successive to an intensive in vitro and pre-clinical assessment in experimental animal models of ischemic myocardial injury. With scanty evidence regarding their cardiogenic differentiation in the recipient patients’ hearts post-engraftment, paracrine secretion of bioactive molecules is being accepted as the most probable underlying mechanism to interpret the beneficial effects of cell therapy. Secretion of small non-coding microRNA (miR) constitutes an integral part of the paracrine activity of stem cells, and there is emerging interest in miRs’ delivery to the heart as part of cell-free therapy to exploit their integral role in various cellular processes. MSCs also release membrane vesicles of diverse sizes loaded with a wide array of miRs as part of their paracrine secretions primarily for intercellular communication and to shuttle genetic material. Exosomes can also be loaded with miRs of interest for delivery to the organs of interest including the heart, and hence, exosome-based cell-free therapy is being assessed for cell-free therapy as an alternative to cell-based therapy. This review of literature provides an update on cell-free therapy with primary focus on exosomes derived from BM-derived MSCs for myocardial repair.
Highlights
Two decades of bone marrow stem cell (BMSC) research for the treatment of the infarcted heart has generated encouraging data in experimental animal models as well as in the clinical settings and shown the safety and effectiveness of the procedure as an alternative to the contemporary therapeutic modalities [1]
The much-purported mechanism that the transplanted BMSCs cross lineage-restriction and adopt morphofunctionally competent cardiomyocyte phenotype for de novo myocardial regeneration has been challenged by various research groups [3, 4]
We have reported that preconditioned mesenchymal stem cells (MSCs) and MSCs genetically modified to overexpress microRNA-210 transferred miR-210 to the juxtaposed cardiomyocytes in a direct co-culture system in vitro as well as to the recipient cardiomyocytes post-transplantation
Summary
Two decades of bone marrow stem cell (BMSC) research for the treatment of the infarcted heart has generated encouraging data in experimental animal models as well as in the clinical settings and shown the safety and effectiveness of the procedure as an alternative to the contemporary therapeutic modalities [1]. We have reported that preconditioned mesenchymal stem cells (MSCs) and MSCs genetically modified to overexpress microRNA-210 (miR210) transferred miR-210 to the juxtaposed cardiomyocytes in a direct co-culture system in vitro as well as to the recipient cardiomyocytes post-transplantation.
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