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Nucleic‐Acid Mediated Expression of Cardiopoietic Markers in Human Umbilical Cord‐Derived Mesenchymal Stem Cells
Author(s) -
Arocha Sinibaldo Rafael Romero,
Li Mark,
Singh Raman Deep,
Terzic Andre,
Behfar Atta
Publication year - 2020
Publication title -
the faseb journal
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.709
H-Index - 277
eISSN - 1530-6860
pISSN - 0892-6638
DOI - 10.1096/fasebj.2020.34.s1.02946
Subject(s) - mef2c , mesenchymal stem cell , microbiology and biotechnology , gata4 , stem cell , brachyury , transcription factor , biology , lipofectamine , transfection , cancer research , mesoderm , embryonic stem cell , cell culture , genetics , recombinant dna , gene , vector (molecular biology)
The management of patients with heart failure focuses on halting the progression of disease. To date, no therapeutic approach has been able to restore cardiac function to its original baseline state. Cell therapies, such as cardiopoietic (CP) stem cells, have shown to be promising platforms to restore cardiac function. The CP platform enhances the cardioregenerative potency of mesenchymal stem cells (MSCs). CP cells are characterized by the robust expression and nuclear translocation of cardiac transcription factors such Mesoderm Posterior Basic Helix‐Loop‐Helix Transcription Factor 1 (MESP1), early cardiac transcription factor Nkx2.5, myocyte enhancer factor 2C (Mef2C), and zinc finger‐containing transcription factor GATA4. Clinical trials using CP cells showed signs of safety and efficacy in improving cardiac function in patients with heart failure. However, the costs, time, and complexities associated with the manufacturing process have precluded the adoption of the therapy as a large‐scale clinical practice. In response, we adopted a microencapsulated‐modified‐messenger RNA (M3RNA) platform as a cost‐effective and time‐saving alternative to induce high expression of cardiopoietic markers. We hypothesized that the transfection of human umbilical cord‐derived mesenchymal stem cells (hUC‐MSCs) with M3RNA encoding mesodermal and/or cardiac transcription factor(s) will induce the expression of cardiopoietic markers (MESP1, Nkx2.5, Mef2C, and GATA4). hUC‐MSCs were transfected with M3RNA encoding Brachyury (this protein plays a key role in cardiomyocyte differentiation) and MESP1, Nkx2.5, Mef2C, and GATA4 using the transfection reagent Lipofectamine STEM. Protein expression was measured and quantified using fluorescence microscopy and flow cytometry. hUC‐MSCs transfected with M3RNA encoding mesodermal and/or cardiac transcription factor(s) demonstrated rapid protein expression at 4 hours post‐transfection that reached peak levels between 24 hours and 48 hours post‐transfection. Immunocytochemistry demonstrated similar morphology between transfected and non‐transfected cells. Thus, hUC‐MSCs can be transfected with M3RNA with high efficiency to produce rapid and predictable protein expression in vitro. We here demonstrate a simple, cost‐effective, and time‐saving approach to induce the expression of cardiopoietic markers in UC‐MSCs using M3RNA, which can serve as a highly translatable platform to circumvent many burdens associated with current strategies and development of cell‐based therapies for future clinical trials and practice. Support or Funding Information Mayo Clinic Center for Regenerative Medicine, Van Cleve Cardiac Regenerative Medicine Program, Marriott Foundation, Michael S. and Mary Sue Shannon Family, NIH NHLBI HL134664, Mayo Clinic Regenerative Sciences Post‐Baccalaureate Training Program

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