Abstract 16757: Immunomodulatory Hydrogel Promotes Survival of Mesenchymal Stem Cells in a Rat Model of Myocardial Infarction

Abstract

Introduction: Stem cell (SC) therapy is a potential method of repairing the heart after injury. However, SCs have been shown to have poor survival after transplantation, at least in part, due to a hostile pro-inflammatory ischemic myocardium. Thus, there is significant interest in the identification of strategies that can increase the retention/survival of SCs after transplantation. Here we seek to investigate whether the use of an immunomodulatory hydrogel, containing anti-inflammatory sinapic acid (SA), promotes the survival of SCs after transplantation. Methods: Myocardial infarction was induced in rats followed by the delayed delivery of A) mesenchymal stem cells (MSCs), B) MSCs in a hydrogel without SA or C) MSCs in a hydrogel containing SA (10μM). Delivery of MSCs (7.5 x 10 5 in 30μL) occurred 7 days after MI, representing the subacute stage and to minimize acute inflammation. Survival of MSCs, stably expressing firefly luciferase under the constitutive CMV promoter, was followed longitudinally using bioluminescence imaging. Results: Panels A-C provide representative images of the viability of MSCs in different groups, with the quantification shown in panel D. There were no differences in survival when MSCs were delivered alone (A) or in a hydrogel without SA (B). However, the survival of MSCs was significantly increased when they were transplanted in a hydrogel with the anti-inflammatory SA (C). Conclusions: Here we provide evidence of the potential for an immunomodulatory hydrogel to enhance the viability of MSCs after infarction, which may lead to improvement of cardiac function. Furthermore, use of this hydrogel in combination with stem cells could be a potential therapeutic strategy for ameliorating cardiac repair after significant damage.