Authors: Grace Huang, Alycia Hildebrand, Cindy Benedict, Maria Cimini, Chunlin Wang, Zhongjian Cheng, Venkata N Garikipati, Vandana Mallaredy, Raj Kishore
Published: 2020-10-27
DOI: 10.1161/res.127.suppl_1.272
Source: Full article
Myocardial infarction (MI) occurs frequently in patients with diabetes resulting in higher mortality and morbidity than non-diabetic patients. We and others have shown that bone marrow-derived endothelial progenitor cells (EPCs) promote cardiac neovascularization and attenuate ischemic injury in animal models. Moreover, emerging evidence supports that exosomes (Exo) mediate stem cell therapy by carrying cell-specific biological signatures and by inducing signaling via transfer of bioactive molecules to target cells. However, autologous cell-based therapies yielded modest clinical results, suggesting that cellular/Exo reparative function may be compromised on a background of disease such as diabetes. In addition, recent studies suggest epigenetic mechanisms, such as histone methylation for gene silencing, promotes diabetes-induced vascular complication. Therefore, we hypothesized that diabetic EPCs produce exosomes of altered and dysfunctional content which compromise EPC reparative function in ischemic heart disease via epigenetic alterations. We collected EPC-Exo from non-diabetic mice (Lepr