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Photopolymerizable Hydrogel for Enhanced Intramyocardial Vascular Progenitor Cell Delivery and Post‐Myocardial Infarction Healing

Xuechong Hong, Allen Chilun Luo, Ilias P. Doulamis, Nicholas Oh, Gwang‐Bum Im, Chun‐Yen Lin, Pedro J. del Nido, Ruei‐Zeng Lin, Juan M. Melero‐Martin

2023Advanced Healthcare Materials18 citationsDOIOpen Access PDF

Abstract

Cell transplantation success for myocardial infarction (MI) treatment is often hindered by low engraftment due to washout effects during myocardial contraction. A clinically viable biomaterial that enhances cell retention can optimize intramyocardial cell delivery. In this study, a therapeutic cell delivery method is developed for MI treatment utilizing a photocrosslinkable gelatin methacryloyl (GelMA) hydrogel. Human vascular progenitor cells, capable of forming functional vasculatures upon transplantation, are combined with an in situ photopolymerization approach and injected into the infarcted zones of mouse hearts. This strategy substantially improves acute cell retention and promotes long-term post-MI cardiac healing, including stabilized cardiac functions, preserved viable myocardium, and reduced cardiac fibrosis. Additionally, engrafted vascular cells polarize recruited bone marrow-derived neutrophils toward a non-inflammatory phenotype via transforming growth factor beta (TGFβ) signaling, fostering a pro-regenerative microenvironment. Neutrophil depletion negates the therapeutic benefits generated by cell delivery in ischemic hearts, highlighting the essential role of non-inflammatory, pro-regenerative neutrophils in cardiac remodeling. In conclusion, this GelMA hydrogel-based intramyocardial vascular cell delivery approach holds promise for enhancing the treatment of acute myocardial infarction.

Topics & Concepts

MedicineProgenitor cellMyocardial infarctionTransplantationRegenerative medicineCell therapyRegeneration (biology)CellCardiologyStem cellBiomedical engineeringCancer researchInternal medicineCell biologyChemistryBiologyBiochemistryTissue Engineering and Regenerative MedicineElectrospun Nanofibers in Biomedical ApplicationsMesenchymal stem cell research
Photopolymerizable Hydrogel for Enhanced Intramyocardial Vascular Progenitor Cell Delivery and Post‐Myocardial Infarction Healing | Litcius