A major
challenge in myocardial infarction (MI)-related heart failure
treatment using microRNA is the efficient and sustainable delivery
of miRNAs into myocardium to achieve functional improvement through
stimulation of intrinsic myocardial restoration. In this study, we
established an in vivo delivery system using polymeric
nanoparticles to carry miRNA (miNPs) for localized delivery within
a shear-thinning injectable hydrogel. The miNPs triggered proliferation
of human embryonic stem cell-derived cardiomyocytes and endothelial
cells (hESC-CMs and hESC-ECs) and promoted angiogenesis in hypoxic
conditions, showing significantly lower cytotoxicity than Lipofectamine.
Furthermore, one injected dose of hydrogel/miNP in MI rats demonstrated
significantly improved cardiac functions: increased ejection fraction
from 45% to 64%, reduced scar size from 20% to 10%, and doubled capillary
density in the border zone compared to the control group at 4 weeks.
As such, our results indicate that this injectable hydrogel/miNP composite
can deliver miRNA to restore injured myocardium efficiently and safely.
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