posted on 2023-09-29, 20:06authored byHan Gao, Shiqi Wang, Zehua Liu, Jouni T. Hirvonen, Hélder A. Santos
Exosomes are natural
endogenous extracellular vesicles
with phospholipid-based
bilayer membrane structures. Due to their unique protein-decorated
membrane properties, exosomes have been regarded as promising drug
carriers to deliver small molecules and genes. A number of approaches
have been developed for exosome-based drug loading. However, the drug
loading capability of exosomes is inconsistent, and the effects of
loading methods on the therapeutic efficacy have not been investigated
in detail. Herein, we developed anti-inflammatory drug-loaded exosomes
as an immunomodulatory nanoplatform. Naïve macrophage-derived
exosomes (Mϕ-EVs) were loaded with the anti-inflammatory drug
mycophenolic acid (MPA) by three major loading methods. Loading into
exosomes significantly enhanced anti-inflammatory and antioxidation
effects of MPA in vitro compared to free drugs. These findings provide
a scientific basis for developing naïve macrophage-secreted
exosomes as drug carriers for immunotherapy.