Abstract

AbstractExtracellular vesicles (EVs) are nanoscale particles that facilitate intercellular communication. They are regarded as a promising natural drug delivery system for transporting and delivering bioactive macromolecules to target cells. Recently, researchers have engineered EVs with FKBP12/FRB heterodimerization domains that interact with rapamycin to load and deliver exogenous proteins for both in vitro and in vivo applications. In this study, we examined the tissue distribution of EVs using near‐infrared fluorescent imaging. We evaluated the effectiveness of EV‐mediated delivery of Cre recombinase specifically to hepatocytes in the livers of Ai9 Cre‐loxP reporter mice. Intravenous injection resulted in more efficient Cre protein delivery to the liver than intraperitoneal injections. Depleting liver‐resident macrophages with clodronate‐encapsulated liposome pre‐treatment did not enhance EV‐mediated Cre delivery to hepatocytes. Moreover, we demonstrated that multiple intravenous injections of Cre‐EVs facilitated functional Cre delivery to hepatocytes. To the best of our knowledge, this is the first study to simultaneously investigate the tissue distribution of FKBP12/FRB‐engineered EVs and their subsequent intracellular protein delivery in Ai9 Cre‐loxP reporter mice. These insights can inform preclinical research and contribute to developing next‐generation EV‐based platforms for delivering therapeutic proteins or genome editing technologies targeting the liver.

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