Biodistribution of Exosomes and Engineering Strategies for Targeted Delivery of Therapeutic Exosomes
10.1007/s13770-021-00361-0
- Author:
Hojun CHOI
1
;
Yoorim CHOI
;
Hwa Young YIM
;
Amin MIRZAAGHASI
;
Jae-Kwang YOO
;
Chulhee CHOI
Author Information
1. ILIAS Biologics Incorporated, 40-20, Techno 6-ro, Yuseonggu, Daejeon 34014, Republic of Korea
- Publication Type:REVIEW ARTICLE
- From:
Tissue Engineering and Regenerative Medicine
2021;18(4):499-511
- CountryRepublic of Korea
- Language:English
-
Abstract:
Exosomes are cell-secreted nano-sized vesicles which deliver diverse biological molecules for intercellular communication. Due to their therapeutic potential, exosomes have been engineered in numerous ways for efficient delivery of active pharmaceutical ingredients to various target organs, tissues, and cells. In vivo administered exosomes are normally delivered to the liver, spleen, kidney, lung, and gastrointestinal tract and show rapid clearance from the blood circulation after systemic injection. The biodistribution and pharmacokinetics (PK) of exosomes can be modulated by engineering various factors such as cellular origin and membrane protein composition of exosomes. Recent advances accentuate the potential of targeted delivery of engineered exosomes even to the most challenging organs including the central nervous system. Major breakthroughs have been made related to various imaging techniques for monitoring in vivo biodistribution and PK of exosomes, as well as exosomal surface engineering technologies for inducing targetability. For inducing targeted delivery, therapeutic exosomes can be engineered to express various targeting moieties via direct modification methods such as chemically modifying exosomal surfaces with covalenton-covalent bonds, or via indirect modification methods by genetically engineering exosome-producing cells. In this review, we describe the current knowledge of biodistribution and PK of exosomes, factors determining the targetability and organotropism of exosomes, and imaging technologies to monitor in vivo administered exosomes. In addition, we highlight recent advances in strategies for inducing targeted delivery of exosomes to specific organs and cells.
