TY - JOUR
T1 - Stem cell membrane-coated abiotic nanomaterials for biomedical applications
AU - Ferreira-Faria, Inês
AU - Yousefiasl, Satar
AU - Macário-Soares, Ana
AU - Pereira-Silva, Miguel
AU - Peixoto, Diana
AU - Zafar, Hajra
AU - Raza, Faisal
AU - Faneca, Henrique
AU - Veiga, Francisco
AU - Hamblin, Michael R.
AU - Tay, Franklin R.
AU - Gao, Jianqing
AU - Sharifi, Esmaeel
AU - Makvandi, Pooyan
AU - Paiva-Santos, Ana Cláudia
N1 - Publisher Copyright:
© 2022 The Authors
PY - 2022/11
Y1 - 2022/11
N2 - Nanoscale materials have been extensively employed for diagnostic and therapeutic purposes. However, the developed nanosystems still suffer from some limitations, namely the rapid elimination by the immune system, lack of targeting to specific cells, and insufficient biocompatibility. Therefore, novel strategies based upon a biomimetic approach have received attention to improving the pharmacokinetics and safety profile of nanosystems. One promising strategy is the application of a biomimetic coating consisting of cell membranes derived from different cell types onto nanoparticle cores. Stem cells have been investigated to develop targeted nanodevices owing to their excellent intrinsic tissue-specific homing features, protecting them from the immune system to reach the sites of inflammation. This targeting ability is conferred by a surface repertoire of stem cell-associated biomolecules. Such nanoscopical materials offer sustained circulation and boosted drug accumulation at target sites, augmenting therapeutic efficacy and safety. Additionally, the coating of nanoparticles with cell membranes acts as a camouflage mechanism to increase their circulation time. The current review explores the particular features of stem cell membrane coating as multifunctional biomimetic surface functionalization agents to camouflage nanoparticle cores. Biomedical applications of engineered stem cell membrane-coated nanoparticles, challenges in clinical translation, and their future prospects are addressed.
AB - Nanoscale materials have been extensively employed for diagnostic and therapeutic purposes. However, the developed nanosystems still suffer from some limitations, namely the rapid elimination by the immune system, lack of targeting to specific cells, and insufficient biocompatibility. Therefore, novel strategies based upon a biomimetic approach have received attention to improving the pharmacokinetics and safety profile of nanosystems. One promising strategy is the application of a biomimetic coating consisting of cell membranes derived from different cell types onto nanoparticle cores. Stem cells have been investigated to develop targeted nanodevices owing to their excellent intrinsic tissue-specific homing features, protecting them from the immune system to reach the sites of inflammation. This targeting ability is conferred by a surface repertoire of stem cell-associated biomolecules. Such nanoscopical materials offer sustained circulation and boosted drug accumulation at target sites, augmenting therapeutic efficacy and safety. Additionally, the coating of nanoparticles with cell membranes acts as a camouflage mechanism to increase their circulation time. The current review explores the particular features of stem cell membrane coating as multifunctional biomimetic surface functionalization agents to camouflage nanoparticle cores. Biomedical applications of engineered stem cell membrane-coated nanoparticles, challenges in clinical translation, and their future prospects are addressed.
KW - Biomimetic
KW - Cancer
KW - Nanotechnology
KW - Protein corona
KW - Targeted delivery
UR - http://www.scopus.com/inward/record.url?scp=85138145168&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=85138145168&partnerID=8YFLogxK
U2 - 10.1016/j.jconrel.2022.09.012
DO - 10.1016/j.jconrel.2022.09.012
M3 - Review article
C2 - 36103910
AN - SCOPUS:85138145168
SN - 0168-3659
VL - 351
SP - 174
EP - 197
JO - Journal of Controlled Release
JF - Journal of Controlled Release
ER -
