TY - JOUR
T1 - Effects of the protein corona on liposome-liposome and liposome-cell interactions
AU - Corbo, Claudia
AU - Molinaro, Roberto
AU - Taraballi, Francesca
AU - Toledano Furman, Naama E.
AU - Sherman, Michael B.
AU - Parodi, Alessandro
AU - Salvatore, Francesco
AU - Tasciotti, Ennio
N1 - Publisher Copyright:
© 2016 Corbo et al.
PY - 2016/7/4
Y1 - 2016/7/4
N2 - A thorough understanding of interactions occurring at the interface between nanocarriers and biological systems is crucial to predict and interpret their biodistribution, targeting, and efficacy, and thus design more effective drug delivery systems. Upon intravenous injection, nanoparticles are coated by a protein corona (PC). This confers a new biological identity on the particles that largely determines their biological fate. Liposomes have great pharmaceutical versatility, so, as proof of concept, their PC has recently been implicated in the mechanism and efficiency of their internalization into the cell. In an attempt to better understand the interactions between nanocarriers and biological systems, we analyzed the plasma proteins adsorbed on the surface of multicomponent liposomes. Specifically, we analyzed the physical properties and ultrastructure of liposome/PC complexes and the aggregation process that occurs when liposomes are dispersed in plasma. The results of combined confocal microscopy and flow cytometry experiments demonstrated that the PC favors liposome internalization by both macrophages and tumor cells. This work provides insights into the effects of the PC on liposomes’ physical properties and, consequently, liposome-liposome and liposome-cell interactions.
AB - A thorough understanding of interactions occurring at the interface between nanocarriers and biological systems is crucial to predict and interpret their biodistribution, targeting, and efficacy, and thus design more effective drug delivery systems. Upon intravenous injection, nanoparticles are coated by a protein corona (PC). This confers a new biological identity on the particles that largely determines their biological fate. Liposomes have great pharmaceutical versatility, so, as proof of concept, their PC has recently been implicated in the mechanism and efficiency of their internalization into the cell. In an attempt to better understand the interactions between nanocarriers and biological systems, we analyzed the plasma proteins adsorbed on the surface of multicomponent liposomes. Specifically, we analyzed the physical properties and ultrastructure of liposome/PC complexes and the aggregation process that occurs when liposomes are dispersed in plasma. The results of combined confocal microscopy and flow cytometry experiments demonstrated that the PC favors liposome internalization by both macrophages and tumor cells. This work provides insights into the effects of the PC on liposomes’ physical properties and, consequently, liposome-liposome and liposome-cell interactions.
KW - Cancer cells
KW - Liposomes
KW - Macrophages
KW - Protein corona
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U2 - 10.2147/IJN.S109059
DO - 10.2147/IJN.S109059
M3 - Article
C2 - 27445473
AN - SCOPUS:84979701306
SN - 1176-9114
VL - 11
SP - 3049
EP - 3063
JO - International Journal of Nanomedicine
JF - International Journal of Nanomedicine
ER -