Issue 7, 2019

Effect of molecular crowding on the biological identity of liposomes: an overlooked factor at the bio-nano interface

Abstract

Once embedded in a physiological environment, the surface of nanoparticles (NPs) gets covered with a biomolecular corona (BC) that alters their synthetic characteristics and subsequently gives them a peculiar biological identity. Despite recent studies having clarified the role of NP composition, surface chemistry and biological source (e.g., human/animal serum or plasma) in the formation of the BC, little is known about the possible impact of molecular crowding. To fill this gap, we used a cationic liposomal formulation as a model system and studied its biological identity upon incubation with human plasma, at a fixed liposome-to-plasma volume ratio and different concentrations. We carried out dynamic light scattering measurements to quantify the size and zeta potential of the investigated systems and gel electrophoresis to evaluate the composition of the corresponding coronas. Our findings suggest that NP stability may be compromised by molecular crowding, but the corona composition is stable over a wide range of concentrations, which extend over more than two orders of magnitude. As the biological identity of NPs eventually determines their final fate in vivo, we predict that this study could contribute to the development of a safe and effective nanosystem for the targeted delivery of therapeutic agents.

Graphical abstract: Effect of molecular crowding on the biological identity of liposomes: an overlooked factor at the bio-nano interface

Article information

Article type
Communication
Submitted
29 Mar 2019
Accepted
14 May 2019
First published
31 May 2019
This article is Open Access
Creative Commons BY license

Nanoscale Adv., 2019,1, 2518-2522

Effect of molecular crowding on the biological identity of liposomes: an overlooked factor at the bio-nano interface

L. Digiacomo, F. Giulimondi, M. Mahmoudi and G. Caracciolo, Nanoscale Adv., 2019, 1, 2518 DOI: 10.1039/C9NA00195F

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