Probing Nanoparticle/Membrane Interactions by Combining Amphiphilic Diblock Copolymer Assembly and Plasmonics
Understanding the interactions between nanoparticles (NPs) and boundaries of cells is crucial both for their toxicity and therapeutic applications. Besides specific receptor-mediated endocytosis of surface-functionalized NPs, passive internalization is prompted by relatively unspecific parameters, such as particle size and charge. Based on theoretical treatments, adhesion to and bending of the cell membrane can induce NP wrapping. Experimentally, powerful tools are needed to selectively probe possible membrane-NP motifs at very dilute conditions and avoid dye labeling. In this work, we employ surface resonance-enhanced dynamic light scattering, surface plasmon resonance, electron microscopy, and simulations for sensing interactions between plasmonic AuNPs and polymersomes. We distinguish three different interaction scenarios at nanomolar concentrations by tuning the surface charge of AuNPs and rationalize these events by balancing vesicle bending and electrostatic/van der Waals AuNP and vesicle adhesion. The clarification of the physical conditions under which nanoparticles passively translocate across membranes can aid in the rational design of drugs that cannot exploit specific modes of cellular uptake and also elucidates physical properties that render nanoparticles in the environment particularly toxic.
Three different interaction scenarios at nanomolar concentrations are distinguished by tuning the surface charge of AuNPs and rationalize these events by balancing vesicle bending and electrostatic/van der Waals AuNP and vesicles adhesion.
@article{Koch_2020,
doi = {10.1021/acs.jpcb.9b10469},
url = {https://doi.org/10.1021%2Facs.jpcb.9b10469},
year = 2020,
month = {jan},
publisher = {American Chemical Society ({ACS})},
volume = {124},
number = {5},
pages = {742--750},
author = {Amelie H.R. Koch and Svenja Morsbach and Tristan Bereau and Gaëtan L{\'{e}}v{\^{e}}que and Hans-Jürgen Butt and Markus Deserno and Katharina Landfester and George Fytas},
title = {Probing Nanoparticle/Membrane Interactions by Combining Amphiphilic Diblock Copolymer Assembly and Plasmonics},
journal = {The Journal of Physical Chemistry B}
}