Rupture of Lipid Membranes Induced by Amphiphilic Janus Nanoparticles

The surface coatings of nanoparticles determine their interaction with biomembranes, but studies have been limited almost exclusively to nanoparticles with a uniform surface chemistry. Although nanoparticles are increasingly made with complex surface chemistries to achieve multifunctionalities, our...

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Bibliographic Details
Published in:ACS nano 2018-04, Vol.12 (4), p.3646-3657
Main Authors: Lee, Kwahun, Zhang, Liuyang, Yi, Yi, Wang, Xianqiao, Yu, Yan
Format: Article
Language:English
Subjects:
Lipid Bilayers - chemistry
Nanoparticles - chemistry
Particle Size
Surface Properties
Surface-Active Agents - chemistry
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Summary:The surface coatings of nanoparticles determine their interaction with biomembranes, but studies have been limited almost exclusively to nanoparticles with a uniform surface chemistry. Although nanoparticles are increasingly made with complex surface chemistries to achieve multifunctionalities, our understanding of how a heterogeneous surface coating affects particle–biomembrane interaction has been lagging far behind. Here we report an investigation of this question in an experimental system consisting of amphiphilic “two-faced” Janus nanoparticles and supported lipid membranes. We show that amphiphilic Janus nanoparticles at picomolar concentrations induce defects in zwitterionic lipid bilayers. In addition to revealing the various effects of hydrophobicity and charge in particle–bilayer interactions, we demonstrate that the Janus geometrythe spatial segregation of hydrophobicity and charges on particle surfacecauses nanoparticles to bind more strongly to bilayers and induce defects more effectively than particles with uniformly mixed surface functionalities. We combine experiments with computational simulation to further elucidate how amphiphilic Janus nanoparticles extract lipids to rupture intact lipid bilayers. This study provides direct evidence that the spatial arrangement of surface functionalities on a nanoparticle, rather than just its overall surface chemistry, plays a crucial role in determining how it interacts with biological membranes.
ISSN:1936-0851
1936-086X
DOI:10.1021/acsnano.8b00759