Journal
ACS NANO
Volume 7, Issue 12, Pages 10525-10533Publisher
AMER CHEMICAL SOC
DOI: 10.1021/nn4054683
Keywords
nanoparticle; protein corona; pulmonary surfactant; molecular dynamics
Categories
Funding
- MOST [2011CB707604]
- NSFC [11272321, 11272327]
- NSF [CBET-1236596]
- Directorate For Engineering
- Div Of Chem, Bioeng, Env, & Transp Sys [1236596] Funding Source: National Science Foundation
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Interaction with the pulmonary surfactant film, being the first line of host defense, represents the initial bio-nano interaction in the lungs. Such interaction determines the fate of the inhaled nanoparticles and their potential therapeutic or toxicological effect. Despite considerable progress in optimizing physicochemical properties of nanoparticles for improved delivery and targeting, the mechanisms by which inhaled nanoparticles interact with the pulmonary surfactant film are still largely unknown. Here, using combined in vitro and in silico methods, we show how hydrophobicity and surface charge of nanoparticles differentially regulate the translocation and interaction with the pulmonary surfactant film. While hydrophilic nanoparticles generally translocate quickly across the pulmonary surfactant film, a significant portion of hydrophobic nanoparticles are trapped by the surfactant film and encapsulated in lipid protrusions upon film compression. Our results support a novel model of pulmonary surfactant lipoprotein corona associated with inhaled nanoparticles of different physicochemical properties. Our data suggest that the study of pulmonary nanotoxicology and nanoparticle-based pulmonary drug delivery should consider this lipoprotein corona.
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