Journal ArticleDOI
Understanding biophysicochemical interactions at the nano–bio interface
Andre E. Nel,Lutz Mädler,Darrell Velegol,Tian Xia,Eric M.V. Hoek,Ponisseril Somasundaran,Fred Klaessig,Vince Castranova,Mike Thompson +8 more
TLDR
Probing the various interfaces of nanoparticle/biological interfaces allows the development of predictive relationships between structure and activity that are determined by nanomaterial properties such as size, shape, surface chemistry, roughness and surface coatings.Abstract:
Rapid growth in nanotechnology is increasing the likelihood of engineered nanomaterials coming into contact with humans and the environment. Nanoparticles interacting with proteins, membranes, cells, DNA and organelles establish a series of nanoparticle/biological interfaces that depend on colloidal forces as well as dynamic biophysicochemical interactions. These interactions lead to the formation of protein coronas, particle wrapping, intracellular uptake and biocatalytic processes that could have biocompatible or bioadverse outcomes. For their part, the biomolecules may induce phase transformations, free energy releases, restructuring and dissolution at the nanomaterial surface. Probing these various interfaces allows the development of predictive relationships between structure and activity that are determined by nanomaterial properties such as size, shape, surface chemistry, roughness and surface coatings. This knowledge is important from the perspective of safe use of nanomaterials.read more
Citations
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Journal ArticleDOI
Physical Principles of Nanoparticle Cellular Endocytosis.
Sulin Zhang,Huajian Gao,Gang Bao +2 more
TL;DR: How the kinetics, energetics, and forces are related to these interactions and dependent on the size, shape, and stiffness of nanoparticles, the biomechanical properties of the cell membrane, as well as the local environment of the cells are discussed.
Journal ArticleDOI
Endocytosis at the nanoscale
Irene Canton,Giuseppe Battaglia +1 more
TL;DR: An overview of the biology of endocytosis is presented and its implications in cell internalisation of nanoparticles are discussed, including how nanoparticle size, shape and surface chemistry can control this process effectively.
Journal ArticleDOI
Mesoporous Silica Nanoparticle Nanocarriers: Biofunctionality and Biocompatibility
TL;DR: Recent efforts to develop MSNPs as biocompatible nanocarriers that simultaneously display multiple functions including high visibility/contrast in multiple imaging modalities, dispersibility, binding specificity to a particular target tissue or cell type, ability to load and deliver large concentrations of diverse cargos, and triggered or controlled release of cargo.
Journal ArticleDOI
Block Copolymer Micelles in Nanomedicine Applications.
TL;DR: By shaping these features, polymeric micelles have been propitious for delivering a wide range of therapeutics through effective sensing of targets in the body and adjustment of their properties in response to particular stimuli, modulating the activity of the loaded drugs at the targeted sites, even at the subcellular level.
Journal ArticleDOI
Insight into Cellular Uptake and Intracellular Trafficking of Nanoparticles.
TL;DR: This review attempts to shed light on some of the studies carried out on the different possible uptake pathways of nanoparticles and intracellular trafficking routes and the effect of physicochemical properties of nanoparticle such as size, shape, charge and surface chemistry in determining the mechanism of uptake and biological function of nanop particles.
References
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Determining the size and shape dependence of gold nanoparticle uptake into mammalian cells.
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Opsonization, biodistribution, and pharmacokinetics of polymeric nanoparticles
TL;DR: This work has shown that addition of PEG and PEG-containing copolymers to the surface of nanoparticles results in an increase in the blood circulation half-life of the particles by several orders of magnitude, and creates a hydrophilic protective layer around the nanoparticles that is able to repel the absorption of opsonin proteins via steric repulsion forces.