Uptake efficiency of surface modified gold nanoparticles does not correlate with functional changes and cytokine secretion in human dendritic cells in vitro.

[1]  J. Hillier,et al.  A study of the nucleation and growth processes in the synthesis of colloidal gold , 1951 .

[2]  G. Frens Controlled Nucleation for the Regulation of the Particle Size in Monodisperse Gold Suspensions , 1973 .

[3]  E R Weibel,et al.  The normal human lung: ultrastructure and morphometric estimation of diffusion capacity. , 1978, Respiration physiology.

[4]  P. Holt,et al.  Characterization of dendritic cell populations in the respiratory tract. , 2000, Journal of aerosol medicine : the official journal of the International Society for Aerosols in Medicine.

[5]  C Caux,et al.  Immunobiology of dendritic cells. , 2000, Annual review of immunology.

[6]  Ira Mellman,et al.  Dendritic Cells Specialized and Regulated Antigen Processing Machines , 2001, Cell.

[7]  J. Hauber,et al.  CD83 on dendritic cells: more than just a marker for maturation. , 2002, Trends in immunology.

[8]  David R. Smith,et al.  Local Refractive Index Dependence of Plasmon Resonance Spectra from Individual Nanoparticles , 2003 .

[9]  J. Feijen,et al.  Segmented Multifunctional Poly(ether ester) Polymers Containing H-Bonding Units. Preparation and Characterization , 2004 .

[10]  R. Pauwels,et al.  Identification and characterization of human pulmonary dendritic cells. , 2005, American journal of respiratory cell and molecular biology.

[11]  A. C. Hunter,et al.  Nanomedicine: current status and future prospects , 2005, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[12]  R. Shukla,et al.  Biocompatibility of gold nanoparticles and their endocytotic fate inside the cellular compartment: a microscopic overview. , 2005, Langmuir : the ACS journal of surfaces and colloids.

[13]  A. Dobrynin,et al.  Theory of polyelectrolytes in solutions and at surfaces , 2005 .

[14]  M. Davies,et al.  Biophysical and transfection studies of an amine-modified poly(vinyl alcohol) for gene delivery. , 2005, Bioconjugate chemistry.

[15]  R. Pauwels,et al.  Pulmonary dendritic cells. , 2005, American journal of respiratory and critical care medicine.

[16]  J. Kimling,et al.  Turkevich method for gold nanoparticle synthesis revisited. , 2006, The journal of physical chemistry. B.

[17]  藤本 陽子 CD83 : a regulatory molecule of the immune system with great potential for therapeutic application , 2006 .

[18]  Flavourings Opinion of the Scientific Panel on food additives, flavourings, processing aids and materials in contact with food (AFC) related to the use of polyvinyl alcohol as a coating agent for food supplements , 2006 .

[19]  A. Steinkasserer,et al.  CD83: an update on functions and prospects of the maturation marker of dendritic cells , 2007, Archives of Dermatological Research.

[20]  B. Pulliam,et al.  Nanoparticles for drug delivery to the lungs. , 2007, Trends in biotechnology.

[21]  Jeffrey W Card,et al.  Pulmonary applications and toxicity of engineered nanoparticles. , 2008, American journal of physiology. Lung cellular and molecular physiology.

[22]  P. Holt,et al.  Regulation of immunological homeostasis in the respiratory tract , 2008, Nature Reviews Immunology.

[23]  Alaaldin M. Alkilany,et al.  Gold nanoparticles in biology: beyond toxicity to cellular imaging. , 2008, Accounts of chemical research.

[24]  Vincent M Rotello,et al.  Gold nanoparticles in delivery applications. , 2008, Advanced drug delivery reviews.

[25]  Jeffrey A. Hubbell,et al.  Materials engineering for immunomodulation , 2009, Nature.

[26]  C. von Garnier,et al.  Immunology taught by lung dendritic cells. , 2009, Swiss medical weekly.

[27]  Christian Mühlfeld,et al.  Quantitative evaluation of cellular uptake and trafficking of plain and polyethylene glycol-coated gold nanoparticles. , 2010, Small.

[28]  T. Randall Pulmonary dendritic cells: thinking globally, acting locally , 2010, The Journal of experimental medicine.

[29]  W. Seeger,et al.  Amine-Modified Poly(Vinyl Alcohol)s as Non-viral Vectors for siRNA Delivery: Effects of the Degree of Amine Substitution on Physicochemical Properties and Knockdown Efficiency , 2010, Pharmaceutical Research.

[30]  J. Hubbell,et al.  Antigen delivery to dendritic cells by poly(propylene sulfide) nanoparticles with disulfide conjugated peptides: Cross-presentation and T cell activation. , 2010, Vaccine.

[31]  Patrice Marche,et al.  Analysis of the toxicity of gold nano particles on the immune system: effect on dendritic cell functions , 2010, Journal of nanoparticle research : an interdisciplinary forum for nanoscale science and technology.

[32]  B. Liedberg,et al.  Polypeptide folding-mediated tuning of the optical and structural properties of gold nanoparticle assemblies. , 2011, Nano letters.

[33]  Alke Petri-Fink,et al.  Biomedical nanoparticles modulate specific CD4+ T cell stimulation by inhibition of antigen processing in dendritic cells , 2011, Nanotoxicology.

[34]  Soumen Das,et al.  PEGylated Inorganic Nanoparticles , 2011 .

[35]  Dhiraj Kumar,et al.  Polyethylene glycol functionalized gold nanoparticles: the influence of capping density on stability in various media , 2011 .

[36]  J. Hubbell,et al.  Engineering complement activation on polypropylene sulfide vaccine nanoparticles. , 2011, Biomaterials.

[37]  O. Schmid,et al.  Realistic Exposure Methods for Investigating the Interaction of Nanoparticles with the Lung at the Air-Liquid Interface In Vitro , 2011 .

[38]  Fuke Wang,et al.  PEG-POSS assisted facile preparation of amphiphilic gold nanoparticles and interface formation of Janus nanoparticles. , 2011, Chemical communications.

[39]  S. Gambhir,et al.  Gold nanoparticles: a revival in precious metal administration to patients. , 2011, Nano letters.

[40]  F. Granucci,et al.  Uniform lipopolysaccharide (LPS)-loaded magnetic nanoparticles for the investigation of LPS-TLR4 signaling. , 2011, Angewandte Chemie.

[41]  A. Baas,et al.  FDA-approved poly(ethylene glycol)–protein conjugate drugs , 2011 .

[42]  Bengt Fadeel,et al.  Clear and present danger? Engineered nanoparticles and the immune system. , 2012, Swiss medical weekly.

[43]  Jeffrey A Hubbell,et al.  Engineering Approaches to Immunotherapy , 2012, Science Translational Medicine.

[44]  Kevin Braeckmans,et al.  Polymer-coated nanoparticles interacting with proteins and cells: focusing on the sign of the net charge. , 2013, ACS nano.

[45]  M. Moniatte,et al.  Surface charge of polymer coated SPIONs influences the serum protein adsorption, colloidal stability and subsequent cell interaction in vitro. , 2013, Nanoscale.

[46]  Alke Fink,et al.  Size-dependent uptake of particles by pulmonary antigen-presenting cell populations and trafficking to regional lymph nodes. , 2013, American journal of respiratory cell and molecular biology.

[47]  Chia-Chi Wang,et al.  Iron oxide nanoparticles suppress the production of IL-1beta via the secretory lysosomal pathway in murine microglial cells , 2013, Particle and Fibre Toxicology.

[48]  Luigi Calzolai,et al.  Gold nanoparticles downregulate interleukin-1β-induced pro-inflammatory responses. , 2013, Small.

[49]  Takafumi Ninomiya,et al.  Gold nanoparticles as a vaccine platform: influence of size and shape on immunological responses in vitro and in vivo. , 2013, ACS nano.

[50]  B. Rothen‐Rutishauser,et al.  Fluorescence-encoded gold nanoparticles: library design and modulation of cellular uptake into dendritic cells. , 2014, Small.