Inert 50-nm Polystyrene Nanoparticles That Modify Pulmonary Dendritic Cell Function and Inhibit Allergic Airway Inflammation
Details
Publication Year 2012-02-01,Volume 188,Issue #3,Page 1431-1441
Journal Title
JOURNAL OF IMMUNOLOGY
Publication Type
Journal Article
Abstract
Nanoparticles are being developed for diverse biomedical applications, but there is concern about their potential to promote inflammation, particularly in the lung. Although a variety of ambient, anthropogenic and man-made nanoparticles can promote lung inflammation, little is known about the long-term immunomodulatory effects of inert noninflammatory nanoparticles. We previously showed polystyrene 50-nm nanoparticles coated with the neutral amino acid glycine (PS50G nanoparticles) are not inflammatory and are taken up preferentially by dendritic cells (DCs) in the periphery. We tested the effects of such nanoparticles on pulmonary DC function and the development of acute allergic airway inflammation. Surprisingly, exposure to PS50G nanoparticles did not exacerbate but instead inhibited key features of allergic airway inflammation including lung airway and parenchymal inflammation, airway epithelial mucus production, and serum allergen-specific IgE and allergen-specific Th2 cytokines in the lung-draining lymph node (LN) after allergen challenge 1 mo later. PS50G nanoparticles themselves did not induce lung oxidative stress or cardiac or lung inflammation. Mechanistically, PS50G nanoparticles did not impair peripheral allergen sensitization but exerted their effect at the lung allergen challenge phase by inhibiting expansion of CD11c(+)MHCII(hi) DCs in the lung and draining LN and allergen-laden CD11b(hi)MHCII(hi) DCs in the lung after allergen challenge. PS50G nanoparticles further suppressed the ability of CD11b(hi) DCs in the draining LN of allergen-challenged mice to induce proliferation of OVA-specific CD4(+) T cells. The discovery that a defined type of nanoparticle can inhibit, rather than promote, lung inflammation via modulation of DC function opens the door to the discovery of other nanoparticle types with exciting beneficial properties. The Journal of Immunology, 2012, 188: 1431-1441.
Publisher
AMER ASSOC IMMUNOLOGISTS
Keywords
DIESEL EXHAUST PARTICLES; ULTRAFINE PARTICLES; LUNG INFLAMMATION; RESPIRATORY-TRACT; ADJUVANT ACTIVITY; EPITHELIAL-CELLS; LYMPH-NODES; MOUSE MODEL; T-CELLS; ASTHMA
Research Division(s)
Molecular Immunology
Terms of Use/Rights Notice
Copyright ©2013 by The American Association of Immunologists, Inc. All rights reserved


Creation Date: 2012-02-01 12:00:00
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