Effects of silver nanoparticles on primary mixed neural cell cultures: Uptake, oxidative stress and acute calcium responses

Haase,A.; Rott,S.; Mantion,A.; Graf,P.; Plendl,J.; Thünemann,A.F.; Meier,W.P.; Taubert,A.; Luch,A.; Reiser,G.

Effects of silver nanoparticles on primary mixed neural cell cultures: Uptake, oxidative stress and acute calcium responses

2012

In the body, nanoparticles can be systemically distributed and then may affect secondary target organs, such as the central nervous system (CNS). Putative adverse effects on the CNS are rarely investigated to date. Here, we used a mixed primary cell model consisting mainly of neurons and astrocytes and a minor proportion of oligodendrocytes to analyze the effects of well-characterized 20 and 40 nm silver nanoparticles (SNP). Similar gold nanoparticles served as control and proved inert for all endpoints tested. SNP induced a strong size-dependent cytotoxicity. Additionally, in the low concentration range (up to 10 ++g/ml of SNP), the further differentiated cultures were more sensitive to SNP treatment. For detailed studies, we used low/medium dose concentrations (up to 20 ++g/ml) and found strong oxidative stress responses. Reactive oxygen species (ROS) were detected along with the formation of protein carbonyls and the induction of heme oxygenase-1. We observed an acute calcium response, which clearly preceded oxidative stress responses. ROS formation was reduced by antioxidants, whereas the calcium response could not be alleviated by antioxidants. Finally, we looked into the responses of neurons and astrocytes separately. Astrocytes were much more vulnerable to SNP treatment compared with neurons. Consistently, SNP were mainly taken up by astrocytes and not by neurons. Immunofluorescence studies of mixed cell cultures indicated stronger effects on astrocyte morphology. Altogether, we can demonstrate strong effects of SNP associated with calcium dysregulation and ROS formation in primary neural cells, which were detectable already at moderate dosages. -® The Author 2012. Published by Oxford University Press on behalf of the Society of Toxicology

Afficher plus [+]

Mots clés AGROVOC

animals antioxidants arrays assessment berlin blood brain calcium carbon cell structure cells cells central nervous system chemistry cns concentration cytotoxicity diseases distribution dopamine effects electron microscopy enzyme enzymes gene genes germany health heat immunofluorescence in vitro inflammation inhibition lipopolysaccharide macrophages mass spectrometry materials metals microscopy microscopy model morphology nanomaterials nanotechnology nervous system neurotoxicity oxidative stress pathology permeability protein rat rats reactive oxygen species research risk risk assessment safety science silver species spectrometry stress surface switzerland system testing toxicity toxicology veterinary medicine

Informations bibliographiques

Publié dans

Toxicological sciences | Toxicol Sci

Volume 126 Numéro 2 Pagination 457 - 468

Editeur Oxford University Press

ISSN 1096-6080 | 1096-0929

D'autres materias

Product; Cellular stress response; Cell-cultures; Silver nanoparticles; Mass-spectrometry; Range; Article; Cultured; Exposure; Bfr; Studies; Acute calcium response; Biological effect; Electron; Transmission; Culture; Mouse; Activation; Quantification; Treatment; Controlled study; Developmental neurotoxicity; Target organs; Nanosilver; Risk-assessment; Target; Product safety; Induce; Animal cell; Mechanisms; Gold nanoparticle; Acute; Study; Nanotoxicology; Changes; Response; Protein carbonyls; Antioxidant; Rat brain; Endpoints; Carbonyl derivative; Nonhuman; Heme oxygenase 1; Vitro; Metal nanoparticles; In-vitro; Lung; Disease; Reference; Endothelial cell; Nerve cell culture; In-vivo; Cultures; Ros; Cell; In vivo; Effect; Human; Oligodendroglia; Veterinary; Neurons; Inhalation; Mechanism; Inhalation toxicity; Reactive oxygen metabolite; Secondary; Release; Parkinson's disease; Responses; Veterinary-medicine; Adverse effects; Potential; Pathway; Silver nanoparticle; Control; Vivo; Polymer; Organ; Astrocyte; German; Expression; Induction; Biological effects; Investigation; Central-nervous-system

Langue

anglais

Type

Journal Article; Text

Sur AGRIS depuis: 2025-02-03

Date de modification: 2025-10-25

Format: MODS

Fournisseur de données

Cette notice bibliographique a été fournie par German Federal Institute for Risk Assessment

Découvrez la collection de ce fournisseur de données dans AGRIS

Liens

DOI https://www.openagrar.de/receive/bimport_mods_00001264

Consulter Google Scholar

Si vous remarquez des informations incorrectes dans cette référence bibliographique, veuillez nous contacter à l'adresse [email protected]

FAO AGRIS - Système international des sciences et technologies agricoles

Share

Effects of silver nanoparticles on primary mixed neural cell cultures: Uptake, oxidative stress and acute calcium responses

2012

Mots clés AGROVOC

Informations bibliographiques