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1.
Environ Mol Mutagen ; 56(2): 245-64, 2015 Mar.
Article in English | MEDLINE | ID: mdl-25504612

ABSTRACT

We applied transcriptional profiling to elucidate the mechanisms associated with pulmonary responses to titanium dioxide (TiO2 ) nanoparticles (NPs) of different sizes and surface coatings, and to determine if these responses are modified by NP size, surface area, surface modification, and embedding in paint matrices. Adult C57BL/6 mice were exposed via single intratracheal instillations to free forms of TiO2 NPs (10, 20.6, or 38 nm in diameter) with different surface coatings, or TiO2 NPs embedded in paint matrices. Controls were exposed to dispersion medium devoid of NPs. TiO2 NPs were characterized for size, surface area, chemical impurities, and agglomeration state in the exposure medium. Pulmonary transcriptional profiles were generated using microarrays from tissues collected one and 28 d postexposure. Property-specific pathway effects were identified. Pulmonary protein levels of specific inflammatory cytokines and chemokines were confirmed by ELISA. The data were collapsed to 659 differentially expressed genes (P ≤ 0.05; fold change ≥ 1.5). Unsupervised hierarchical clustering of these genes revealed that TiO2 NPs clustered mainly by postexposure timepoint followed by particle type. A pathway-based meta-analysis showed that the combination of smaller size, large deposited surface area, and surface amidation contributes to TiO2 NP gene expression response. Embedding of TiO2 NP in paint dampens the overall transcriptional effects. The magnitude of the expression changes associated with pulmonary inflammation differed across all particles; however, the underlying pathway perturbations leading to inflammation were similar, suggesting a generalized mechanism-of-action for all TiO2 NPs. Thus, transcriptional profiling is an effective tool to determine the property-specific biological/toxicity responses induced by nanomaterials.


Subject(s)
Inflammation/genetics , Lung/drug effects , Metal Nanoparticles/adverse effects , Titanium/adverse effects , Animals , Gene Expression Regulation/drug effects , Inflammation/chemically induced , Inflammation/pathology , Lung/metabolism , Lung/pathology , Mice , Oxidative Stress/drug effects , Proteomics , Tissue Array Analysis
2.
Reprod Toxicol ; 41: 86-97, 2013 Nov.
Article in English | MEDLINE | ID: mdl-23714338

ABSTRACT

We studied the effects of preconceptional exposure to multiwalled carbon nanotubes (MWCNTs): mature, female C57BL/6J mice were intratracheally instilled with 67µg NM-400 MWCNT, and the following day co-housed with mature males, in breeding pairs. Time to delivery of the first litter, litter parameters, maternal inflammation and histopathology of lung and liver were recorded. In male offspring, locomotor activity, startle response, and daily sperm production (DSP) were assessed. In the dams, lung and liver bore evidence of MWCNT exposure when assessed 6 weeks and 4 months after exposure. A short delay in the delivery of the first litter was observed in exposed females. Litter parameters, behavior and DSP were similar in control and exposed groups. In conclusion, instillation of a single dose of MWCNT induced long lasting pathological changes in dam lung and liver. Theoretically, lung inflammation due to particle exposure could interfere with female reproductive parameters. Whether the observed lag in delivery of a first litter was in fact caused by exposure to MWCNT should be addressed in a study designed specifically to elucidate effects on the early processes involved in establishment of pregnancy. Exposure was not associated with changes in the assessed gestational or offspring parameters.


Subject(s)
Liver/drug effects , Lung/drug effects , Nanotubes, Carbon/toxicity , Pneumonia/chemically induced , Animals , Bronchoalveolar Lavage Fluid/cytology , Female , Fertility/drug effects , Liver/pathology , Lung/pathology , Male , Mice , Mice, Inbred C57BL , Motor Activity/drug effects , Pneumonia/pathology , Pregnancy , Reflex, Startle/drug effects , Spermatogenesis/drug effects
3.
Mutat Res ; 745(1-2): 21-7, 2012 Jun 14.
Article in English | MEDLINE | ID: mdl-22027682

ABSTRACT

In this work in situ proliferation of A549 human lung epithelial carcinoma cells exposed to nanomaterials (NMs) was investigated in the presence or absence of 10% serum. NMs were selected based on chemical composition, size, charge and shape (Lys-SiO(2), TiO(2), ZnO, and multi walled carbon nanotubes, MWCNTs). Cells were treated with NMs and 4h later, cytochalasin-B was added. 36 h later, cell morphology was analyzed under a light microscope. Nuclearity was scored to determine the cytokinesis-block proliferation index (CBPI). CBPI, based on percentage of mono-, bi- and multi-nucleated cells, reflects cell toxicity and cell cycle delay. For some conditions depending on NM type (TiO(2) and MWCNT) and serum concentration (0%) scoring of CBPI was impossible due to overload of agglomerated NMs. Moreover, where heavy agglomeration occurs, micronuclei (MN) detection and scoring under microscope was prevented. A statistically significant decrease of CBPI was found for ZnO NM suspended in medium in the absence or presence of 10% serum at 25 µg/ml and 50 µg/ml, respectively and for Lys-SiO(2) NM at 3.5 µg/ml in 0% serum. Increase in MN frequency was observed in cells treated in 10% serum with 50 µg/ml ZnO. In 0% serum, the concentrations tested led to high toxicity. No genotoxic effects were induced by Lys-SiO(2) both in the absence or presence of serum up to 5 µg/ml. No toxicity was detected for TiO(2) and MWCNTs in both 10% and 0% serum, up to the dose of 250 µg/ml. Restoration of CBPI comparable to untreated control was shown for cells cultured without serum and treated with 5 µg/ml of Lys-SiO(2) NM pre-incubated in 100% serum. This observation confirms the protective effect of serum on Lys-SiO(2) NM cell toxicity. In conclusion in situ CBPI is proposed as a simple preliminary assay to assess both NMs induced cell toxicity and feasibility of MN scoring under microscope.


Subject(s)
Adenocarcinoma/genetics , Cell Proliferation/drug effects , DNA Damage/drug effects , Lung Neoplasms/genetics , Mutagens/toxicity , Nanostructures/toxicity , Serum , Adenocarcinoma of Lung , Cell Cycle/drug effects , Cell Line, Tumor , Humans , Micronucleus Tests , Nanotubes, Carbon/toxicity , Silicon Dioxide/toxicity
4.
Part Fibre Toxicol ; 7: 16, 2010 Jun 14.
Article in English | MEDLINE | ID: mdl-20546558

ABSTRACT

BACKGROUND: Engineered nanoparticles are smaller than 100 nm and designed to improve or achieve new physico-chemical properties. Consequently, also toxicological properties may change compared to the parent compound. We examined developmental and neurobehavioral effects following maternal exposure to a nanoparticulate UV-filter (UV-titan L181). METHODS: Time-mated mice (C57BL/6BomTac) were exposed by inhalation 1h/day to 42 mg/m(3) aerosolized powder (1.7.10(6) n/cm(3); peak-size: 97 nm) on gestation days 8-18. Endpoints included: maternal lung inflammation; gestational and litter parameters; offspring neurofunction and fertility. Physicochemical particle properties were determined to provide information on specific exposure and deposition. RESULTS: Particles consisted of mainly elongated rutile titanium dioxide (TiO2) with an average crystallite size of 21 nm, modified with Al, Si and Zr, and coated with polyalcohols. In exposed adult mice, 38 mg Ti/kg was detected in the lungs on day 5 and differential cell counts of bronchoalveolar lavage fluid revealed lung inflammation 5 and 26-27 days following exposure termination, relative to control mice. As young adults, prenatally exposed offspring tended to avoid the central zone of the open field and exposed female offspring displayed enhanced prepulse inhibition. Cognitive function was unaffected (Morris water maze test). CONCLUSION: Inhalation exposure to nano-sized UV Titan dusts induced long term lung inflammation in time-mated adult female mice. Gestationally exposed offspring displayed moderate neurobehavioral alterations. The results are discussed in the light of the observed particle size distribution in the exposure atmosphere and the potential pathways by which nanoparticles may impart changes in fetal development.


Subject(s)
Lung/drug effects , Metal Nanoparticles/toxicity , Pneumonia/chemically induced , Titanium/toxicity , Animals , Behavior, Animal/drug effects , Bronchoalveolar Lavage Fluid/chemistry , Exploratory Behavior/drug effects , Female , Lung/chemistry , Lung/pathology , Male , Maternal Exposure , Maze Learning/drug effects , Metal Nanoparticles/analysis , Mice , Mice, Inbred C57BL , Mice, Inbred CBA , Organ Size/drug effects , Particle Size , Pregnancy , Prenatal Exposure Delayed Effects/chemically induced , Reproduction/drug effects , Titanium/analysis , Titanium/pharmacokinetics
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