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ABSTRACT: Abstract Macrophages and alveolar epithelial cells are the first targets of inhaled nanoparticles (NPs) reaching the alveoli. Mono- or co-cultures of lung epithelial (A549 or NCI-H441) and macrophage (THP-1) cell lines were used to study the cell cooperation and the involvement of the P2X(7) cell death receptor during the inflammation caused by SiO(2) and TiO(2) NPs. Here we show that, secretion of pro-inflammatory cytokines (IL-1β, IL-6 and IL-8) in response to NPs exposure was higher in co-cultures than in mono-cultures. A functional P2X(7) receptor was found in all the cell lines studied. Its involvement in IL-1β secretion in co-cultures was demonstrated using a specific antagonist, the brilliant blue G. Furthermore, mono and co-cultures exhibited distinct secretion patterns of pro-inflammatory cytokines in response to NPs exposure, and we provide the first evidence that the P2X(7) receptor is involved in the inflammation triggered by SiO(2) and TiO(2) NPs, by increasing IL-1β secretion, and likely through the inflammasome pathway. Altogether, our data indicate that cell co-cultures used in this study represent valid models to study the inflammatory mechanisms of NPs within the alveoli.
Nanotoxicology 09/2012; · 5.76 Impact Factor
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Agnès Roulet,
Lucie Armand,
Maylis Dagouassat,
Françoise Rogerieux,
Angélique Simon-Deckers,
Esther Belade,
Jeanne Tran Van Nhieu,
Sophie Lanone,
Jean-Claude Pairon, Ghislaine Lacroix,
Jorge Boczkowski
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ABSTRACT: BACKGROUND: Titanium dioxide (TiO2) and carbon black (CB) nanoparticles (NPs) have biological effects that could aggravate pulmonary emphysema. The aim of this study was to evaluate whether pulmonary administration of TiO2 or CB NPs in rats could induce and/or aggravate elastase-induced emphysema, and to investigate the underlying molecular mechanisms. METHODS: On day 1, Sprague-Dawley rats were intratracheally instilled with 25 U kg1 pancreatic porcine elastase or saline. On day 7, they received an intratracheal instillation of TiO2 or CB (at 100 and 500 mug) dispersed in bovine serum albumin or bovine serum albumin alone. Animals were sacrificed at days 8 or 21, and bronchoalveolar lavage (BAL) cellularity, histological analysis of inflammation and emphysema, and lung mRNA expression of heme oxygenase-1 (HO-1), interleukin-1beta (IL-1beta), macrophage inflammatory protein-2, monocyte chemotactic protein-1, and matrix metalloprotease (MMP)-1, and -12 were measured. In addition, pulmonary MMP-12 expression was also analyzed at the protein level by immunohistochemistry. RESULTS: TiO2 NPs per se did not modify the parameters investigated, but CB NPs increased perivascular/peribronchial infiltration, and macrophage MMP-12 expression, without inducing emphysema. Elastase administration increased BAL cellularity, histological inflammation, HO-1, IL-1beta and macrophage MMP-12 expression and induced emphysema. Exposure to TiO2 NPs did not modify pulmonary responses to elastase, but exposure to CB NPs aggravated elastase-induced histological inflammation without aggravating emphysema. CONCLUSIONS: TiO2 and CB NPs did not aggravate elastase-induced emphysema. However, CB NPs induced histological inflammation and MMP-12 mRNA and protein expression in macrophages.
BMC Pulmonary Medicine 07/2012; 12(1):38. · 1.33 Impact Factor
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ABSTRACT: The interaction of particulate and gaseous pollutants in their effects on the severity of allergic inflammation and airway responsiveness are not well understood. We assessed the effect of exposure to NO(2) in the presence or absence of repetitive treatment with carbon nanoparticle (CNP) during allergen sensitization and challenges in Borwn-Norway (BN) rat, in order to assess their interactions on lung function and airway responses (AR) to allergen and methacholine (MCH), end-expiratory lung volume (EELV), bronchoalveolar lavage fluid (BALF) cellular content, serum and BALF cytokine levels and histological changes. Animals were divided into the following groups (n = 6): Control; CNP (Degussa-FW2): 13 nm, 0.5 mg/kg instilled intratracheally ×3 at 7-day intervals; OVA: ovalbumin-sensitised; OVA+CNP: both sensitized and exposed to CNP. Rats were divided into equal groups exposed either to air or to NO(2), 10 ppm, 6 h/d, 5d/wk for 4 weeks. Exposure to NO(2), significantly enhanced lung inflammation and airway reactivity, with a significantly larger effect in animals sensitized to allergen, which was related to a higher expression of TH1 and TH2-type cytokines. Conversely, exposure to NO(2) in animals undergoing repeated tracheal instillation of CNP alone, increased BALF neutrophilia and enhanced the expression of TH1 cytokines: TNF-α and IFN-γ, but did not show an additive effect on airway reactivity in comparison to NO(2) alone. The exposure to NO(2) combined with CNP treatment and allergen sensitization however, unexpectedly resulted in a significant decrease in both airway reactivity to allergen and to methacholine, and a reduction in TH2-type cytokines compared to allergen sensitization alone. EELV was significantly reduced with sensitization, CNP treatment or both. These data suggest an immunomodulatory effect of repeated tracheal instillation of CNP on the proinflammatory effects of NO(2) exposure in sensitized BN rat. Furthermore, our findings suggest that NO(2), CNP and OVA sensitization may significantly slow overall lung growth in parenchymally mature animals.
PLoS ONE 01/2012; 7(9):e45687. · 4.09 Impact Factor
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ABSTRACT: Grass pollen is one of the most important vectors of aeroallergens. Under atmospheric conditions, pollen grains can release pollen cytoplasmic granules (PCGs). The allergens associated with these intrinsic subfractions induce, in laboratory animals as well as in asthmatic patients, allergic and inflammatory responses. The objectives of this study were to characterize the PCGs' intrinsic allergens and to compare them with those of pollen grains. The water-soluble proteins were extracted from pollen grains and their PCGs. IgE-binding proteins were analyzed and characterized through an allergomic strategy: 1- and 2-dimensional gel electrophoresis (1-DE and 2-DE), immunoblotting, using grass-pollen-sensitized patient sera, mass spectrometry (MS) analysis, and database searching. Several of the allergens listed in the IUIS nomenclature, Phl p 1, 4, 5, 6, and 12, were detected in pollen and PCG extracts, whereas Phl p 11 was found only in PCGs, and Phl p 2 as well as Phl p 13 were found only in pollen extract. Some other allergens not listed in the IUIS nomenclature were also characterized in both pollen and PCG extracts. Since the major grass pollen allergens were found in PCGs and because of their small size, these submicronic particles should be considered as very potent sensitizing and challenging respirable vectors of allergens.
Journal of Proteome Research 12/2011; 11(2):1208-16. · 5.11 Impact Factor
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ABSTRACT: Grass pollen is one of the most important aeroallergens in Europe. It highly contributes to respiratory allergic diseases, mainly allergic rhinitis. In contact to water or airborne pollutants, pollen grains can release pollen cytoplasmic granules (PCGs) containing allergens. Because of their size (<5 μm), PCGs may penetrate deeper into the lungs to induce higher allergic responses, such as asthma. They have been associated with thunderstorm-related asthma. The aim of this study was to evaluate, with Brown Norway rats, the allergenic potential of isolated PCGs and to compare it with the allergenicity of whole timothy grass pollen.
Rats were sensitized (day 0) and challenged (day 21), in controlled comparative conditions, with pollen grains (0.5 mg) or PCGs (4.5 × 10⁷ and 0.5 mg). At day 25, blood samples, bronchoalveolar lavage fluid (BALF) and bronchial lymph node were collected. IgE and IgG1 levels in sera were assessed by ELISA. Alveolar cells, protein and cytokine concentrations were quantified in BALF. T cell proliferation, in response to pollen or granules, was performed by lymph node assay.
The results showed that proliferative responses of lymph node cells were similar in PCG- and pollen-sensitized rats. IgE and IgG1 levels were higher in pollen- than in PCG-sensitized rats. However, eosinophils, lymphocytes and pro-allergy cytokines in BALF were higher in PCG- than in pollen-sensitized rats.
Thus, PCGs, able to deeply penetrate in the respiratory tract, induced local and strong allergic and inflammatory responses more linked with asthma- than rhinitis-related allergic symptoms.
International Archives of Allergy and Immunology 01/2011; 154(2):128-36. · 2.40 Impact Factor
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ABSTRACT: : Grass pollen grain, an important aeroallergen, can disperse in the environment pollen cytoplasmic granules (PCGs) able to release water-soluble allergens when they are washed out by rainfall. The allergenicity of these washed PCGs is, however, preserved.
: The purpose of the study was to assess the allergenic potential of washed and unwashed PCGs, from Phleum pratense pollen grains, in the Brown Norway rat, and to study the IgE reactivity of sera of sensitized rats to water-soluble and water-insoluble extracts of PCGs and pollen grains.
: Rats were sensitized and challenged intratracheally with washed or unwashed PCGs or pollen grains. Using water-soluble and -insoluble extracts of pollen grains and/or PCGs, IgE ELISA and immunoblotting were performed with rat sera. Proliferation of bronchial lymph node cells was monitored by [H]-thymidine incorporation in a lymph node assay. Alveolar cells, proteins, and TH1 and TH2 cytokines were quantified in bronchoalveolar lavage fluid.
: Rats sensitized with unwashed PCGs showed a predominant humoral response with high serum IgE and reactivity to water-soluble and -insoluble proteins together with low lymph node cell proliferation. Conversely, in rats sensitized to washed PCGs, cellular responses were higher with significant increases in eosinophils, lymphocytes, and TH2 cytokines observed in bronchoalveolar lavage fluid.
: Allergic and inflammatory responses were induced by both grass pollen grains and their isolated washed and unwashed PCGs. However, on the basis of humoral and cellular responses, differential patterns were observed. Water-insoluble allergens seem to play a role in the centrally mediated inflammatory response, whereas water-soluble allergens may be involved in the peripheral humoral response.
World Allergy Organization Journal 01/2011; 4(1):4-12.
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Arnaud Courtois,
Pascal Andujar,
Yannick Ladeiro,
Thomas Ducret,
Françoise Rogerieux, Ghislaine Lacroix,
Isabelle Baudrimont,
Christelle Guibert,
Etienne Roux,
Mireille Canal-Raffin,
Patrick Brochard,
Francelyne Marano,
Roger Marthan,
Bernard Muller
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ABSTRACT: Pulmonary circulation could be one of the primary vascular targets of finest particles that can deeply penetrate into the lungs after inhalation. We investigated the effects of engineered nanoparticles on vasomotor responses of small intrapulmonary arteries using isometric tension measurements. Acute in vitro exposure to carbon nanoparticles (CNP) decreased, and in some case abolished, the vasomotor responses induced by several vasoactive agents, whereas acute exposure to titanium dioxide nanoparticles (TiO(2)NP) did not. This could be attributed to a decrease in the activity of those vasoactive agents (including PGF(2)(alpha), serotonin, endothelin-1 and acetylcholine), as suggested when they were exposed to CNP before being applied to arteries. Also, CNP decreased the contraction induced by 30 mM KCl, without decreasing its activity. After endoplasmic reticulum calcium stores depletion (by caffeine and thapsigargin), CaCl(2) addition induced a contraction, dependent on Store-Operated Calcium Channels that was not modified by acute CNP exposure. Further addition of 30 mM KCl elicited a contraction, originating from activation of Voltage-Operated Calcium Channels that was diminished by CNP. Contractile responses to PGF(2)(alpha) or KCl, and relaxation to acetylcholine were modified neither in pulmonary arteries exposed in vitro for prolonged time to CNP or TiO(2)NP, nor in those removed from rats intratracheally instilled with CNP or TiO(2)NP. In conclusion, prolonged in vitro or in vivo exposure to CNP or TiO(2)NP does not affect vasomotor responses of pulmonary arteries. However, acute exposure to CNP decreases contraction mediated by activation of Voltage-Operated, but not Store-Operated, Calcium Channels. Moreover, interaction of some vasoactive agents with CNP decreases their biological activity that might lead to misinterpretation of experimental data.
Toxicology and Applied Pharmacology 03/2010; 245(2):203-10. · 4.45 Impact Factor
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ABSTRACT: Background: Respiratory allergic diseases are currently a major public health problem worldwide, especially in industrialized countries. Although the symptoms associated with these affections coincide with the pollination season, it is now well established that simple and direct relations do not exist between these two phenomena and that, in the same time, several other factors - air pollutants and meteorological factors - must be taken into account.
Objectives: To correlate atmospheric parameters with the medical consultations in response to rhinitis and asthma symptoms.
Methods: This study was conducted in the city of Amiens, during the pollen season in 2007. Clinical results were provided from the Picardie Regional Health Observatory. The atmospheric data gathered the count of pollen grains, the concentrations of gaseous air pollutants and several meteorological parameters. The correlations between these parameters are carried out using simple and multiple linear regressions.
Results: The consultations for rhinitis were positively correlated with grass pollen counts and atmospheric ozone, whereas asthma was correlated with precipitations. The results of multiple linear regressions showed that the two allergic symptoms, rhinitis and asthma, were related to several atmospheric factors, in particular airborne grass pollen, gaseous pollutants and temperature.
Conclusions: The large size of pollen grains could explain the simple relationship between rhinitis and grass pollen, because pollen grains can penetrate only the higher respiratory tract. This effect was not observed for asthma, but a positive relationship between asthma and precipitation suggest a potential role of pollen cytoplasmic granules. Theses granules could massively increase asthma attacks during the pollen season.
Revue Française d'Allergologie. 02/2010;
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ABSTRACT: Background: Grass pollen is one of the most important aeroallergens in Europe. Under some meteorological factors, pollen grains can release pollen cytoplasmic granules (PCG). PCG induce allergic responses. Several studies have shown that during thunderstorm periods the number of asthmatic patients increase because of higher PCG airborne concentrations.
Objective: The aims of the study were to assess the allergenicity of cross-reactions between pollen and PCG and to compare it with allergenicity of timothy grass pollen and PCG in Brown Norway rats.
Methods: Rats were sensitized (day 0) and challenged (day 21) with pollen grains and/or PCG. Four groups were studied: Pollen, PCG, Pollen-PCG and PCG-Pollen. Blood samples, Bronchoalveolar Lavage fluid (BALF) and bronchial lymph node were collected at day 25. IgE and IgG1 levels in sera were assessed by ELISA. Alveolar cells, total protein and cytokine concentrations were quantified in BALF. T-cell proliferation, in response to pollen or granules, was performed by lymph node assay.
Results: Cross-reactions between pollen and PCG increased IgE and IgG1 levels when compared to negative control. These increases were lower than those on pollen group but similar to the levels obtained by PCG group. Used whatever in the sensitization and/or challenge, PCG increased lymphocyte and Rantes levels compared to pollen group. Cross-reactions increased IL-1α and IL-1β than pollen and PCG groups.
Conclusion: An allergic cross-reactivity has been shown between pollen and PCG. For humoral and cellular allergic responses, cross-reactions between the 2 aeroallergens, used in this study, seem to be influenced mainly by PCG.
World Allergy Organization Journal. 09/2009; 2 - Issue 9 - pp 201-207:201 - 207.
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ABSTRACT: : Grass pollen is one of the most important aeroallergen vectors in Europe. Under some meteorological factors, pollen grains can release pollen cytoplasmic granules (PCGs). PCGs induce allergic responses. Several studies have shown that during a period of thunderstorms the number of patients with asthma increases because of higher airborne concentrations of PCGs.
: The aims of the study were to assess the allergenicity of interactive effects between pollen and PCGs and to compare it with allergenicity of Timothy grass pollen and PCGs in Brown Norway rats.
: Rats were sensitized (day 0) and challenged (day 21) with pollen grains and/or PCGs. Four groups were studied: pollen-pollen (PP), PCGs-PCGs (GG), pollen-PCGs (PG), and PCGs-pollen (GP). Blood samples, bronchoalveolar lavage fluid, and bronchial lymph node were collected at day 25. IgE and IgG1 levels in sera were assessed by enzyme-linked immunosorbent assay. Alveolar cells, protein, and cytokine concentrations were quantified in bronchoalveolar lavage fluid. T-cell proliferation, in response to pollen or granules, was performed by lymph node assay.
: Interactive effects between pollen and PCGs increased IgE and IgG1 levels when compared with those of the negative control. These increases were lower than those of the PP group but similar to the levels obtained by the GG group. Whatever was used in the sensitization and/or challenge phase, PCGs increased lymphocyte and Rantes levels compared with those of the pollen group. The interactive effects increased IL-1α and IL-1β compared with those of the PP and GG groups.
: Immunologic interactive effects have been shown between pollen and PCGs. For humoral and cellular allergic responses, interactive effects between the 2 aeroallergenic sources used in this study seem to be influenced mainly by PCGs.
World Allergy Organization Journal 09/2009; 2(9):201-7.
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ABSTRACT: Carbon nanotubes (CNT) are one of the most promising nanomaterials because of their intrinsic properties. So, it becomes urgent to assess their toxicity. However, CNT are insoluble in aqueous media required for toxicological studies. Thus, we propose a simple method to disperse CNT for toxicological studies using a biomolecule: The albumin. To evaluate this method, several nanotubes were suspended in saline solution (NaCl 0.9%) without or with albumin at a concentration of 0.5 mg/ml or equal as CNT concentration. These suspensions were visually compared to suspensions obtained with classical dispersing methods using Tween 80 or serum. Homogeneity of the suspensions with or without BSA and CNT structure were analyzed by TEM, agglomerates quantification and total carbon dosage. The effect of coupled albumin-CNT was then tested on A549 and U937 cells in vitro and on rats in vivo. Total carbon dosage, agglomerates quantification and TEM revealed that, in the presence of albumin, the tested nanotubes were better dispersed without any modification of their structure. The CNT suspension was tested in vitro and in vivo in rats. Albumin solution alone induced no modification of the biological responses studied (i.e., cell viability in vitro and inflammatory response and histopathology in vivo) compared to the saline. CNT in NaCl or BSA altered cellular viability in vitro in a similar way but results obtained with CNT suspension in the presence of albumin showed a better reproducibility that can be explained by the better homogeneity of the suspensions. CNT in BSA but not in NaCl significantly increased the cell number in BAL and also the number of apparent CNT-containing cells. Taken together, these results highlight the potential importance of CNT dispersion (and thus of the vehicle) for the toxicological studies.
07/2009; 1(4):266-278.
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ABSTRACT: A critical issue with nanomaterials is the clear understanding of their potential toxicity. We evaluated the toxic effect of 24 nanoparticles of similar equivalent spherical diameter and various elemental compositions on 2 human pulmonary cell lines: A549 and THP-1. A secondary aim was to elaborate a generic experimental set-up that would allow the rapid screening of cytotoxic effect of nanoparticles. We therefore compared 2 cytotoxicity assays (MTT and Neutral Red) and analyzed 2 time points (3 and 24 hours) for each cell type and nanoparticle. When possible, TC50 (Toxic Concentration 50 i.e. nanoparticle concentration inducing 50% cell mortality) was calculated.
The use of MTT assay on THP-1 cells exposed for 24 hours appears to be the most sensitive experimental design to assess the cytotoxic effect of one nanoparticle. With this experimental set-up, Copper- and Zinc-based nanoparticles appear to be the most toxic. Titania, Alumina, Ceria and Zirconia-based nanoparticles show moderate toxicity, and no toxicity was observed for Tungsten Carbide. No correlation between cytotoxicity and equivalent spherical diameter or specific surface area was found.
Our study clearly highlights the difference of sensitivity between cell types and cytotoxicity assays that has to be carefully taken into account when assessing nanoparticles toxicity.
Particle and Fibre Toxicology 05/2009; 6:14. · 7.25 Impact Factor
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ABSTRACT: Constituted only by carbon atoms, CNT are hydrophobic and hardly detectable in biological tissues. These properties make biokinetics and toxicology studies more complex.
We propose here a method to investigate the biopersistence of CNT in organism, based on detection of nickel, a metal present in the MWCNT we investigated.
Our results in rats that received MWCNT by intratracheal instillation, reveal that MWCNT can be eliminated and do not significantly cross the pulmonary barrier but are still present in lungs 6 months after a unique instillation. MWCNT structure was also showed to be chemically modified and cleaved in the lung. These results provide the first data of CNT biopersistence and clearance at 6 months after respiratory administration.
Particle and Fibre Toxicology 01/2009; 5:20. · 7.25 Impact Factor
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ABSTRACT: Ambient particulate matter (PM) is known to induce inflammation in the respiratory tract of exposed subjects. The aim of the present study was to detect, in bronchial epithelial cells, candidate inflammatory genes exhibiting transcriptional modifications following urban PM2.5 exposure. Paris urban PM2.5 sampled either at a curbside or a background station in winter and in summer was tested in comparison with diesel exhaust particles (DEP) at 10 microg/cm2 on human bronchial epithelial (16-HBE) cells (18 h of exposure). The gene profiling study performed using a 375 cDNA cytokine expression array highlighted the differential expression of certain genes, three of which were selected as genes of interest: the IL-1 alpha cytokine, the GRO-alpha chemokine, and amphiregulin, a ligand of the EGF receptor. Their increased expression was confirmed by RT-PCR and/or by Northern blotting in bronchial epithelial cells. In the culture medium of particle-treated cultures, increased release of GRO-alpha and amphiregulin was shown. The particle component responsible for protein release varied for the two genes. The organic extract seemed to be mainly involved in amphiregulin expression and secretion, whereas both the aqueous and organic extracts induced GRO-alpha release. In conclusion, in bronchial epithelial cells, Paris PM2.5 increased mRNA and protein expression of GRO-alpha and AR involved in the chemoattraction process and bronchial remodeling, respectively.
Frontiers in Bioscience 02/2007; 12:771-82. · 3.52 Impact Factor
