Characterization of indoor dust from Brazil and evaluation of the cytotoxicity in A549 lung cells

Deschamps, Eleonora; Weidler, Peter G.; Friedrich, Francisco Jarabo; Weiss, Carsten; Diabaté, Silvia

doi:10.1007/s10653-013-9560-9

Cited by 10 publications

(11 citation statements)

References 14 publications

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“…This was attributed to the re-suspension of outdoor dust and living conditions (Deschamps et al, 2013) which showed toxic and pro-inflammatory responses (IL-8 release) of high concentrations of indoor dust particles: 250–500µg/ml and 100–500µg/ml, respectively. In fact, higher asthma symptoms (wheezing) were reported in 28.5% of school students (Camargos et al, 1999).…”

Section: Discussionmentioning

confidence: 99%

Particle pollution in Rio de Janeiro, Brazil: Increase and decrease of pro-inflammatory cytokines IL-6 and IL-8 in human lung cells

Rodríguez-Cotto

Ortiz-Martínez

Rivera-Ramírez

et al. 2014

Environmental Pollution

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Particle pollution from urban and industrialized regions in Rio de Janeiro (RJ), Brazil was analyzed for toxic and pro-inflammatory (cytokines: IL-6, IL-8, IL-10) responses in human bronchial epithelial cells. Trace elements contribution was studied. Airborne particulate matter was collected at: three industrial sites Ind-1 (PM10) and Ind-2a and 2b (PM2.5); Centro urban area (PM10) and two rural sites (PM2.5, PM10). PM10 acetone extracts were toxic and did not elicit cytokine release; aqueous extracts were less toxic and stimulated the release of IL-6 and IL-8. PM2.5 aqueous extracts from Ind-2 decreased the release of IL-6 and IL-8. Zinc concentration was higher at the industrial and rural reference sites (Ref-1-2) although metals were not associated to cytokines changes. These results demonstrate that PM from RJ can either increase or decrease cytokine secretion in vitro while being site specific and time dependent.

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Section: Discussionmentioning

confidence: 99%

Particle pollution in Rio de Janeiro, Brazil: Increase and decrease of pro-inflammatory cytokines IL-6 and IL-8 in human lung cells

Rodríguez-Cotto

Ortiz-Martínez

Rivera-Ramírez

et al. 2014

Environmental Pollution

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“…The arithmetic means, geometric means and medians of all analyzed PHEs in the 5 studied dust samples were calculated. Table 1 shows values for the 16 PHEs under study and compares the PHE concentrations with those reported in the literature (Chattopadhyay et al 2003;Chen et al 2014;Deschamps et al 2013;Kurt-Karakus 2012;Lisiewicz et al 2000;Rasmussen et al 2001). Further data on PHE concentrations in the full set of indoor dust samples collected from 19 private households in the city of Estarreja are provided in the form of supplementary material (Table S2).…”

Section: House Dust Phe Concentrationsmentioning

confidence: 99%

“…They quantified the toxicity by evaluating the excess lifetime cancer risk and some assessed the in vitro cytotoxic and genotoxic potentials of organic extracts by using bacterial mutagenic assays such as the Ames test, SOS chromotest and Salmonella assay (Kang et al 2013(Kang et al , 2011Maertens et al 2008;Pohren et al 2012;Wang et al 2013a, b). Likewise, the toxicity of PHEs from house dust has been investigated using either the evaluation of excess lifetime cancer risk or cytotoxicity tests (Chen et al 2014;Deschamps et al 2013;Granero and Domingo 2002;Kurt-Karakus 2012). However, the ingested dose was used as the relevant measure to assess the health risk and the oral bioavailability of the PHEs was not estimated.…”

Section: Introductionmentioning

confidence: 99%

Potentially harmful elements in house dust from Estarreja, Portugal: characterization and genotoxicity of the bioaccessible fraction

Plumejeaud

Reis

Tassistro

et al. 2016

Environ Geochem Health

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Due to their behavioral characteristics, young children are vulnerable to the ingestion of indoor dust, often contaminated with chemicals that are potentially harmful. Exposure to potentially harmful elements (PHEs) is currently exacerbated by their widespread use in several industrial, agricultural, domestic and technological applications. PHEs cause adverse health effects on immune and nervous systems and can lead to cancer development via genotoxic mechanisms. The present study is an integrated approach that aims at assessing the genotoxicity of bioaccessible PHEs following ingestion of contaminated house dust. A multidisciplinary methodology associating chemical characterization of five house dust samples, extraction of the bioaccessible PHEs in gastric extracts by the unified BARGE method, determination of the bioaccessible fraction and in vitro genotoxicity of gastric extracts in adenocarcinoma gastric human (AGS) cells was developed. The five gastric extracts induced dose-dependent genotoxicity in AGS cells. Copper (bioaccessible concentration up to 111 mg/kg) was probably the prevalent PHE inducing primary DNA damage (up to 5.1-fold increase in tail DNA at 0.53 g/l of gastric extract). Lead (bioaccessible concentration up to 245 mg/kg) was the most prevalent PHE inducing chromosome-damaging effects (r = 0.55; p < 0.001 for micronucleated cells induction). The association of principal component analysis and Spearman's correlations was decisive to understand the chromosome-damaging properties of the bioaccessible PHEs in AGS cells. This methodology could be used on a larger-scale study to provide useful information for science-based decision-making in regulatory policies, and a better estimation of human exposure and associated health risks.

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“…1 The toxicity of PM is affected by the size, components, and emission source of the particles; thus, the hazard resulting from exposure is difficult to predict. 7,8 A recent study showed an increase in the immunotoxicological activity of dust from school buildings with higher microbial load, although not consistently associated with moisture-damage status of the building or symptoms of the occupants. 2 Immunotoxicological activity of indoor air PM has been studied most often with immunocytes [3][4][5][6] or lung epithelial cells.…”

Section: Introductionmentioning

confidence: 99%

“…2 Immunotoxicological activity of indoor air PM has been studied most often with immunocytes [3][4][5][6] or lung epithelial cells. 7,8 A recent study showed an increase in the immunotoxicological activity of dust from school buildings with higher microbial load, although not consistently associated with moisture-damage status of the building or symptoms of the occupants. 9 The failure to reliably identify moisture-damaged indoor environments with bioassays may indicate that the model system simply does not reflect the health responses of occupants accurately enough, but it could also be biased, for example, by other bioactive materials in the sample, the sampling method, or measured toxicological endpoints.…”

Section: Introductionmentioning

confidence: 99%

Oxidative capacity and hemolytic activity of settled dust from moisture‐damaged schools

et al. 2019

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Exposure to moisture‐damaged indoor environments is associated with adverse respiratory health effects, but responsible factors remain unidentified. In order to explore possible mechanisms behind these effects, the oxidative capacity and hemolytic activity of settled dust samples (n = 25) collected from moisture‐damaged and non‐damaged schools in Spain, the Netherlands, and Finland were evaluated and matched against the microbial content of the sample. Oxidative capacity was determined with plasmid scission assay and hemolytic activity by assessing the damage to isolated human red blood cells. The microbial content of the samples was measured with quantitative PCR assays for selected microbial groups and by analyzing the cell wall markers ergosterol, muramic acid, endotoxins, and glucans. The moisture observations in the schools were associated with some of the microbial components in the dust, and microbial determinants grouped together increased the oxidative capacity. Oxidative capacity was also affected by particle concentration and country of origin. Two out of 14 studied dust samples from moisture‐damaged schools demonstrated some hemolytic activity. The results indicate that the microbial component connected with moisture damage is associated with increased oxidative stress and that hemolysis should be studied further as one possible mechanism contributing to the adverse health effects of moisture‐damaged buildings.

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Characterization of indoor dust from Brazil and evaluation of the cytotoxicity in A549 lung cells

Cited by 10 publications

References 14 publications

Particle pollution in Rio de Janeiro, Brazil: Increase and decrease of pro-inflammatory cytokines IL-6 and IL-8 in human lung cells

Particle pollution in Rio de Janeiro, Brazil: Increase and decrease of pro-inflammatory cytokines IL-6 and IL-8 in human lung cells

Potentially harmful elements in house dust from Estarreja, Portugal: characterization and genotoxicity of the bioaccessible fraction

Oxidative capacity and hemolytic activity of settled dust from moisture‐damaged schools

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