Epidemiologic evidence supports associations between inhalation of fine and ultrafine ambient particulate matter [aerodynamic diameter ≤ 2.5 μm (PM2.5)] and increases in cardiovascular/respiratory morbidity and mortality. Less attention has been paid to how the physical and chemical characteristics of these particles may influence their interactions with target cells. Butadiene soot (BDS), produced during combustion of the high-volume petrochemical 1,3-butadiene, is rich in polynuclear aromatic hydrocarbons (PAHs), including known carcinogens. We conducted experiments to characterize BDS with respect to particle size distribution, assembly, PAH composition, elemental content, and interaction with respiratory epithelial cells. Freshly generated, intact BDS is primarily (> 90%) PAH-rich, metals-poor (nickel, chromium, and vanadium concentrations all < 1 ppm) PM2.5, composed of uniformly sized, solid spheres (30–50 nm) in aggregated form. Cells of a human bronchial epithelial cell line (BEAS-2B) exhibit sequential fluorescent responses—a relatively rapid (~ 30 min), bright but diffuse fluorescence followed by the slower (2–4 hr) appearance of punctate cytoplasmic fluorescence—after BDS is added to medium overlying the cells. The fluorescence is associated with PAH localization in the cells. The ultrafine BDS particles move down through the medium to the cell membrane. Fluorescent PAHs are transferred from the particle surface to the cell membrane, cross the membrane into the cytosol, and appear to accumulate in lipid vesicles. There is no evidence that BDS particles pass into the cells. The results demonstrate that uptake of airborne ultrafine particles by target cells is not necessary for transfer of toxicants from the particles to the cells.
We previously described the physicochemical characteristics (particle size, adsorbed polynuclear aromatic hydrocarbons [PAHs], oxygen, and metal content) of butadiene soot (BDS) nanoparticles generated during incomplete combustion of the high-volume industrial petrochemical, 1,3-butadiene. We also demonstrated localization of BDS-delivered PAHs to lipid droplets of murine and human respiratory cells in vitro and up-regulation of biotransformation and oxidative stress responses in these cells. Here, the objective was to determine whether inhalation of BDS nanoparticles promotes up-regulation of Phase I biotransformation enzymes, oxidative stress responses, and inflammation in the lungs of mice. Female Balb/c mice exposed to BDS (5 mg/m(3), 4 h/d, 4 d) were killed immediately or 1 day after final exposure; bronchoalveolar lavage fluid (BALF) was collected from the lungs; total RNA was extracted from one lung and histopathology performed on the other. Histopathology and BALF analysis revealed particle-laden macrophages in airways of BDS-treated mice, accompanied by neutrophilia and epithelial damage. Microarray and qRT-PCR analyses revealed up-regulation of (1) aryl hydrocarbon receptor (AhR)-responsive genes: AhR repressor (Ahrr) and cytochrome P450 IA1 and IB1(Cyp1a1, Cyp1b1); (2) oxidative stress response genes: heme oxygenase 1 (Hmox1), nuclear factor erythroid-derived 2-like 2 (Nfe2l2), NADPH dehydrogenase quinone 1 (Nqo1), and glutathione peroxidase 2 (Gpx2); and (3) pro-inflammatory genes: interleukin-6 (IL-6), C-X-C motif ligand 2 (Cxcl2; analog to human IL-8) and ligand 3 (Cxcl3), and granulocyte chemotactic protein (Cxcl6). Inhalation of PAH-rich, petrochemical combustion-derived nanoparticles causes airway inflammation and induces expression of AhR-associated and oxidative stress response genes, as seen in vitro, plus pro-inflammatory genes.
Combustion-generated radicals interact to form polynuclear aromatic hydrocarbons (PAHs), including carcinogens. PAHs aggregate into 20- to 50-nm particles, which extend into branched-chain structures (soots). Incomplete combustion yields black soot particles and black smoke. Many PAHs, including those in soots, fluoresce upon excitation. We have reported that butadiene soot (BDS), generated during combustion of the high-volume petrochemical 1,3-butadiene, serves as a reproducible example of combustion-derived fine and ultrafine particles, with the potential for acute or delayed health effects. Human bronchoepithelial cells (BEAS-2B) display time- and concentration-dependent responses to BDS exposure, culminating in concentration of fluorescent PAHs within discrete cytoplasmic bodies. Here we identify the cytoplasmic compartment(s) in which combustion-derived PAHs concentrate and assess the metabolic responses associated with this compartmentalization. BDS-associated fluorescence colocalized with a red fluorescent cholesterol analog and a transfected plasmid coding for a fluorescent lipid droplet surface protein within BEAS-2B cells. After BDS exposure, murine alveolar macrophages (MH-S) and adipocytes (3T3-L1) also develop fluorescence. These findings, especially within adipocytes, support the accumulation of PAHs within lipid droplets. Microarray data revealed up-regulation of aryl hydrocarbon receptor-induced Phase I biotransformation enzymes and nuclear erythroid-2 related factor 2-mediated oxidative stress responses in BEAS-2B cells. Quantitative RT-PCR results confirmed a time-dependent up-regulation of Phase I biotransformation enzymes (CYP1A1, CYP1B1, and ALDH3A1) in BDS-exposed BEAS-2B and MH-S cells. Thus, respiratory cell lipid droplets concentrate PAHs delivered by combustion-derived ultrafine particles. These PAHs, including several found in BDS and in cigarette smoke, activate xenobiotic metabolism pathways and thereby potentiate their toxicity.
It was evaluated the anthelmintic activity of Agave sisalana (sisal) juice against gastrointestinal nematodes and its potential toxic effects in goats. In vitro tests showed more than 95% reduction in larval counts of the genus Haemonchus spp. at concentrations between 86.5 and 146.3 mg.mL -1. In vivo the percent reduction of larvae of the fourth (L4) and fifth (L5) stages of Haemonchus, Oesophagostomum and Trichostrongylus was less than 95% in groups GI and GII, and between 80 and 90% in group GIII. A. sisalana juice at the concentrations tested in vitro was effective against gastrointestinal nematodes in goats; however, its anthelmintic efficacy was reduced when administered to animals.Keywords: Agave sisalana, anthelmintic, goats, nematodes, sisal. ResumoFoi avaliada a atividade anti-helmíntica do suco de Agave sisalana (sisal) contra nematódeos gastrintestinais e possíveis efeitos tóxicos em caprinos. Nos testes in vitro, encontrou-se redução superior a 95% na contagem de larvas do gênero Haemonchus spp. nas concentrações entre 86,5 e 146,3 mg.mL -1 . In vivo, o percentual de redução de larvas de quarto (L4) e quinto (L5) estágios de Haemonchus, Oesophagostomum e Trichostrongylus foi inferior a 95% para o GI e GII, e entre 80 e 90% para o GIII. O suco de A. sisalana nas concentrações testadas in vitro foi efetivo contra nematódeos gastrintestinais de caprinos, apresentando, no entanto, reduzida eficácia anti-helmíntica quando administrado nos animais.Palavras-chave: Agave sisalana, anti-helmíntico, caprinos, nematódeos, sisal.The goat industry is a livestock activity of great socioeconomic importance in Northeastern Brazil, but its operation has been limited by frequent gastrointestinal nematode infections (GNI) and inappropriate drug use, which has led to resistance of these parasites to common anthelmintics.Given the interest in the use of waste liquid of A. sisalana and lack of scientific evidence regarding its potential anthelmintic activity, the objective of the present study was to evaluate the effect of A. sisalana juice against gastrointestinal nematodes and its potential toxic effects in goats.Agave sisalana plants were collected in Valente, Bahia. They were identified by botanists and voucher specimens (No. 838) were deposited in the herbarium of the Universidade Estadual de Feira de Santana.A. sisalana pulp and juice were collected through mechanical defibration of the leaves. The juice was obtained after filtration three times in filter paper and stored at 4 °C for use in in vivo tests. For in vitro tests, the juice was dried and frozen. Five concentrations were used in this study : 146.3, 112.5, 86.5, 66.5, 51.1 and 39.3 mg.mL -1 , which were tested in triplicate. To validate the results, the same experiment was repeated three times.Larval cultures (UENO; GONÇALVES, 1998) consisted of 2 g of feces, 2 g of sawdust, and 2 mL of juice. Positive and negative controls were treated with doramectin (0.0625 mg.mL -1 ) and distilled water, respectively.Twenty-four racially undefined goats b...
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