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1.
Bull Environ Contam Toxicol ; 112(1): 12, 2023 Dec 14.
Article in English | MEDLINE | ID: mdl-38093100

ABSTRACT

This study investigated the genotoxic risk of chronic exposure of hemolymph's cells of Drosophila melanogaster (Insecta, Diptera) to water samples from Boqueirão de Parelhas Dam and from Lucrécia Dam in the semiarid region of Brazil. The dams are located over the Pegmatite Province of Borborema, with rocks rich in uranium and thorium. Water samples hydrated a culture medium composed of mashed potatoes, where larvae of D. melanogaster fed for 24 h, before be underwent to the Comet assay. The same water was evaluated for the presence of dissolved Radon gas (222Rn) and concentrations of 11 toxic metals (Ag, Al, Cd, Co, Cr, Cu, Fe, Mn, Ni, Pb and Zn). The results indicated a genotoxic effect resulting from exposure to the waters of the Parelhas dam, in the samples of August 2018; and in Lucrécia dam, in January 2019. D. melanogaster stood out for its high sensitivity to monitor the genotoxic effects of compounds dissolved in public dams. And unlike to other essentially aquatic sentinel organisms, this species stood out as a model to concomitant studies of air and water possible contaminated, in a scenario of natural environmental radioactivity present in semiarid of Brazil.


Subject(s)
Metals, Heavy , Water Pollutants, Chemical , Animals , Drosophila melanogaster , Environmental Monitoring/methods , Sentinel Species , Water , Water Pollutants, Chemical/toxicity , Water Pollutants, Chemical/analysis , Brazil , Eating , Metals, Heavy/analysis
2.
Int J Biol Macromol ; 222(Pt B): 2823-2832, 2022 Dec 01.
Article in English | MEDLINE | ID: mdl-36228819

ABSTRACT

Mannose/glucose-binding lectin from Canavalia ensiformis seeds (Concanavalin A - ConA) has several biological applications, such as mitogenic and antitumor activity. However, most of the mechanisms involved in the in vivo toxicity of ConA are not well known. In this study, the Drosophila melanogaster model was used to assess the toxicity and genotoxicity of different concentrations of native ConA (4.4, 17.5 and 70 µg/mL) in inhibited and denatured forms of ConA. The data show that native ConA affected: the survival, in the order of 30.6 %, and the locomotor performance of the flies; reduced cell viability to levels below 50 % (4.4 and 17.5 µg/mL); reduced nitric oxide levels; caused lipid peroxidation and increased protein and non-protein thiol content. In the Comet assay, native ConA (17.5 e 70 µg/mL) caused DNA damage higher than 50 %. In contrast, treatments with inhibited and denatured ConA did not affect oxidative stress markers and did not cause DNA damage. We believe that protein-carbohydrate interactions between ConA and carbohydrates of the plasma membrane are probably the major events involved in these activities, suggesting that native ConA activates mechanisms that induce oxidative stress and consequently DNA damage.


Subject(s)
Canavalia , Drosophila melanogaster , Animals , Canavalia/chemistry , Drosophila melanogaster/metabolism , Concanavalin A/chemistry , DNA Damage , Oxidative Stress
3.
Environ Mol Mutagen ; 61(3): 329-337, 2020 03.
Article in English | MEDLINE | ID: mdl-31489703

ABSTRACT

Medicinal plants are worldwide used as an efficient treatment of many diseases. Myracrodruon urundeuva Allemão (Anacardiaceae) is widely used Brazilian folk medicine to treat inflammations and infections of the female genital tract, conditions of the stomach and throat, and to heal wounds on the skin and mucous membranes. Several pharmacological properties of extracts and compounds isolated from M. urundeuva are found in the literature, corroborating its uses as antiulcer and gastroprotective, anti-inflammatory and analgesic, as well as antimicrobial. Despite these many uses in traditional herbal medicine, there are few reports of its toxic-genetic effect. This work aimed to investigate the genotoxic and mutagenic potential in vivo of the dry decoction of M. urundeuva leaves on somatic cells of Drosophila melanogaster, through the Comet assay and somatic mutation and recombination test (SMART). Six concentrations (0.5, 1.0, 2.0, 4.0, 8.0, and 16.0 mg/mL) were studied after feeding individuals for 24 hr in culture medium hydrated with extracts of M. urundeuva. In the Comet assay, all concentrations showed a genotoxic effect significantly higher than the negative control group, treated with distilled water. The two highest concentrations were also superior to the positive control group, treated with cyclophosphamide (1 mg/mL). In the SMART, there was a mutagenic effect at all concentrations tested, with a clear dose-dependent relationship. Both recombination and mutation account for these mutagenic effects. The set of results indicate that the dry decoction of M. urundeuva leaves is genotoxic and mutagenic for D. melanogaster under the experimental conditions of this study. Environ. Mol. Mutagen. 61:329-337, 2020. © 2019 Wiley Periodicals, Inc.


Subject(s)
Anacardiaceae/toxicity , Drosophila melanogaster/drug effects , Mutagenicity Tests , Mutagens/toxicity , Plant Extracts/toxicity , Animals , Anti-Inflammatory Agents/toxicity , Brazil , Comet Assay , Drosophila melanogaster/cytology , Drosophila melanogaster/genetics , Medicine, Traditional , Mutation/drug effects , Plant Leaves/toxicity
4.
Environ Sci Pollut Res Int ; 25(32): 32409-32417, 2018 Nov.
Article in English | MEDLINE | ID: mdl-30229497

ABSTRACT

This study evaluated the genotoxic potential of atmospheric pollution associated with urbanization using the model organism Drosophila melanogaster and the Comet assay with hemolymph cells. Larvae were exposed to atmospheric compounds in an urban and a rural area in the municipality of Vitória de Santo Antão, Pernambuco, Brazil, for 6 days (from the embryo stage to the third larval stage) in April 2015 and April 2017. The results were compared to a negative environmental control group exposed to a preserved area (Catimbau National Park) and to a negative control exposed to the laboratory room conditions. The Comet assay demonstrated significant genetic damage in the organisms exposed to the urban area compared with those exposed to the rural area and negative control groups. The evidences were supported by particulate matter analysis showing higher photopeaks of chemical elements such as aluminum, silicon, sulfur, potassium, calcium, titanium, and iron, associated to road dust fraction in urban environment. Once again, the results confirm D. melanogaster an ideal bioindicator organism to monitor genotoxic hazard associated with atmospheric pollution.


Subject(s)
Air Pollutants/pharmacology , DNA Damage , Drosophila melanogaster/drug effects , Environmental Exposure/adverse effects , Environmental Monitoring/methods , Metals, Heavy/pharmacology , Particulate Matter/pharmacology , Air Pollutants/analysis , Air Pollution/adverse effects , Air Pollution/analysis , Animals , Brazil , Cities , Comet Assay , Drosophila melanogaster/genetics , Dust/analysis , Environmental Biomarkers , Environmental Exposure/analysis , Metals, Heavy/analysis , Particulate Matter/analysis , Urban Population , Urbanization
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