Ausência de genotoxidade e redução dos efeitos genotóxicos induzidos por DOX da tintura de sementes de Helianthus annuus Linné (girassol) reveladas pelo ensaio do micronúcleo / Nongenotoxic effects and a reduction of the DOX-induced genotoxic effects of Helianthus annuus Linné (sunflower) seeds revealed by micronucleus assays in mouse bone marrow

Souza, Luiz Silva de

10 July 2012

Made available in DSpace on 2016-05-02T13:55:17Z (GMT). No. of bitstreams: 1 Luiz Silva Souza-dissertacao.pdf: 3490471 bytes, checksum: c67d9a32f1552af2738fbcd53645873e (MD5) Previous issue date: 2012-07-10 / In addition to being an important source of nutrients, the potential therapeutic effectiveness of H. annuus L. seeds has been previously demonstrated; the beneficial properties of H. annuus L. seeds include an ability to relieve asthmatic symptoms, protective effects on the stomach, benefits to healing, and anti-inflammatory and anti-microbial properties. This research evaluated the mutagenicity and anti-mutagenicity of oil and tincture of H. annuus L. seeds using the micronucleus assay in bone marrow of mice. The interaction between these preparations and the genotoxic effects of doxorubicin (DOX) was also analyzed. Experimental groups were evaluated after 24-48 h of treatment with N-Nitroso-N-ethylurea (NEU) and DOX (positive controls), NaCl (a negative control), a sunflower tincture (250-2,000 mg.Kg-1 of THALS) and two sources of sunflower oils (250-2,000 mg.Kg-1 of POHALS and FOHALS). Anti-mutagenic assays were carried out using the sunflower tincture and oils separately and in combination with these controls. The frequency of micronucleated polychromatic erythrocytes (MNPCEs) was significantly different (p &#61500; 0.05) between (i) the positive and negative control treatments, (ii) the positive controls and animals treated with THALS and (iii) animals treated with THALS and and THALS combined with the positive controls. However, a slight genotoxicity was observed in the animals treated with the combination of THALS+DOX. Both sources of oils (FOHALS and POHALS) revealed similar results; in these groups, the frequencies of MNPCEs were similar to those observed in negative controls. Statistically significant differences were also observed between the sunflower oil treatments and their associated positive controls. There was no genotoxicity (clastogenicity/aneugenicity) observed in THALS, POHALS and FOHALS regardless of the dose, time (except FOHALS) and gender of mouse (except POHALS and FOHALS). The moderate anti-genotoxic effects of THALS suggest a potential slight protective mechanism against DOX-induced genotoxic effects. / A efetividade terapêutica potencial das sementes de H. annuus L. tem sido demonstrada (alívio dos sintomas da asma, efeitos da proteção gástrica, cicatrização, propriedades anti-inflamatórias e antimicrobianas), em adição à sua importante fonte de nutrientes. Esta pesquisa avaliou a mutagenicidade e anti-mutagenicidade do óleo e da tintura de sementes de H. annuus L. usando o ensaio do micronúcleo em medula óssea de camundongos. A associação sobre os efeitos genotóxicos induzidos pela doxorrubicina (DOX) também foi analisada. Grupos experimentais foram avaliados após 24-48h de tratamento com N-Nitroso-N-ethylurea (NUE) e DOX (controles positivos), NaCl (controle negativo), tintura (250-2.000 mg.Kg-1 de THALS) e duas fontes de óleo de girassol (250-2.000 mg.Kg-1 de POHALS e FOHALS). Ensaios anti-mutagênicos foram realizados usando os controles positives associados com a tintura e óleos de girassol, separadamente. A frequência de eritrócitos policromáticos micronucleados (MNPCEs) foi estatisticamente diferente (p < 0,05) entre (i) os tratamentos controles positives e negativo, (ii) controles positivos e tratamento com THALS e (iii) tratamento com THALS e sua associação aos controles positivos. Contudo, uma leve genotoxicidade foi observada na associação THALS+DOX. Ambas as fontes de óleos (FOHALS e POHALS) revelaram resultados similares, cujas frequências de MNPCEs foram consistentes com aqueles observados no controle negativo. Diferenças significativas também ocorreram entre os tratamentos de óleos e suas associações com os controles positivos. A ausência de genotoxicidade (clastogenia/aneugenia) da THALS, POHALS e FOHALS pode ser inferida independentemente da dose, tempo (exceto para FOHALS) e gênero de camundongo (exceto para POHALS e FOHALS). Efeitos anti-genotóxicos moderados de THALS sugerem um potencial mecanismo ligeiramente protetor sobre os efeitos genotóxicos induzidos pela DOX.

medula óssea

helianthus annuus L. (girassol)

ensaio do micronúcleo

roedores

tintura e óleo

bone marrow

Helianthus annuus L. (sunflower)

micronucleus assay

rodents

tincture and oil

CNPQ::CIENCIAS BIOLOGICAS::GENETICA

Genotoxicidade de Handroanthus impetiginosus e lapachol potencialmente aplicáveis na produção animal / Genotoxicity of Handroanthus impetiginosus and lapachol potentially applicable to livestock production

CASTRO, Maysa M. E.

21 February 2018

Submitted by biblioteca unifenas (biblioteca@unifenas.br) on 2018-03-02T17:52:47Z No. of bitstreams: 1 Maysa Eduarda de Castro Dissertação.pdf: 1155468 bytes, checksum: c65b96b4486f0cf6c4642c0a68aa6335 (MD5) / Made available in DSpace on 2018-03-02T17:52:47Z (GMT). No. of bitstreams: 1 Maysa Eduarda de Castro Dissertação.pdf: 1155468 bytes, checksum: c65b96b4486f0cf6c4642c0a68aa6335 (MD5) Previous issue date: 2018-02-21 / Fundação de Amparo à Pesquisa do Estado de Minas Gerais - FAPEMIG / Handroanthus impetiginosus (Mart. ex DC.) Mattos (HI) it has been widely used for an extended period in traditional medicine, and several studies have shown the presence of chemical compounds and phytotherapeutic potentials of this plant. The objective was to evaluate the genotoxicity of the extract of H. impetiginosus and lapachol (LAP), one of the main compounds found in this plant, using the mouse bone marrow micronucleus assay. Experimental groups consisting of male and female Swiss albinus mice (Unib: SW) were evaluated after 24-48h (HI) e 24h (LAP) post treatment with Cyclophosphamide (CYCLO, 50 mg.kg-1), NaCl (150 mM), HI (0.5; 1.2 g.kg-1), LAP (0.075, 0.15, 0.30 g.kg-1). For HI, analysis of the MNPCEs showed significant differences between treatment doses (500–2,000 mg.kg-1) and NaCl. PCE/NCE showed significant differences between treatment doses (500–2,000 mg.kg-1) or NaCl compared to CP (50 mg.kg-1). This research suggests presence of genotoxicity in treatment doses 2,000 mg.kg-1, and mild genotoxicity in the others treatment doses (500–1,000 mg.kg-1) of HI, sex and time-independent and absence of toxicity doses-, time- and sex-independent. However, for lapacho, analysis of the MNPCEs showed significant differences between treatment dose (300 mg.kg-1) and NaCl. PCE/NCE showed significant differences between treatment doses (500–2,000 mg.kg-1) or NaCl compared to CP (50 mg.kg-1). This research suggests presence of genotoxicity of LAP, dose-dependent (300 mg.kg-1), but time- and sex-independent and absence of toxicity doses-, time- and sex-independent. / Handroanthus impetiginosus (Mart. ex DC.). Mattos (HI) tem sido muito utilizada por um extenso período na medicina tradicional e vários estudos têm mostrado a presença de compostos químicos e potenciais fitoterapêuticos dessa planta. O objetivo foi avaliar a genotoxicidade do extrato de H. impetiginosus e do lapachol (LAP), um dos principais compostos encontrados nessa planta, usando o ensaio do micronúcleo em medula óssea de camundongos. Grupos experimentais constituídos de camundongos machos e fêmeas Swiss albinus (Unib: SW) foram avaliados após 24-48h (HI) e 24h (LAP) de tratamento com Ciclofosfamida (CICLO; 50 mg.Kg-1), NaCl (150 mM), HI (0,5; 1; 2 g.Kg-1), LAP (0,075; 0,15; 0,30 g.Kg-1). As análises de MNPCEs do grupo tratado com HI mostraram diferenças (p  0,05) entre todas as doses de tratamento (500–2.000 mg.Kg-1) e controle negativo (NaCl). As proporções PCE/NCEapresentaram diferenças significativas (p  0,05) entre as doses de HI (500–2.000 mg.Kg-1) ou controle negativo (NaCl), frente ao controle positivo ciclofosfamida (50 mg.Kg-1).Os resultados sugeremum efeito potencialmente genóxico dependente da dose (2.000 mg.Kg-1) e levemente genotóxico nas demais doses (500–1.000 mg.Kg-1) do extrato de HI, independentemente do tempo de tratamento (24 e 48 h) e do sexo (macho e fêmea), e ausência de toxicidade sistêmica do HI dose, sexo e tempo-independente. Contudo, as análises de MNPCEs do grupo tratado com LAP apresentaram diferenças significativas (p  0,05) entre a dose de tratamento (300 mg.Kg-1) e controle negativo (NaCl), jáas proporções PCE/NCEapresentaram diferenças significativas (p  0,05) entre as doses de LAP (75–300 mg.Kg-1) ou controle negativo (NaCl), frente ao controle positivo ciclofosfamida (50 mg.Kg-1), sugerindopresença de genotoxicidade do LAP, dependentemente da dose de administração fitoterapêutica (300 mg.Kg-1), mas independente do tempo de tratamento (24 e 48 h), e sexo (macho e fêmea), e ausência de toxicidade sistêmica do LAP nas condições do ensaio MN, dose, sexo e tempo-independente.

CIENCIAS BIOLOGICAS::FARMACOLOGIA

Variations in radiosensitivity of breast cancer and normal breast cell lines using a 200MeV clinical proton beam

Du Plessis, Peter Clark

January 2018

Thesis (MSc (Radiography))--Cape Peninsula University of Technology, 2018 / Background: Breast cancer is one of the most commonly diagnosed among woman in South Africa, and a more resilient effort should be focused on treatment improvements. Worldwide, proton therapy is increasingly used as a radiation treatment alternative to photon therapy for breast cancer, mostly to decrease the risk for radiation-induced cardiovascular toxicity. This in vitro study aims to determine a better understanding of the radiosensitivity of both tumour and normal breast cell lines to clinical proton irradiation. In addition, we propose to investigate whether the increase in linear energy transfer (LET) towards the distal part of the proton beam results in an increase in relative biological effectiveness (RBE) for both cell lines. Methods: Malignant (MCF-7) and non-malignant (MCF-10A) breast cells were irradiated at different water equivalent depths in a 200 MeV proton beam at NRF iThemba LABS using a custom-made Perspex phantom: the entrance plateau, 3 points on the Bragg peak, the D80% and the D40%. A cytokinesis-block Micronucleus (CBMN) assay was performed and Micronuclei (MNi) were manually counted in binucleated cells (BNCs) using fluorescent microscopy. Reference dosimetry was carried out with a Markus chamber and irradiations were performed with a clinical proton beam generated at NRF iThemba LABS that was degraded to a R50 (half-value depths) range of 120 mm, with a field size of 10 cm x 10 cm and a 50 mm SOBP. The phantom could be adjusted to accommodate different perspex plates depending on the depth required within the proton beam. Cells were then exposed to 0.5, 1.0, 2.0, 3.0 and 4.0 Gy doses for each cell line independently and for each dose point. Results and Discussion: For the CBMN results, a program was developed on Matlab platform to calculate the 95% confidence ellipse on the co-variance parameters α and β. These values were determined by fitting the linear quadratic dose response curve to the average number of radiation induced MNi per 1000 BN cells. The ellipse region around a coordinate (the average MN frequency) for both MCF-7 and MCF-10A cells at the plateau region was defined by the mean estimate of the α-value and the β-value that were plotted on the X-axis and Y-axis respectively. The ratio of the two parameters, α/β, is a measure of the impact of fractionation to determine the biological effective dose. In fractionated proton therapy, the MCF10A cells will repair less between two fractions compared to the MCF7 cells. This is not an indication of therapeutic gain from a fractioned treatment protocol. For this reason, the hypofractionated stereotactic treatment protocols that can be applied with protons could be to the befit of the breast cancer patient. The above argument is based only on the radiosensitivity of the two cell lines exposed in the plateau region. Further analysis of the 95% confidence ellipse of both cell lines also showed a clear increase of the alpha value toward the distal portion of the beam and indicates an increase in energy transfer in this region. The gradual increase in α and β parameters with depth for protons for both cells is of clinical importance, since it implicates a non-homogeneous dose within the targeted area and an unwanted high dose behind the targeted area. Distal energy modulation could be investigated especially with larger breast tumours. RBE was calculated as the ratio of the dose at the different positions to the dose at the entrance plateau position (reference) to obtain an equal level of biological effect. A statistically significant difference in radiosensitivity could be observed between malignant and non-malignant cells at all positions (p<0.05). The variation in RBE was between 0.99 to 1.99 and 0.92 to 1.6 for the MCF-7 and MCF10A cell respectively. Conclusions: There is a variation in RBE along the depth-dose profile of a clinical proton beam. In addition, there is difference in radiosensitivity between the cancerous cells and the normal breast cells. While this study highlights a variation in sensitivity between cells it could be used by the modelling community to further develop biologically motivated treatment planning for proton therapy.

Breast cancer -- Treatment

Proton beams -- Therapeutic use

Tumors -- Effect of radiation on

Cytokinesis-block micronucleus assay

MCF-7 cells

MCF-10A cells

Radiobiology

RBE

Hypofractionation

Effect of drinking water disinfection by-products in human peripheral blood lymphocytes and sperm

Ali, Aftab H.M., Kurzawa-Zegota, Malgorzata, Najafzadeh, Mojgan, Gopalan, Rajendran C., Plewa, M.J., Anderson, Diana

26 August 2014

No / Drinking water disinfection by-products (DBPs) are generated by the chemical disinfection of water and may pose hazards to public health. Two major classes of DBPs are found in finished drinking water: haloacetic acids (HAAs) and trihalomethanes (THMs). HAAs are formed following disinfection with chlorine, which reacts with iodide and bromide in the water. Previously the HAAs were shown to be cytotoxic, genotoxic, mutagenic, teratogenic and carcinogenic. OBJECTIVES: To determine the effect of HAAs in human somatic and germ cells and whether oxidative stress is involved in genotoxic action. In the present study both somatic and germ cells have been examined as peripheral blood lymphocytes and sperm. The effects of three HAA compounds: iodoacetic acid (IAA), bromoacetic acid (BAA) and chloroacetic acid (CAA) were investigated. After determining appropriate concentration responses, oxygen radical involvement with the antioxidants, butylated hydroxanisole (BHA) and the enzyme catalase, were investigated in the single cell gel electrophoresis (Comet) assay under alkaline conditions, >pH 13 and the micronucleus assay. In the Comet assay, BHA and catalase were able to reduce DNA damage in each cell type compared to HAA alone. In the micronucleus assay, micronuclei (MNi) were found in peripheral lymphocytes exposed to all three HAAs and catalase and BHA were in general, able to reduce MNi induction, suggesting oxygen radicals play a role in both assays. These observations are of concern to public health since both human somatic and germ cells show similar genotoxic responses.

Effect of nanoparticles on human cells from healthy individuals and patients with respiratory diseases.

Osman, Ilham F.

January 2010

Ever increasing applications of nanomaterials (materials with one or more dimension less than 100 nm) has raised awareness of their potential genotoxicity. They have unique physico¿chemical properties and so could have unpredictable effects. Zinc oxide (ZnO) and titanium dioxide (TiO2) are widely used in a number of commercial products. There are published studies indicating that some forms of these compounds may be photo-clastogenic in mammalian cells. What has not been investigated before is the effect of nanoparticles from these compounds in human germ cells. Thus the present study has examined their effects in the presence and absence of UV light in human sperm and compared responses to those obtained with human lymphocytes using the Comet assay to measure DNA damage. The effect of nanoparticles (40-70nm range) was studied in human sperm and lymphocytes in the dark, after pre-irradiation with UV and simultaneous irradiation with UV. The studies do provide some evidence that there are photo-genotoxic events in sperm and lymphocytes in the absence of overt toxicity. The cytotoxic and genotoxic potentials of ZnO and TiO2 as well as their effect on phosphotyrosine expression, were examined in the human epithelial cervical carcinoma cells (Hela cells). This was done to try and determine the underlying molecular events resulting from their exposure to ZnO and TiO2 nanoparticles occurring at the same time as DNA is damaged. Concentration- and time-dependent cytotoxicity, and an increase in DNA and cytogenetic damage with increasing nanoparticle concentrations were reported in this study. Mainly for zinc oxide, genotoxicity was clearly associated with an increase in tyrosine phosphorylation. Nanotechnology has raced ahead of nanotoxicology and little is known of the effects of nanoparticles in human systems, let alone in diseased individuals. Therefore, the effects of TiO2 nanoparticles in peripheral blood lymphocytes from patients with respiratory diseases (lung cancer, chronic obstructive pulmonary disease (COPD) and asthma) were compared with those in healthy individuals using genotoxic endpoints to determine whether there are any differences in sensitivity to nano-chemical insult between the patient and control groups. The results have shown concentration dependent genotoxic effects of TiO2 in both respiratory patient and control groups in the Comet assay and an increasing pattern of cytogenetic damage measured in the micronucleus assay without being statistically significant except when compared with the untreated controls of healthy individuals. Furthermore, modulation of ras p21 expression was investigated. Regardless of TiO2 treatment, only lung cancer and COPD patients expressed measurable ras p21 levels that showed modulation as the result of nanoparticle treatment. Results have suggested that both ZnO and TiO2 nanoparticles can be genotoxic over a range of concentrations without either photoa-ctivation or being cytotoxic.

Nanomaterials

Human cells

Respiratory diseases

TiO2

ZnO

Sperm

Lymphocyte

Comet assay

Tyrosine phosphorylation

Micronucleus assay

Lung cancer

COPD

Asthma

Healthy controls

Ras oncoprotein

Effects of Graphene Oxide in vitro on DNA Damage in Human Whole Blood and Peripheral Blood Lymphocytes from Healthy individuals and Pulmonary Disease Patients: Asthma, COPD, and Lung Cancer

Amadi, Emmanuel E.

January 2019

For the past few decades, the popularity of graphene oxide (GO) nanomaterials (NMs) has increased exceedingly due to their biomedical applications in drug delivery of anti-cancer drugs. Their unique physicochemical properties such as high surface area and good surface chemistry with unbound surface functional groups (e.g. hydroxyl - OH, carboxyl /ketone C=O, epoxy/alkoxy C-O, aromatic group C=C, etc) which enable covalent bonding with organic molecules (e.g. RNA, DNA) make GO NMs as excellent candidates in drug delivery nanocarriers. Despite the overwhelming biomedical applications, there are concerns about their genotoxicity on human DNA. Published genotoxicity studies on GO NMs were performed using non-commercial GO with 2-3 layers of GO sheets, synthesized in various laboratories with the potential for inter-laboratory variabilities. However, what has not been studied before is the effects of the commercial GO (15-20 sheets; 4-10% edge-oxidized; 1 mg/mL) in vitro on DNA damage in human whole blood and peripheral blood lymphocytes (PBL) from real-life patients diagnosed with chronic pulmonary diseases [asthma, chronic obstructive pulmonary disease (COPD), and lung cancer], and genotoxic endpoints compared with those from healthy control individuals to determine whether there are any differences in GO sensitivity. Thus, in the present study, we had characterized GO NMs using Zetasizer Nano for Dynamic Light Scattering (DLS) and zeta potential (ZP) in the aqueous solution, and electron microscopy using the Scanning Electron Microscope (SEM) and Transmission Electron Microscope (TEM) in the dry state, respectively. Cytotoxicity studies were conducted on human PBL from healthy individuals and patients (asthma, COPD, and lung cancer) using the Methylthiazolyldiphenyl-tetrazolium bromide (MTT) and Neutral Red Uptake (NRU) assays, respectively. The genotoxicity (DNA damage) and cytogenetic effects (chromosome aberration parameters) induced by GO NMs on human whole blood from healthy individuals and patients were studied using the Alkaline Comet Assay and Cytokinesis-blocked Micronucleus (CBMN) assay, respectively. Our results showed concentration-dependent increases in cytotoxicity, genotoxicity, and chromosome aberrations, with blood samples from COPD and lung cancer patients being more sensitive to DNA damage insults compared with asthma patients and healthy control individuals. Furthermore, the relative gene and protein expressions of TP53, CDKN1A/p21, and BCL-2 relative to GAPDH on human PBL were studied using the Reverse Transcription Quantitative Polymerase Chain Reaction (RT-qPCR) and Western Blot techniques, respectively. Our results have shown altered gene and protein expression levels. Specifically, GO-induced cytotoxicity, genotoxicity, and micronuclei aberrations were associated with TP53 upregulation - a biomarker of DNA damage - in both patients and healthy individuals. These effects show that GO NMs have promising roles in drug delivery applications when formulated to deliver drug payload to COPD and cancer cells. However, the fact that cytotoxicity, genotoxicity, chromosome instability, and gene/protein expressions - biomarkers of cancer risk - were observed in healthy individuals are of concern to public health, especially in occupational exposures at micro levels at the workplace.

Graphene oxide

Human whole blood

Peripheral blood lymphocytes

Asthma

Lung cancer

Comet assay

Micronucleus assay

Western Blot

RT-qPCR

Nanomaterials

La génotoxicité des quantum dots et le rôle du stress oxydant : implications sur l'environnement et la santé humaine / Genotoxicity of quantum dots and the role of oxidative stress : implications for the environment and human health

Aye-Baratier, Mélanie

15 November 2013

Les quantum dots (QDs) sont des cristaux semi-conducteurs de dimensions nanométriques. Ils peuvent être employés comme des marqueurs photosensibles du métabolisme cellulaire et peuvent être utiles dans différents domaines notamment en médecine mais il s’est rapidement avéré nécessaire de démontrer leur innocuité avant leur utilisation à grande échelle et leur diffusion dans l’environnement. Nous proposons un projet de thèse de doctorat sur le thème : La génotoxicité des quantum dots et le rôle du stress oxydant, implications sur l’environnement et la santé humaine. Il s’organise suivant trois axes: L’étude in vitro des propriétés génotoxiques et mutagènes des QDs Les QDs induisent des lésions primaires de l’ADN sur cellules CHO-K1 par le test des comètes qui sont associées à un stress oxydant. Ils sont plus actifs après irradiation par le spectre solaire. Ils induisent des mutations chromosomiques. L’étude in vivo des propriétés génotoxiques et mutagènes des QDs Les QDs induisent une augmentation significative des lésions de l'ADN chez le rat qui varie selon l’organe considéré (foie, rein, poumon, cerveau et testicule). Ils induisent une augmentation significative et une réponse dose-dépendante des micronoyaux indiquant nettement leur pouvoir clastogène/aneugène. Aucune variation significative des variables biochimiques mesurées n’est apparue. La mise en évidence de leurs effets sur l’environnement L'exposition aux QDs et au CdCl2 a entraîné une augmentation significative des lésions de l'ADN chez E. fetida et N. diversicolor. / Quantum dots (QDs) are semiconductor nanocrystals which can be employed as sensitive biomarkers of cellular metabolism and thus show their usefulness in various fields, including medicine and it soon became necessary to prove their safety before their widespread use and their distribution in the environment. The thesis project targeted on: Genotoxicity of quantum dots and the role of oxidative stress implications for the environment and human health. This study was organized in three main parts The in vitro study of the genotoxic and mutagenic properties of QDs QDs induced primary DNA lesions in CHO-K1 cells using the comet assay and were associated with oxidative stress. We demonstrated that the QDs were more active after irradiation by the solar spectrum. We showed the ability of QDs to induce chromosomal mutations. The main mechanism was probably that of the production of free radicals. The in vivo study of the genotoxic and mutagenic properties of QDs The comet assay shows that QDs induced an overall significant increase in DNA lesions of different organs (liver, kidneys, lungs, brain and testes). However, each organ had a specific susceptibility. QDs induced a significant increase in a dose-dependent manner of micronuclei. These results clearly indicated the in vivo clastogenic / aneugenic properties of QDs. No significant variation in the measured biochemical variables. The evidence of their effects on the environment Evaluation of genotoxicity was performed on coelomocytes of E. fetida and N. diversicolor resulting in a significant increase in DNA damage.

Avaliação da mutagenicidade dos corantes Sudan III, Vat Green 3, Reactive Orange 16 e Reactive Black 5 por meio do ensaio de micronúcleos em células HepG2 / Evaluation of the mutagenicity of the dyes Sudan III, Vat Green 3, Reactive Orange 16, and Reactive Black 5 by using the micronucleus asay in HepG2 cells

Paula, Eloísa Silva de

09 March 2012

As cores sempre exerceram fascínio sobre a humanidade e, por toda a história, os compostos coloridos sempre foram considerados ferramentas atrativas nas atividades comerciais. Os corantes sintéticos são amplamente utilizados na indústria têxtil, nas impressões de papel e fotografia, nas indústrias farmacêuticas, alimentícias e de cosméticos. Estes compostos são considerados importantes contaminantes ambientais, representando sérios riscos à flora, fauna e ao ser humano. Apesar da grande quantidade de corantes disponíveis, os estudos sobre a toxicidade desses compostos são escassos e pouco se sabe a respeito dos efeitos genotóxicos destas substâncias. Dentro deste contexto, o presente trabalho avaliou o potencial genotóxico dos corantes Sudan III, Vat Green 3, Reactive Orange 16 e Reactive Black 5, utilizando o Ensaio de Micronúcleos em células HepG2. Os corantes Sudan III e Reactive Orange 16 não induziram aumento, estatisticamente significativo, no número total de micronúcleos em relação aos controles, indicando assim que estes corantes não são capazes de induzir mutações cromossômicas no tipo celular e condições testadas. Entretanto, os corantes Vat Green 3 e Reactive Black 5 induziram mutagenicidade, concentrações de 10,0 e 25,0 ?g/mL, e 0,1; 0,25; 0,5 e 1,0 ?g/mL, respectivamente, demonstrada por um efeito concentraçãodependente, no qual há um aumento de MNs até a concentração de 25,0 ?g/mL para o Vat Green 3 e 0,5 ?g/mL para o Reactive Black 5 com p<0,05. Não foram observadas diferenças significativas entre os IDNs calculados para cada tratamento e controle dos corantes testados, indicando que esses corantes não interferem na proliferação celular das HepG2. Dessa forma, conclui-se que dos quatro compostos analisados, os corantes têxteis Vat Green 3 e Reactive Black 5 são capazes de induzir mutações cromossômicas em células HepG2 e, o potencial mutagênico do Reactive Black 5 é maior que o do Vat Green 3 no sistema celular avaliado, uma vez que foi capaz de induzir mutações, em concentrações menores. Os resultados obtidos neste trabalho permitem concluir que cada um desses importantes contaminantes ambientais deve ser avaliado individualmente a fim de proteger o meio ambiente, garantindo assim a proteção da saúde humana. / The colors have always caused fascination in mankind. Throughout history, colored compounds have always been considered attractive tools in industrial activities. The synthetic dyes are widely used in textile industry, paper and photography printing, in pharmaceutical, food, and cosmetic industries. These compounds are considered important environmental contaminants, and they can cause serious risks to wildlife and humans. Despite the large number of dyes available, studies on the toxicity of these compounds are scarce and little is known about the genotoxic effects of these substances. This study evaluated the genotoxic potential of the dyes Sudan III, Vat Green 3, Reactive Orange 16 and Reactive Black 5 using the micronucleus assay in HepG2 cells. The dyes Sudan III and, Reactive Orange 16, do not induce an increase statistically significant, in the total number of micronuclei when compared to controls. This result shows that these dyes are not able to induce chromosomal mutations in the cell type under the conditions tested. However, the dyes Vat Green 3 and Reactive Black 5 induced mutagenicity, following a dose-response effect, in which there is an increase of micronuclei until the concentration of 25.0 ?g/mL for Vat Green 3 and 0.5 ?g/mL for Reactive Black 5, with p <0.05. There were no significant differences between the NDI calculated for each treatment and control of the dyes studied, indicating that these dyes do not interfere in HepG2 cell proliferation. Thus, the textile dyes Vat Green 3 and Reactive Black 5 are able to induce chromosomal mutations in HepG2 cells, and the dye Reactive Black 5 is more mutagenic than the dye Vat Green 3, since it induced mutations in cellular system tested at lower concentrations. The results of this study indicate that each one of these important environmental contaminants should be assessed individually in order to protect the environment, thus ensuring the protection of human health.

Células HepG2

Ensaio de micronúcleos

HepG2 cells

Micronucleus assay

Reactive Black 5

Reactive Black 5

Reactive Orange 16

Reactive Orange 16

Sudan III

Sundan III

Vat Green 3

Vat Green 3

Avaliação da mutagenicidade dos corantes Sudan III, Vat Green 3, Reactive Orange 16 e Reactive Black 5 por meio do ensaio de micronúcleos em células HepG2 / Evaluation of the mutagenicity of the dyes Sudan III, Vat Green 3, Reactive Orange 16, and Reactive Black 5 by using the micronucleus asay in HepG2 cells

Eloísa Silva de Paula

09 March 2012

As cores sempre exerceram fascínio sobre a humanidade e, por toda a história, os compostos coloridos sempre foram considerados ferramentas atrativas nas atividades comerciais. Os corantes sintéticos são amplamente utilizados na indústria têxtil, nas impressões de papel e fotografia, nas indústrias farmacêuticas, alimentícias e de cosméticos. Estes compostos são considerados importantes contaminantes ambientais, representando sérios riscos à flora, fauna e ao ser humano. Apesar da grande quantidade de corantes disponíveis, os estudos sobre a toxicidade desses compostos são escassos e pouco se sabe a respeito dos efeitos genotóxicos destas substâncias. Dentro deste contexto, o presente trabalho avaliou o potencial genotóxico dos corantes Sudan III, Vat Green 3, Reactive Orange 16 e Reactive Black 5, utilizando o Ensaio de Micronúcleos em células HepG2. Os corantes Sudan III e Reactive Orange 16 não induziram aumento, estatisticamente significativo, no número total de micronúcleos em relação aos controles, indicando assim que estes corantes não são capazes de induzir mutações cromossômicas no tipo celular e condições testadas. Entretanto, os corantes Vat Green 3 e Reactive Black 5 induziram mutagenicidade, concentrações de 10,0 e 25,0 ?g/mL, e 0,1; 0,25; 0,5 e 1,0 ?g/mL, respectivamente, demonstrada por um efeito concentraçãodependente, no qual há um aumento de MNs até a concentração de 25,0 ?g/mL para o Vat Green 3 e 0,5 ?g/mL para o Reactive Black 5 com p<0,05. Não foram observadas diferenças significativas entre os IDNs calculados para cada tratamento e controle dos corantes testados, indicando que esses corantes não interferem na proliferação celular das HepG2. Dessa forma, conclui-se que dos quatro compostos analisados, os corantes têxteis Vat Green 3 e Reactive Black 5 são capazes de induzir mutações cromossômicas em células HepG2 e, o potencial mutagênico do Reactive Black 5 é maior que o do Vat Green 3 no sistema celular avaliado, uma vez que foi capaz de induzir mutações, em concentrações menores. Os resultados obtidos neste trabalho permitem concluir que cada um desses importantes contaminantes ambientais deve ser avaliado individualmente a fim de proteger o meio ambiente, garantindo assim a proteção da saúde humana. / The colors have always caused fascination in mankind. Throughout history, colored compounds have always been considered attractive tools in industrial activities. The synthetic dyes are widely used in textile industry, paper and photography printing, in pharmaceutical, food, and cosmetic industries. These compounds are considered important environmental contaminants, and they can cause serious risks to wildlife and humans. Despite the large number of dyes available, studies on the toxicity of these compounds are scarce and little is known about the genotoxic effects of these substances. This study evaluated the genotoxic potential of the dyes Sudan III, Vat Green 3, Reactive Orange 16 and Reactive Black 5 using the micronucleus assay in HepG2 cells. The dyes Sudan III and, Reactive Orange 16, do not induce an increase statistically significant, in the total number of micronuclei when compared to controls. This result shows that these dyes are not able to induce chromosomal mutations in the cell type under the conditions tested. However, the dyes Vat Green 3 and Reactive Black 5 induced mutagenicity, following a dose-response effect, in which there is an increase of micronuclei until the concentration of 25.0 ?g/mL for Vat Green 3 and 0.5 ?g/mL for Reactive Black 5, with p <0.05. There were no significant differences between the NDI calculated for each treatment and control of the dyes studied, indicating that these dyes do not interfere in HepG2 cell proliferation. Thus, the textile dyes Vat Green 3 and Reactive Black 5 are able to induce chromosomal mutations in HepG2 cells, and the dye Reactive Black 5 is more mutagenic than the dye Vat Green 3, since it induced mutations in cellular system tested at lower concentrations. The results of this study indicate that each one of these important environmental contaminants should be assessed individually in order to protect the environment, thus ensuring the protection of human health.

Células HepG2

Ensaio de micronúcleos

Reactive Black 5

Reactive Orange 16

Sundan III

Vat Green 3

HepG2 cells

Micronucleus assay

Reactive Black 5

Reactive Orange 16

Sudan III

Vat Green 3

Využití buněčné linie BEAS-2B pro analýzu mikrojader v genetické toxikologii / The use of BEAS-2B cell line for micronucleus assay in genetic toxicology

Červená, Tereza

January 2016

This thesis deals with the application of BEAS-2B cell line for micronucleus assay in genetic toxicology. It is divided into two main parts: a) theoretical introduction to the analysis and search for suitable models for testing the impact of air pollution and manufactured nanoparticles, b) practical part that describes the results of micronuclei induction by polycyclic aromatic hydrocarbons (PAHs), extractable organic matter (EOM) from diesel exhaust particles obtained from emissions of three types of fuel and engineered nanoparticles. BEAS-2B cell line is a nonmalignant human model of lung epithelium which seems to be suitable for micronucleus assay. This assay is commonly used for determining the genotoxicity of various substances to wide variety of cell cultures and also in human studies. In this thesis, the following substances were tested: benzo[a]pyrene, 3-nitrobenzanthrone and 1-nitropyrene as carcinogenic PAHs commonly found in polluted air; EOMs from exhaust particles of 100 % diesel fuel, a blend of diesel fuel and 30 % of biodiesel, 100 % biodiesel and two types of engineered nanoparticles (TiO2 and Ag). The cells were treated with the compounds for 28, 48 and 72 hours. The results confirm the suitability of BEAS-2B cell line as a model for testing the genotoxicity of substances under...