Photochemical and Photophysical Properties of Mononuclear and Multinuclear Closed Shell D10 Coinage Metal Complexes and Their Metallo-organometallic Adducts

McDougald, Roy N., Jr.

12 1900

This dissertation covers the studies of two major topics: the photochemistry of mononuclear and multinuclear gold(I) complexes and synthetic approaches to tailor photophysical properties of cyclic trinuclear d10 complexes. First a detailed photochemical examination into the photoreactivity of neutral mononuclear and multinuclear gold(I) complexes is discussed, with the aim of gold nanoparticle size and shape control for biomedical and catalysis applications. Next is a comprehensive systematic synthetic approach to tailor the photophysical properties of cyclic trinuclear d10 complexes. This synthetic approach includes an investigation of structure-luminescence relationships between cyclic trinuclear complexes, an examination into their π-acid/π-base reactivity with heavy metal cations and an exploration into the photophysical properties of new heterobimetallic cyclic trinuclear complexes. These photophysical properties inspections are used to screen materials for their employment in molecular electronic devices such as organic light-emitting diodes (OLEDs) and thin film transistors (OTFTs).

Organometallic

trinuclear gold complex

π-acid/π-base adducts

aurophilicity

heterobimetallic

Part 1. Halichondrin B: Synthesis of an H-ring intermediate. Part 2. Levuglandin-protein adducts: Synthesis of an antigen for immunoassay

Kim, Seokchan

January 1992

No description available.

Chemistry, Organic

N-Glucuronidation of 4-Aminobiphenyl and the Risk of Urinary Bladder Cancer: Gender Differences

Al-Zoughool, Mustafa Hussein

14 July 2005

No description available.

Health Sciences, Toxicology

4-Aminobiphenyl

Bladder cancer

Aromatic amines

N-glucuronidation

DNA-adducts

Biomarkers of Polycyclic Aromatic Hydrocarbon (PAH) Exposure in Firefighters

Beddoe, Tiffany R.

23 September 2011

No description available.

Occupational Safety

Polycyclic Aromatic Hydrocarbons

PAH

Firefighters

Cincinnati Firefighter Study

DNA Adducts

1-HP

The Coordination Chemistry of Xenon Trioxide with Oxygen Bases

Marczenko, Katherine

January 2018

This thesis extends our fundamental knowledge in the area of high oxidation state chemistry of xenon trioxide, XeO3. Oxygen coordination to the Xe(VI) atom of XeO3 was observed in its adducts with triphenylphosphine oxide, [(C6H5)3PO]2XeO3, dimethylsulfoxide, [(CH3)2SO]3(XeO3)2, pyridine-N-oxide, (C5H5NO)3(XeO3)2, and acetone, [(CH3)2CO]3XeO3. The crystalline adducts were characterized by low-temperature single-crystal X-ray diffraction and Raman spectroscopy. Unlike solid XeO3, which detonates when mechanically or thermally shocked, the solid [(C6H5)3PO]2XeO3, [(CH3)2SO]3(XeO3)2, and (C5H5NO)3(XeO3)2 adducts are insensitive to mechanical shock, but undergo deflagration when exposed to a flame. Both [(C6H5)3PO]2XeO3 and (C5H5NO)3(XeO3)2 are air-stable at room temperature. The xenon coordination sphere in [(C6H5)3PO]2XeO3 is a distorted square pyramid and provides the first example of a five-coordinate Xe center in a XeO3 adduct. The xenon coordination sphere of the remaining adducts are distorted octahedral comprised of three equivalent Xe---O secondary contacts that are approximately trans to the primary Xe–O bonds of XeO3. Hirshfeld surfaces of XeO3 and (C6H5)3PO in [(C6H5)3PO]2XeO3 show the adduct is well-isolated in its crystal structure and provide a visual representation of the secondary Xe---O bonding in this adduct. Crown ethers have been known for over 50 years, but no example of a complex between a noble-gas compound and a crown ether or another polydentate ligand had been reported. Xenon trioxide is shown to react with 15-crown-5 to form the kinetically stable (CH2CH2O)5XeO3 adduct which, in marked contrast with solid XeO3, does not detonate when mechanically shocked. The crystal structure shows that the five oxygen atoms of the crown ether are coordinated to the xenon atom of XeO3. The gas-phase Wiberg bond valences and indices and empirical bond valences indicate the Xe---Ocrown bonds are predominantly electrostatic, σ-hole, bonds. Mappings of the electrostatic potential (EP) onto the Hirshfeld surfaces of XeO3 and 15-crown-5 in (CH2CH2O)5XeO3 and a detailed examination of the molecular electrostatic potential surface (MEPS) of XeO3 and (CH2CH2O)5 reveal regions of negative EP on the oxygen atoms of (CH2CH2O)5 and regions of high positive EP on the xenon atom that are also consistent with σ-hole bonding. Reactions of crown ethers with HF acidified aqueous solutions of XeO3 at room-temperature yielded adducts of 12-crown-4, (CH2CH2O)4XeO3, and 18-crown-6, [(CH2CH2O)6XeO3∙2H2O]2∙HF, whereas slow cooling of a solution of XeO3 with 18-crown-6 in acetone yielded (CH2CH2O)6XeO3∙2H2O. The adducts (CH2CH2O)4XeO3 and (CH2CH2O)6XeO3∙2H2O are shock-insensitive whereas the former adduct is air-stable at room temperature. The low-temperature, single-crystal X-ray structures show the Xe atom of XeO3 coordinated to the oxygen atoms of the crown ether ring. Uncharacteristic xenon coordination numbers exceeding six (including the three primary bonds of XeO3) were observed for all crown ether adducts. Raman spectroscopy frequency shifts are consistent with complex formation and provided evidence for the 2,2,1-cryptand adduct of XeO3. Gas-phase Wiberg bond valences and indices and empirical solid-state bond valences confirmed the electrostatic nature of the Xe---O bonding interactions. Comparisons between the XeO3 and SbF3 18-crown-6, 15-crown-5, and 12-crown-4 complexes are made. Incorporation of xenon trioxide, XeO3, into inorganic polyatomic salts under ambient conditions has been observed in several mixed xenate salts; K[XeO3XO3] (X = Cl, Br), K2[XeO3SeO4]∙HF, K[(XeO3)nZO3] (Z = I, N), and M2[(XeO3)nCO3]∙xH2O (M = Na, K, Rb, Ba). Raman spectroscopy was used to identify the aforementioned compounds and K[XeO3ClO3], K[XeO3BrO3], K2[XeO3SeO4]∙HF, and Rb2[(XeO3)2CO3]∙2H2O were also characterized by low-temperature, single-crystal X-ray diffraction. The xenon atom of XeO3 is seven coordinate in K[XeO3ClO3] and six coordinate in all other compounds with Xe---O distances that are significantly less than the sum of the Xe and O van der Waals radii. These salts provide examples of XeO3 coordinated to inorganic compounds and may provide insights into the inclusion of xenon oxides in minerals. / Thesis / Master of Science (MSc)

Noble-gas chemistry

Xenon trioxide

Lewis adducts

Bonding

High oxidation state

Single Crystal X-ray Diffraction

Mass spectrometric studies of the biological fate of platinum-based drugs and selenium supplementation in cancer chemotherapy

Taylor, Sarah E.

January 2014

Platinum-based drugs are an important group of alkylating-like agents which are used in cancer chemotherapy treatment. Cisplatin and oxaliplatin in particular are still commonly used today and are the focus of this thesis. As with most chemotherapy drugs, the efficacy of these drugs are limited by toxicity as well as tumour resistance, and therefore by increasing our understanding of these areas it is hoped to one day achieve personalised chemotherapy. The use of ICP-MS in the study of bio-sciences is still relatively new, however it has the ability to provide robust, fast and accurate methods for the quantification of platinum in biological samples. The research presented here utilised mass spectrometry in the study of the formation of Pt-DNA adducts in the clinical samples, the binding of oxaliplatin to short peptides and the effect of selenium supplementation on oxaliplatin in colorectal cancer cell lines. A comparison in the number of Pt-DNA adducts in saliva and leukocyte samples obtained from patients undergoing Pt-based chemotherapy demonstrated a lack of correlation between the two sample types. Samples were taken pre- and post-treatment and analysed via SF-ICP-MS and significant inter-patient variability was observed as expected. In both leukocyte and saliva samples, not only was Pt from previous chemotherapy cycles observed, but Pt was detected in the DNA in both sample types 1 hour after treatment. However a lack of correlation between platinum levels seen in the blood and saliva, combined with unexpected difficulties obtaining patient adherence to the saliva sampling protocol, indicated that saliva does not at present offer a reliable alternative to leukocytes for this assay. The binding of oxaliplatin to short nitrogen and sulfur rich peptides was investigated. Platinum binding to the peptides was observed and no significant differences in the level of binding were observed between the range of N and S rich peptides studied in this investigation. Partly due to the inability to reproduce biological conditions in this study, oxaliplatin was observed as a whole molecule, and furthermore dimers and multimers were also observed. The effect of selenium supplementation on the total cellular uptake of platinum was investigated in cultured cells via ICP-MS and LA-ICP-MS. It was observed that selenium decreased the amount of Pt taken up by the cancer cells. This was seen in analysis of populations of cells as well as by single cell analysis. Furthermore, while problems were encountered measuring selenium in subcellular experiments, the effect of selenium on the subcellular distribution of platinum as well as the number of Pt-DNA adducts could be determined.

616.99

Development of an adductomic approach to identify electrophiles in vivo through their hemoglobin adducts

Carlsson, Henrik

January 2016

Humans are exposed to electrophilically reactive compounds, both formed endogenously and from exogenous exposure. Such compounds could react and form stable reaction products, adducts, at nucleophilic sites in proteins and DNA. The formation of adducts constitutes a risk for effects, such as cancer and contact allergy, and plays a role in ageing processes. Adducts to proteins offer a possibility to measure electrophilic compounds in vivo. Adductomic approaches aim to study the totality of adducts, to specific biomolecules, by mass spectrometric screening. This thesis describes the development and application of an adductomic approach for the screening of unknown adducts to N-terminal valine (Val) in hemoglobin (Hb) by liquid chromatography tandem mass spectrometry (LC/MS/MS). The adductomic approach is based on the FIRE procedure, a modified Edman procedure for the analysis of adducts to N-terminal Val in Hb by LC/MS/MS. The adduct screening was performed by stepwise scanning of precursor ions in small mass increments and monitoring four fragments common for derivatives of detached Val adducts, in the multiple reaction monitoring mode. Samples from 12 smokers/nonsmokers were screened with the adductomic approach, and seven previously identified adducts and 19 unknown adducts were detected. A semiquantitative approach was applied for approximate quantification of adduct levels. A strategy for identifying unknown Hb adducts using adductome LC/MS/MS data was formulated and applied for the identification of unknown adducts. Identifications were based on the observed m/z of precursor ions and retention times combined with databases and Log P calculations. Hypothesized adducts were generated in vitro for comparison and matching with the corresponding unknown adducts. Five identified adducts correspond to the precursor electrophiles ethyl vinyl ketone (EVK), glyoxal, methylglyoxal, acrylic acid, and 1-octen-3-one. These adducts, except the adducts corresponding to glyoxal and methylglyoxal, have not been observed as protein adducts before.  Probable exposure sources to these electrophiles are diet and/or endogenous formation. The observation of these adducts motivate further studies to evaluate possible contributions to health risks, as well as their potential as biomarkers of exposure. The adduct from EVK was quantitatively assessed through different experiments to estimate the daily internal dose (area under the concentration-time-curve, AUC). EVK is about 2 × 103 more reactive than the reference compound acrylamide. The EVK adduct was shown to be unstable, with a relatively short half-life. The daily AUC in humans of EVK was estimated to be about 20 times lower than the corresponding AUC of acrylamide from intake via food. To confirm the observation of the detected unknown adducts and obtain a statistical foundation, analysis of unknown adducts were performed in large sets of blood samples (n = 50–120) from human cohorts. The majority of the previously detected unknown adducts were found in all analyzed samples, and the levels of many adducts showed large variations between individuals. The cause and significance of these observed variations are not yet clarified, but are of importance for the directions of future studies. In conclusion, a new approach for identification of unknown human exposure to electrophiles was developed and successfully applied. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 4: Submitted.</p>

Adductomics

Hemoglobin adducts

LC/MS/MS

Ethyl vinyl ketone

Glyoxal

Methylglyoxal

Acrylic acid

1-Octen-3-one

Citotoxicidade do corante dinitrofenilazo CI DB291: biotransformação, estresse oxidativo e alteração epigenética em células HepG2 / Cytotoxicity of the CI DB291 dinitrofenilazo dye: biotransformation, oxidative stress and epigenetic change in HepG2 cells

Oliveira, Tiago Franco de

24 August 2012

O produto comercial CI Disperse Blue 291 (CI DB291) é amplamente utilizado pela industria têxtil. Estudos mostram que corantes dinitrofenilazo são genotóxicos no ensaio de Ames/Salmonella, mas há poucos estudos sobre seus efeitos em células eucariontes. Este trabalho teve como objetivo investigar a genotoxicidade e citotoxicidade do corante DB291 em células humanas em cultura, bem como vias pelas quais o corante atua levando aos efeitos tóxicos. O corante comercial foi purificado por HPLC-DAD e utilizado para incubação com células HepG2 (5-100 &#181;M por 3-72 h). A citotoxicidade foi avaliada pelos ensaios de XTT, corante cristal violeta, lactato desidrogenase extracelular e consumo de glicose. A geração de ROS intracelular foi verificada pela emissão de fluorescência da 2\',7\'-diclorofluoresceína. Análises de ciclo celular, fragmentação do DNA, potencial de membrana mitocondrial (&#936;) e cálcio intracelular foram realizadas por citometria de fluxo. A produção de ATP foi mensurada por quimiluminescência. Níveis de 8-oxodG e 5-mdC foram avaliados por HPLC-ESI-MS/MS e HPLC-UV, respectivamente. A expressão da enzima DNMT1 foi avaliada por western blot. Um produto de biotransformação foi identificado e caracterizado estruturalmente por MS/MS e 1H-RMN. A exposição ao corante DB291 diminuiu significativamente a sobrevivência das células em um modo tempo- e dose-dependente (IC50 = 74 &#181;M), com a concomitante formação de um produto de biotransformação reduzido. A morte celular ocorreu sem lise da membrana plasmática. Nas células expostas, foi observado aumento da atividade enzimática mitocondrial, acompanhado por um aumento da taxa de consumo de glicose. Índices elevados de ATP, &#936; e cálcio foram verificados após a incubação das células com concentrações crescentes do corante. Alterações mitocondriais e o processo de biotransformação impeliram a aumento na produção de ROS intracelular, 8-oxodG e fragmentação do DNA. O dano ao DNA induziu a parada no ciclo celular e super-expressão de DNMT1, seguido por hipometilação global do DNA no ciclo celular subsequente. Os resultados obtidos apontam pela primeira vez para a toxicidade do corante DB291 via biotransformação, com alterações mitocondriais e indução de estresse oxidativo. / The commercial CI Disperse Blue 291 (CI DB291) is widely used by textile industry. It is mutagenic in the Ames/S. typhimurium assay, but there are few studies showing its effects in eukaryotic cells. We evaluated here the toxicity of CI DB291 in the human HepG2 cell line. The commercial dye was purified by HPLC-DAD and used for incubation with HepG2 cells (5-100 &#181;M for 3-72 h). Cytotoxicity was assessed by the XTT, crystal violet dye, extracellular lactate dehydrogenase and glucose consumption assays. ROS formation was assessed by 2\',7\'-dichlorofluorescein fluorescence. Analyses of cell cycle, DNA fragmentation, mitochondrial membrane potential (&#936;) and intracellular calcium were analyzed by flow cytometry. ATP level was measured by chemiluminescence. Levels of 8-oxodG and 5-mdC were evaluated by HPLCESI-MS/MS and HPLC-UV, respectively. DNMT1 expression was assessed by western blot. A biotransformation product was identified and structurally characterized by MS/MS and 1H-NMR. DB291 significantly decreased cell survival in a time- and dose-dependent manner (IC50 = 74 &#181;M), with concomitant formation of a reduced biotransformation product. Plasma membrane lysis did not occur. Increased mitochondrial enzymatic activity, accompanied by increase in glucose consumption rate, was observed in cells incubated with DB291. Elevated ATP, &#936;, and intracellular calcium was verified after cell incubation with increasing dye concentrations. Mitochondrial changes and the biotransformation process accounted for the observed raise in intracellular ROS, 8-oxodG, and DNA fragmentation. DNA damage induced cell cycle arrest and DNMT1 overexpression, followed by DNA hypomethylation in the subsequent cell cycle. Results point for the first time to toxicity of the dye through biotransformation, mitochondrial changes, and oxidative stress.

Adutos de DNA

DB291

DB291

Dinitrofenilazo

Dinitrophenylazo

DNA adducts

DNA methylation

Estresse oxidativo

Metilação global do DNA

Mitochondria

Mitocôndria

Oxidative stress

Consumo de carnes e aminas heterocíclicas como fatores de risco para câncer / Meat and heterocyclic amines intake as risk factors for cancer

Carvalho, Aline Martins de

21 October 2016

Introdução. O alto consumo de carne, principalmente vermelha e processada, tem sido relacionado com aumento de risco de doenças crônicas, especialmente o câncer. Uma das explicações possíveis são os métodos de preparo culinário a altas temperaturas, que acarretam na formação aminas heterocíclicas. Estes compostos são detoxificados no nosso organismo, passando por um processo, no qual podem ser geradas espécies reativas, relacionadas ao estresse oxidativo e ao dano ao DNA. Entretanto, os indivíduos apresentam respostas diferentes à mesma exposição dietética, podendo ter diferentes níveis de risco ou benefício com a mesma ingestão de alimentos. O código genético individual pode ser uma das causas dessa variação interpessoal. Objetivo. Investigar a relação entre o consumo de carnes e aminas heterocíclicas com estresse oxidativo e dano no DNA, considerando polimorfismos genéticos, fatores demográficos e de estilo de vida em residentes do Município de São Paulo. Métodos. Foram utilizados dados dietéticos, genéticos, bioquímicos e estilo de vida de um estudo transversal com amostra probabilística de múltiplo estágio chamado Inquérito de Saúde de São Paulo (ISACapital). Os dados de carne e aminas heterocíclicas foram obtidos a partir de um recordatório alimentar de 24 horas e questionário sobre métodos de cocção e graus de cozimento das carnes. A extração do DNA ocorreu pelo método por sal e utilizou-se a técnica PCR em tempo real para determinação dos seguintes polimorfismos de nucleotídeo único: CYP1A1 (rs1048943), CYP1A2 (rs762551, rs35694136), CYP1B1 (rs1056836, rs10012), NAT2 (rs1208, rs1041983, rs1799929, rs1801280, rs1799931, rs1799930, rs1801279), NAT1 (rs4986782, rs5030839, rs56379106, rs56318881, rs6586714), SULT1A1 (rs928286), UGT1A9 (rs3832043), SOD2 (rs4880), CAT (rs7943316), GSTA1 (rs3957357), GSTP1 (rs1695), e deleção dos genes GSTM1 e GSTT1. Foram utilizados os biomarcadores malonaldeído (MDA) no plasma para estimar o estresse oxidativo e o 8-OHdG no plasma para estimar dano ao DNA. As associações foram examinadas por meio de modelos de regressão múltipla linear e logística ajustadas por sexo, idade, IMC, consumo de frutas e calorias, atividade física e fumo. Resultados. O consumo médio de aminas heterocíclicas foi de 437ng/dia e a carne de boi foi a que mais contribuiu para o consumo de aminas. Participantes que consumiram carne de boi grelhada muito bem passada apresentaram maiores concentrações de MDA do que os demais. Encontrou-se associação positiva entre consumo de aminas heterocíclicas com estresse oxidativo e dano ao DNA, isto é, indivíduos que consumiram maiores teores de aminas heterocíclicas apresentaram maiores chances de ter elevados concentrações de MDA (OR=1,17; P=0,04) e maiores concentrações de 8-OHdG (=1,62; P=0,04). Observou-se também que esta associação pode ser modificada pelas características genéticas individuais, sendo que polimorfismos nos genes das enzimas de detoxificação NAT2 e CYP1B1 interagiram com o consumo de aminas, diminuindo o estresse oxidativo. Conclusão. Verificou-se que o alto consumo de aminas heterocíclicas contribuiu para maiores níveis de estresse oxidativo e dano ao DNA independente de fatores demográficos e de estilo de vida, aumentando o risco de doenças crônicas. Observou-se também que esta relação pode ser alterada na presença de polimorfismos genéticos individuais. / Introduction. The excessive meat intake, especially red and processed meat, has been linked to chronic diseases, especially cancer. One of the reasons for that is the cooking process at high temperatures that can form heterocyclic amines (HCA). During HCA metabolism, reactive species can be formed, which can cause oxidative stress and DNA damage. However, people can show different answers to the same food intake, increasing or decreasing the risk of diseases. The DNA code can be one of the causes of this between-person variations. Objective. To investigate the association between meat/heterocyclic amine intake with oxidative stress and DNA damage, considering polymorphism, demographic and life style factors among population of São Paulo city. Methods. Information on food intake, genetics, biochemical, and lifestyle was obtained from a representative, multistage probability-based cross-sectional study titled Health Survey for Sao Paulo (ISA-Capital). Meat and heterocyclic amine intake was estimated by a 24-hour dietary recall complemented by a detailed questionnaire with preferences of cooking methods and level of doneness for meats. The salt method was used for DNA extraction and real time PCR to identify the following single nucleotide polymorphisms: CYP1A1 (rs1048943), CYP1A2 (rs762551, rs35694136), CYP1B1 (rs1056836, rs10012), NAT2 (rs1208, rs1041983, rs1799929, rs1801280, rs1799931, rs1799930, rs1801279), NAT1 (rs4986782, rs5030839, rs56379106, rs56318881, rs6586714), SULT1A1 (rs928286), UGT1A9 (rs3832043), SOD2 (rs4880), CAT (rs7943316), GSTA1 (rs3957357), GSTP1 (rs1695), GSTM1 and GSTT1 (null or not). We used malondialdehyde (MDA) concentration in plasma to estimated oxidative stress, and 8-OHdG concentration in plasma to estimate DNA damage. Analyses were performed using multivariate logistic and linear regressions adjusted for smoking, sex, age, body mass index, energy intake, fruit intake, smoking and physical activity. Results. Mean HCA intake was 437ng/day and beef was the meat that contributed more to HCA. Participants who consumed grilled beef very well-done presented more MDA concentration than other participants. We found significant association between heterocyclic amine intake with oxidative stress and DNA damage. Participants who consumed high levels of heterocyclic amines showed higher odds to show high MDA concentration (OR=1.17; P=0.04) and high 8-OHdG concentration (=1.62; P=0.04). These associations could be modified by individual genetic characteristics. Polymorphisms in genes that codify NAT2 and CYP1B1 detoxification enzymes interacted with HCA intake, decreasing oxidative stress. Conclusions. The high heterocyclic amine intake contributed to increase oxidative stress independently of lifestyle and demographic factors, increasing risk of chronic diseases. These relationships can be modified by genetic polymorphisms.

Adutos de DNA

Aminas Heterocíclicas

Cancer

Câncer

DNA Adducts

Estresse Oxidativo

Genetic Polymorphisms

Heterocyclic Amines

Oxidative Stress

Polimorfismo Genético

Citotoxicidade do corante dinitrofenilazo CI DB291: biotransformação, estresse oxidativo e alteração epigenética em células HepG2 / Cytotoxicity of the CI DB291 dinitrofenilazo dye: biotransformation, oxidative stress and epigenetic change in HepG2 cells

Tiago Franco de Oliveira

24 August 2012

O produto comercial CI Disperse Blue 291 (CI DB291) é amplamente utilizado pela industria têxtil. Estudos mostram que corantes dinitrofenilazo são genotóxicos no ensaio de Ames/Salmonella, mas há poucos estudos sobre seus efeitos em células eucariontes. Este trabalho teve como objetivo investigar a genotoxicidade e citotoxicidade do corante DB291 em células humanas em cultura, bem como vias pelas quais o corante atua levando aos efeitos tóxicos. O corante comercial foi purificado por HPLC-DAD e utilizado para incubação com células HepG2 (5-100 &#181;M por 3-72 h). A citotoxicidade foi avaliada pelos ensaios de XTT, corante cristal violeta, lactato desidrogenase extracelular e consumo de glicose. A geração de ROS intracelular foi verificada pela emissão de fluorescência da 2\',7\'-diclorofluoresceína. Análises de ciclo celular, fragmentação do DNA, potencial de membrana mitocondrial (&#936;) e cálcio intracelular foram realizadas por citometria de fluxo. A produção de ATP foi mensurada por quimiluminescência. Níveis de 8-oxodG e 5-mdC foram avaliados por HPLC-ESI-MS/MS e HPLC-UV, respectivamente. A expressão da enzima DNMT1 foi avaliada por western blot. Um produto de biotransformação foi identificado e caracterizado estruturalmente por MS/MS e 1H-RMN. A exposição ao corante DB291 diminuiu significativamente a sobrevivência das células em um modo tempo- e dose-dependente (IC50 = 74 &#181;M), com a concomitante formação de um produto de biotransformação reduzido. A morte celular ocorreu sem lise da membrana plasmática. Nas células expostas, foi observado aumento da atividade enzimática mitocondrial, acompanhado por um aumento da taxa de consumo de glicose. Índices elevados de ATP, &#936; e cálcio foram verificados após a incubação das células com concentrações crescentes do corante. Alterações mitocondriais e o processo de biotransformação impeliram a aumento na produção de ROS intracelular, 8-oxodG e fragmentação do DNA. O dano ao DNA induziu a parada no ciclo celular e super-expressão de DNMT1, seguido por hipometilação global do DNA no ciclo celular subsequente. Os resultados obtidos apontam pela primeira vez para a toxicidade do corante DB291 via biotransformação, com alterações mitocondriais e indução de estresse oxidativo. / The commercial CI Disperse Blue 291 (CI DB291) is widely used by textile industry. It is mutagenic in the Ames/S. typhimurium assay, but there are few studies showing its effects in eukaryotic cells. We evaluated here the toxicity of CI DB291 in the human HepG2 cell line. The commercial dye was purified by HPLC-DAD and used for incubation with HepG2 cells (5-100 &#181;M for 3-72 h). Cytotoxicity was assessed by the XTT, crystal violet dye, extracellular lactate dehydrogenase and glucose consumption assays. ROS formation was assessed by 2\',7\'-dichlorofluorescein fluorescence. Analyses of cell cycle, DNA fragmentation, mitochondrial membrane potential (&#936;) and intracellular calcium were analyzed by flow cytometry. ATP level was measured by chemiluminescence. Levels of 8-oxodG and 5-mdC were evaluated by HPLCESI-MS/MS and HPLC-UV, respectively. DNMT1 expression was assessed by western blot. A biotransformation product was identified and structurally characterized by MS/MS and 1H-NMR. DB291 significantly decreased cell survival in a time- and dose-dependent manner (IC50 = 74 &#181;M), with concomitant formation of a reduced biotransformation product. Plasma membrane lysis did not occur. Increased mitochondrial enzymatic activity, accompanied by increase in glucose consumption rate, was observed in cells incubated with DB291. Elevated ATP, &#936;, and intracellular calcium was verified after cell incubation with increasing dye concentrations. Mitochondrial changes and the biotransformation process accounted for the observed raise in intracellular ROS, 8-oxodG, and DNA fragmentation. DNA damage induced cell cycle arrest and DNMT1 overexpression, followed by DNA hypomethylation in the subsequent cell cycle. Results point for the first time to toxicity of the dye through biotransformation, mitochondrial changes, and oxidative stress.

Adutos de DNA

DB291

Dinitrofenilazo

Estresse oxidativo

Metilação global do DNA

Mitocôndria

DB291

Dinitrophenylazo

DNA adducts

DNA methylation

Mitochondria

Oxidative stress