Global ETD Search

1	Quantificação de danos em DNA induzidos por acetaldeído. Potencial biomarcador de poluição ambiental / Quantification of DNA damage induced by acetaldehyde. Potential biomarker for environmental pollution Garcia, Camila Carrião Machado 21 June 2010 (has links) O acetaldeído é um comprovado agente mutagênico e carcinogênico, pode ser produzido endogenamente pela oxidação do álcool ingerido em bebidas alcoólicas e alimentos ou exogenamente, inalado como poluente, advindo da oxidação de combustíveis fósseis e etanol. O efeito do acetaldeído foi avaliado em modelos celulares e animais com o propósito de avaliarmos o aumento do estresse oxidativo, por lipoperoxidação, fragmentação do DNA, e a formação de adutos DNA, tais como 8-oxo-7,8-dihidro-2-desoxiguanosina, além de, 1,N2-eteno-2-desoxiguanosina e 1,N2-propano-2-desoxiguanosina que foram analisados por HPLC acoplado a espectrometria de massa com a utilização de metodologia ultra-sensível e reprodutiva. O tratamento de fibroblastos pulmonares humanos normais (IMR-90) com diversas concentrações de acetaldeído (58 µM a 711 µM) resultou em aumentos de morte celular, lipoperoxidação, fragmentação do DNA, cálcio intracelular e adutos de DNA. O efeito protetor do licopeno (20 µM) foi comprovado minimizando todos os efeitos deletérios promovidos pelo acetaldeído. O tratamento dos ratos Wistar por 8 e 30 dias com 150 mg/kg e 60 mg/kg via intra-peritoneal ou gavage, evidenciaram os efeitos tóxicos provocados pelo acetaldeído, como aumento significativo de lipoperoxidação, adutos e fragmentação de DNA no fígado e cérebro destes animais. A detecção dos adutos de DNA se mostrou uma ferramenta importante para a detecção dos efeitos provocados por exposição ao aldeído. No tratamento de animais por inalação com variadas concentrações de acetaldeído, que expôs os animais a quantidades do aldeído similares às encontradas em atmosferas poluídas, foi observado aumento de lipoperoxidação, sendo este dose dependente no fígado e pulmão. Já no cérebro, os níveis de MDA foram significativamente maiores em 10 ppb e 30 ppb em relação a 0 ppb e controle, e diminuíram significativamente em 90 ppb. Em relação aos níveis de fragmentação do DNA, observamos no pulmão aumento foi dose dependente em relação à concentração de aldeído. A quantificação de 1,N2-εdGuo e 1,N2-propanodGuo mostrou aumentos de ambos os adutos no pulmão de todos animais expostos ao acetaldeído . No fígado, também, foram detectados aumentos nos níveis de 1,N2-propanodGuo. A formação de 8-oxo-7,8-dihidro-2-desoxiguanosina, 1,N2-eteno-2-desoxiguanosina e 1,N2-propano-2-desoxiguanosina na urina de moradores da cidade de São Paulo, também foi investigada, com o desenvolvimento de metodologia ultra-sensível e reprodutiva por HPLC e espectrometria de massa, que indicou a presença dos três adutos nas urinas analisadas. A detecção do 1,N2-propanodGuo na urina é inédita. Nossos resultados comprovam que o acetaldeído é um forte agente citotóxico e genotóxico, mesmo em concentrações muito baixas, podendo contribuir para o esclarecimento dos mecanismos de desenvolvimento de doenças atribuídas ao aldeído, como o câncer. Além disso, o desenvolvimento de metodologias ultra-sensíveis para detecção e quantificação de adutos na urina e DNA isolado contribui para o emprego destes adutos, em especial o 1,N2-propano- 2-desoxiguanosina, como possível biomarcador de exposição ao acetaldeído presente em atmosferas poluídas e em patologias associadas ao estresse redox e abuso de bebidas alcoólicas. / Acetaldehyde is a known mutagen and carcinogen that can be produced endogenously by ethanol oxidation or directly inhaled as an air pollutant produced by fuel oxidation. The toxicity of acetaldehyde was evaluated in vitro and in vivo models, by means of oxidative stress parameters such as lipid peroxidation (measured as malonaldialdehyde -MDA), DNA fragmentation and DNA adducts such as 8-oxo-7,8-dihydro-2-desoxiguanosine, 1,N2-eteno-2-desoxiguanosine and 1,N2-propano-2-desoxiguanosine, this adducts were analyzed by an ultra-sensible and reproducible HPLC coupled to mass spectrometry assay. Treatment of human normal fibroblast (IMR-90) with a wide range of concentrations (58 µM to 711 µM) resulted in an increase in citotoxicity, lipid peroxidation, DNA fragmentation, intracellular calcium release and DNA adducts. Furthermore, lycopene (20 µM) presented a protective effect against the cellular deleterious properties of acetaldehyde. Treatment of Wistar rats for 8 and 30 days with 150 mg/kg and 60 mg/kg intra-peritonially or by gavage resulted in increased toxicity, measured by lipid peroxidation and DNA damage in liver and brain. The detection of DNA adducts was shown an important tool for the identification of deleterious effects induced by exposure to the aldehyde. Animals treated by inhalation, of amounts commonly found in polluted air samples, presented increased levels of lipid peroxidation in a dose dependent manner in liver and lungs. Nevertheless, in the brain of those animals the higher concentration was devoid of toxic effect measured as MDA levels. Lung tissue presented increased levels of DNA fragmentation. Furthermore, increased levels of 1,N2-εdGuo and 1,N2-propanodGuo was also observed in lungs of all animals. In DNA from livers, 1,N2-propanodGuo presented increased levels. Formation of 8-oxo-7,8-dihydro-2-desoxiguanosine, 1,N2-eteno-2-desoxiguanosine and 1,N2-propano-2-desoxiguanosine in urine samples of people living in the city of São Paulo were also investigated using a newly developed and ultra-sensible methodology base in HPLC coupled to mass spectrometry. This methodology enabled us to detect, for the first time, the presence of 1,N2-propanodGuo in urine samples. In summary, our results demonstrate the acetaldehyde is a strong cytotoxic and genotoxic agent even at low concentrations, being able to contribute to the development of pathology such as cancer. Furthermore, the development of a very ultra-sensitive methodology for the detection of these adducts, mainly ,N2-propano- 2-desoxiguanosine, enables its use as a possible biomarker of acetaldehyde exposure in polluted air samples and in pathologies associated with redox unbalance and ethanol consumption. 8-dihidro-2-desoxiguanosina 8-dihydro-2-deoxyguanosine 8-oxo-7 8-oxo-7 Acetaldehyde Acetaldeído Lipid peroxidation Lipoperoxidação
2	Quantificação de danos em DNA induzidos por acetaldeído. Potencial biomarcador de poluição ambiental / Quantification of DNA damage induced by acetaldehyde. Potential biomarker for environmental pollution Camila Carrião Machado Garcia 21 June 2010 (has links) O acetaldeído é um comprovado agente mutagênico e carcinogênico, pode ser produzido endogenamente pela oxidação do álcool ingerido em bebidas alcoólicas e alimentos ou exogenamente, inalado como poluente, advindo da oxidação de combustíveis fósseis e etanol. O efeito do acetaldeído foi avaliado em modelos celulares e animais com o propósito de avaliarmos o aumento do estresse oxidativo, por lipoperoxidação, fragmentação do DNA, e a formação de adutos DNA, tais como 8-oxo-7,8-dihidro-2-desoxiguanosina, além de, 1,N2-eteno-2-desoxiguanosina e 1,N2-propano-2-desoxiguanosina que foram analisados por HPLC acoplado a espectrometria de massa com a utilização de metodologia ultra-sensível e reprodutiva. O tratamento de fibroblastos pulmonares humanos normais (IMR-90) com diversas concentrações de acetaldeído (58 µM a 711 µM) resultou em aumentos de morte celular, lipoperoxidação, fragmentação do DNA, cálcio intracelular e adutos de DNA. O efeito protetor do licopeno (20 µM) foi comprovado minimizando todos os efeitos deletérios promovidos pelo acetaldeído. O tratamento dos ratos Wistar por 8 e 30 dias com 150 mg/kg e 60 mg/kg via intra-peritoneal ou gavage, evidenciaram os efeitos tóxicos provocados pelo acetaldeído, como aumento significativo de lipoperoxidação, adutos e fragmentação de DNA no fígado e cérebro destes animais. A detecção dos adutos de DNA se mostrou uma ferramenta importante para a detecção dos efeitos provocados por exposição ao aldeído. No tratamento de animais por inalação com variadas concentrações de acetaldeído, que expôs os animais a quantidades do aldeído similares às encontradas em atmosferas poluídas, foi observado aumento de lipoperoxidação, sendo este dose dependente no fígado e pulmão. Já no cérebro, os níveis de MDA foram significativamente maiores em 10 ppb e 30 ppb em relação a 0 ppb e controle, e diminuíram significativamente em 90 ppb. Em relação aos níveis de fragmentação do DNA, observamos no pulmão aumento foi dose dependente em relação à concentração de aldeído. A quantificação de 1,N2-εdGuo e 1,N2-propanodGuo mostrou aumentos de ambos os adutos no pulmão de todos animais expostos ao acetaldeído . No fígado, também, foram detectados aumentos nos níveis de 1,N2-propanodGuo. A formação de 8-oxo-7,8-dihidro-2-desoxiguanosina, 1,N2-eteno-2-desoxiguanosina e 1,N2-propano-2-desoxiguanosina na urina de moradores da cidade de São Paulo, também foi investigada, com o desenvolvimento de metodologia ultra-sensível e reprodutiva por HPLC e espectrometria de massa, que indicou a presença dos três adutos nas urinas analisadas. A detecção do 1,N2-propanodGuo na urina é inédita. Nossos resultados comprovam que o acetaldeído é um forte agente citotóxico e genotóxico, mesmo em concentrações muito baixas, podendo contribuir para o esclarecimento dos mecanismos de desenvolvimento de doenças atribuídas ao aldeído, como o câncer. Além disso, o desenvolvimento de metodologias ultra-sensíveis para detecção e quantificação de adutos na urina e DNA isolado contribui para o emprego destes adutos, em especial o 1,N2-propano- 2-desoxiguanosina, como possível biomarcador de exposição ao acetaldeído presente em atmosferas poluídas e em patologias associadas ao estresse redox e abuso de bebidas alcoólicas. / Acetaldehyde is a known mutagen and carcinogen that can be produced endogenously by ethanol oxidation or directly inhaled as an air pollutant produced by fuel oxidation. The toxicity of acetaldehyde was evaluated in vitro and in vivo models, by means of oxidative stress parameters such as lipid peroxidation (measured as malonaldialdehyde -MDA), DNA fragmentation and DNA adducts such as 8-oxo-7,8-dihydro-2-desoxiguanosine, 1,N2-eteno-2-desoxiguanosine and 1,N2-propano-2-desoxiguanosine, this adducts were analyzed by an ultra-sensible and reproducible HPLC coupled to mass spectrometry assay. Treatment of human normal fibroblast (IMR-90) with a wide range of concentrations (58 µM to 711 µM) resulted in an increase in citotoxicity, lipid peroxidation, DNA fragmentation, intracellular calcium release and DNA adducts. Furthermore, lycopene (20 µM) presented a protective effect against the cellular deleterious properties of acetaldehyde. Treatment of Wistar rats for 8 and 30 days with 150 mg/kg and 60 mg/kg intra-peritonially or by gavage resulted in increased toxicity, measured by lipid peroxidation and DNA damage in liver and brain. The detection of DNA adducts was shown an important tool for the identification of deleterious effects induced by exposure to the aldehyde. Animals treated by inhalation, of amounts commonly found in polluted air samples, presented increased levels of lipid peroxidation in a dose dependent manner in liver and lungs. Nevertheless, in the brain of those animals the higher concentration was devoid of toxic effect measured as MDA levels. Lung tissue presented increased levels of DNA fragmentation. Furthermore, increased levels of 1,N2-εdGuo and 1,N2-propanodGuo was also observed in lungs of all animals. In DNA from livers, 1,N2-propanodGuo presented increased levels. Formation of 8-oxo-7,8-dihydro-2-desoxiguanosine, 1,N2-eteno-2-desoxiguanosine and 1,N2-propano-2-desoxiguanosine in urine samples of people living in the city of São Paulo were also investigated using a newly developed and ultra-sensible methodology base in HPLC coupled to mass spectrometry. This methodology enabled us to detect, for the first time, the presence of 1,N2-propanodGuo in urine samples. In summary, our results demonstrate the acetaldehyde is a strong cytotoxic and genotoxic agent even at low concentrations, being able to contribute to the development of pathology such as cancer. Furthermore, the development of a very ultra-sensitive methodology for the detection of these adducts, mainly ,N2-propano- 2-desoxiguanosine, enables its use as a possible biomarker of acetaldehyde exposure in polluted air samples and in pathologies associated with redox unbalance and ethanol consumption. 8-dihidro-2-desoxiguanosina 8-oxo-7 Acetaldeído Lipoperoxidação 8-dihydro-2-deoxyguanosine 8-oxo-7 Acetaldehyde Lipid peroxidation
3	The Detection of 8-Hydroxy-2'-Deoxyguanosine (8-OHdG) in Artificial Urine Thompson, Adam M. 15 November 2021 (has links) No description available. Biochemistry Biomedical Engineering Biomedical Research Chemical Engineering Chemistry 8-Hydroxy-2'-Deoxyguanosine 8-OHdG Artificial Urine DPV CV Biomarker
4	The Reactivity of 2,5-Diaminoimidazolone Base Modification Towards Aliphatic Primary Amino Derivatives: Nucleophilic Substitution at C5 as a Potential Source of Abasic Sites in Oxidatively Damaged DNA Roginskaya, Marina, Janson, Hannah, Seneviratni, Devanamuni, Razskazovskiy, Yuriy 01 March 2017 (has links) N5-deoxyribosyl derivatives of 2,5-diaminoimidazolone formed by oxidative damage to the guanine bases in 2-deoxyguanosine and highly polymerized DNA readily undergo nucleophilic substitution at C5 in reaction with primary amines in neutral aqueous solutions at 37–70 °C, as it was found in a kinetic study using reverse-phase HPLC. The reaction of 2-amino-5-[(2′-deoxy-β-D-erythro-pentofuranosyl)amino]-4H-imidazol-4-one (dIz) with excess of ethanolamine, alanine and γ-aminobutyric acid (0.2–1 M) is a pseudo-first-order process that proceeds with 45–80 % yields depending on the nature of the amine, its concentration, and the reaction temperature. In the case of ethanolamine, the corresponding bimolecular rate constant has a pre-exponential factor and activation energy of 1.1 × 105 s−1 and 47 kJ mol−1, respectively. The reaction is highly competitive with the previously described hydrolysis of dIz into 2,2-diamino-4-[(2-deoxy-β-D-erythro-pentofuranosyl)amino]-5(2H)-oxazolone under biologically relevant conditions. A similar reaction with the same lesion in polymeric DNA results in the release of a low-molecular-weight analog of dIz, presumably producing an abasic site as the second reaction product. Kinetic characteristics of this process make it a potentially important source of abasic sites in oxidatively damaged DNA, formed through the reaction of 2,5-diaminoimidazolone lesions with naturally abundant DNA-affinic amines and proteins. The release of low-molecular-weight analogs of dIz can potentially be employed for quantification of imidazolone lesions in oxidized DNA. The half-life of imidazolone lesions in double-stranded DNA evaluated using this approach was found to be 154 min at 37 °C. 2 5-diaminoimidazolone 2-deoxyguanosine aliphatic amines DNA nucleophilic substitution oxidative damage reaction kinetics Chemistry Physics and Astronomy
5	Avaliação dos marcadores de estresse oxidativo em pacientes com endometriose pélvica / Evaluation of oxidative stress markers in patients with pelvic endometriosis Carvalho, Luiz Fernando Pina de 15 January 2013 (has links) Objetivo:Existemevidências crescentes na literatura da participação do estresseoxidativonaprogressão e agressividade da endometriose. Nesse estudoprospectivo e controlado, foram medidos seis marcadores de estresse oxidativo com a finalidade de relacioná-los com a severidade e progressão da endometriose além debuscarum marcador diagnóstico para a doença. Pacientes e Métodos:Entre Julho de 2010 e Agosto de 2011, 62 pacientes consecutivas com diagnóstico histológico de endometriose foram identificadas como elegíveis para esse estudo. Após os critérios de exclusão, 44 pacientes foram alocadas em três grupos: Grupo A (estádios I/II da ASRM/1996), (n=14), grupo B (estádios III/IV da ASRM/1996),(n=16) e grupo controle (n=14). Os seguintes marcadores foram avaliados no fluido peritoneal e no tecido com endometriose: 8-hidroxi-2- deoxiguanosina (8-OHdG), 8-oxo-guaninaglicosilase (OGG1),proteínacarbonil (PC), oxidação lipídica (LPO), espécies reativas de oxigênio (ROS); capacidade totalantioxidante (TAC). Resultados: Observou-se elevação estatisticamente significante do 8 OhdG e da PC. Notou-se diminuição significativa na expressão do reparo de DNA (OGG1) em estádios avançados de endometriose. (p<0.001, p=0.001, p=0.033 respectivamente). Não notamos significância estatística entre os três grupos estudados nos marcadores ROS,CAT e LPO. Utilizando-se um modelo estatístico multivariável e as curvas ReceiverOperatingCharacteristics(ROC) construiu-se um modelo preditivo de severidade de doença. A habilidade do modelo de distinguir 16 entre os grupos A, B e o grupo controlefoi alta. O modelo foi capaz de diferenciar aproximadamente 9 em cada 10 pacientes incluídas (acerto/corrido foi de 87%). Conclusão:O aumento da lesão no DNA e a diminuição da atividade enzimática de reparo de DNA podem estar relacionados com a progressão da endometriose. Nossos resultados indicam que marcadores oxidativos de agressão celular podem se tornar testes valiosospara se verificar a severidade da endometriose / Objective: There is increasing evidence that oxidative stress is one of the key factors for endometriosis progression. In this prospective controlled trial, we measured six different biomarkers of oxidative stress targeting protein, lipid and DNA to quantify the severity and progression of endometriosis and establish a diagnostic marker for the disease. Methods: 62 consecutive patients were identified to be enrolled in this study. After exclusion criteria, 44 patients were allocated in three groups: Group A (Stage I/II - ASRM/1996), (n=14), Group B(Stage III/IV ASRM/1996), (n=16), and control group (n=14). Levels of 8 hydroxy- deoxyguanosine (8 OHdG), 8- oxoguanine DNA glycosylase (OGG1), protein carbonyl (PC), lipid peroxidation (LPO), reactive oxygen species (ROS); total antioxidant capacity (TAC) were accessed in peritoneal fluid and tissue. Results: 8-OhdG and PC levels were found to be significantly higher in patients with endometriosis, in addition OGG1 expression was found to be significantly lower in patients with endometriosis (p<0.001, p=0.001, p=0.033 respectively); however, stages I/II, stages III/IV, and control group showed comparable levels of ROS, TAC and LPO. A predictive model was built using multivariable analyses and receiver operating characteristics curves. The ability to predict and distinguish between groups A, B and control patients washigh. The model was corrected in proximally 9 out of 10 patients included (Model/Corrected ratio was 87%). Conclusion: Higher level of DNA damage and 19 lower expression of DNA repair activity may be related with endometriosis progression. Our results indicate that oxidative stress as a biomarker of cell injury might be a useful and reliable quantitative test of endometriosis severity 8-hidroxi-2-deoxiguanosina 8-hydroxy-2-deoxyguanosine Cell toxicity DNA damage Endometriose Endometriosis Endometriosis progression Estresse oxidativo Marcadores de lesão e reparo Oxidative stress Progressão da endometriose Toxicidade celular
6	Avaliação dos marcadores de estresse oxidativo em pacientes com endometriose pélvica / Evaluation of oxidative stress markers in patients with pelvic endometriosis Luiz Fernando Pina de Carvalho 15 January 2013 (has links) Objetivo:Existemevidências crescentes na literatura da participação do estresseoxidativonaprogressão e agressividade da endometriose. Nesse estudoprospectivo e controlado, foram medidos seis marcadores de estresse oxidativo com a finalidade de relacioná-los com a severidade e progressão da endometriose além debuscarum marcador diagnóstico para a doença. Pacientes e Métodos:Entre Julho de 2010 e Agosto de 2011, 62 pacientes consecutivas com diagnóstico histológico de endometriose foram identificadas como elegíveis para esse estudo. Após os critérios de exclusão, 44 pacientes foram alocadas em três grupos: Grupo A (estádios I/II da ASRM/1996), (n=14), grupo B (estádios III/IV da ASRM/1996),(n=16) e grupo controle (n=14). Os seguintes marcadores foram avaliados no fluido peritoneal e no tecido com endometriose: 8-hidroxi-2- deoxiguanosina (8-OHdG), 8-oxo-guaninaglicosilase (OGG1),proteínacarbonil (PC), oxidação lipídica (LPO), espécies reativas de oxigênio (ROS); capacidade totalantioxidante (TAC). Resultados: Observou-se elevação estatisticamente significante do 8 OhdG e da PC. Notou-se diminuição significativa na expressão do reparo de DNA (OGG1) em estádios avançados de endometriose. (p<0.001, p=0.001, p=0.033 respectivamente). Não notamos significância estatística entre os três grupos estudados nos marcadores ROS,CAT e LPO. Utilizando-se um modelo estatístico multivariável e as curvas ReceiverOperatingCharacteristics(ROC) construiu-se um modelo preditivo de severidade de doença. A habilidade do modelo de distinguir 16 entre os grupos A, B e o grupo controlefoi alta. O modelo foi capaz de diferenciar aproximadamente 9 em cada 10 pacientes incluídas (acerto/corrido foi de 87%). Conclusão:O aumento da lesão no DNA e a diminuição da atividade enzimática de reparo de DNA podem estar relacionados com a progressão da endometriose. Nossos resultados indicam que marcadores oxidativos de agressão celular podem se tornar testes valiosospara se verificar a severidade da endometriose / Objective: There is increasing evidence that oxidative stress is one of the key factors for endometriosis progression. In this prospective controlled trial, we measured six different biomarkers of oxidative stress targeting protein, lipid and DNA to quantify the severity and progression of endometriosis and establish a diagnostic marker for the disease. Methods: 62 consecutive patients were identified to be enrolled in this study. After exclusion criteria, 44 patients were allocated in three groups: Group A (Stage I/II - ASRM/1996), (n=14), Group B(Stage III/IV ASRM/1996), (n=16), and control group (n=14). Levels of 8 hydroxy- deoxyguanosine (8 OHdG), 8- oxoguanine DNA glycosylase (OGG1), protein carbonyl (PC), lipid peroxidation (LPO), reactive oxygen species (ROS); total antioxidant capacity (TAC) were accessed in peritoneal fluid and tissue. Results: 8-OhdG and PC levels were found to be significantly higher in patients with endometriosis, in addition OGG1 expression was found to be significantly lower in patients with endometriosis (p<0.001, p=0.001, p=0.033 respectively); however, stages I/II, stages III/IV, and control group showed comparable levels of ROS, TAC and LPO. A predictive model was built using multivariable analyses and receiver operating characteristics curves. The ability to predict and distinguish between groups A, B and control patients washigh. The model was corrected in proximally 9 out of 10 patients included (Model/Corrected ratio was 87%). Conclusion: Higher level of DNA damage and 19 lower expression of DNA repair activity may be related with endometriosis progression. Our results indicate that oxidative stress as a biomarker of cell injury might be a useful and reliable quantitative test of endometriosis severity 8-hidroxi-2-deoxiguanosina Endometriose Estresse oxidativo Marcadores de lesão e reparo Progressão da endometriose Toxicidade celular 8-hydroxy-2-deoxyguanosine Cell toxicity DNA damage Endometriosis Endometriosis progression Oxidative stress
7	Inibição de danos em DNA e alteração da expressão gênica em ratos Wistar tratados com as hortaliças couve e repolho (Brassica oleracea) e submetidos à hepatocarcinogênese química / Inhibition in DNA damages and differential gene expression in Wistar rats treated with kale and cabbage (Brassica oleracea) and submitted to chemical hepatocarcinogenesis Horst, Maria Aderuza 19 October 2007 (has links) O câncer é a segunda maior causa de morte no mundo, sendo responsável por aproximadamente 7,6 milhões de óbitos. Entretanto, pesquisadores alertam para uma associação inversa entre o consumo de frutas e hortaliças e o desenvolvimento de neoplasias, desta forma a organização mundial da saúde sugere, dentre outras medidas para controle do câncer, o aumento do consumo de frutas e hortaliças. Nesse contexto o objetivo deste trabalho foi avaliar os eventuais efeitos quimiopreventivos das hortaliças Brassicas, couve (C) e repolho (R). Realizaram-se dois experimentos sendo o primeiro, o modelo de hepatocacinogênese de Ito, onde as hortaliças foram fornecidas durante 8 semanas na água de beber (10% p/v), animais que receberam apenas água foram utilizados como controle. Nesse experimento não houve inibição (P>0,05) de lesões pré-neoplásicas hepáticas positivas para glutationa S-transferase forma placental e não houve indução (P>0,05) da apoptose nos grupos tratados com C ou R. Contudo, observou-se redução (P<0,05) de danos em DNA hepático e aumento (P<0,05) da concentração hepática de luteína de ratos tratados com C e R, quando comparados a ratos controle. No segundo experimento as hortaliças foram fornecidas durante 8 semanas na água de beber (20% p/v), e os animais foram submetidos a aplicação do carcinogênico hepático 24h antes da eutanásia. Não houve redução (P>0,05) de danos em DNA, contudo a concentração do aduto de DNA 8-hidroxi-2-deoxiguanosina (8-OHdG) e foi elevada (P<0,05) em animais tratados com R quando comparados a tratados com C e controles. Com relação à expressão diferencial de genes, 29 genes foram diferencialmente expressos em fígado, dentre eles o gene da 8-oxoguanina-DNA-glicosilase (enzima de reparo do DNA), foi hipoexpressa no grupo tratado com R, o que pode explicar o aumentado valor de adutos no mesmo grupo. O cólon apresentou 31 genes com diferença de expressão, onde 5 genes estão relacionados ao metabolismo de xenobióticos. / Cancer is the major cause of death in the world, being responsible for approximately 7.6 million deaths. However, there is a hypothesis of an inverse association between fruit and vegetable consumption and the development of cancer. Therefore, the World Health Organization suggests, among other actions for controlling cancer, the increase in vegetable and fruit consumption. The aim of this work was to evaluate eventual chemopreventive effects of Brassicas vegetables, kale (K) and cabbage (C). Two experiments were done: the first one was Ito´s hepatocarcinogenesis model, where vegetables were provided during 8 weeks in the rats´ drinking water (10% w/v). Animals that received only water were considered control. In this experiment, there was no inhibition (P<0,05) of glutathione S-transferase placental form positive preneoplastic lesions and, also, there was no induction (P<0,05) of apoptosis in the groups treated with K or C However, it was observed a reduction (P<0,05) in hepatic DNA damages and an increase (P<0,05) in lutein hepatic concentration of rats treated with K or C, when compared to the control. In the second experiment, the vegetables were provided during 8 weeks in the rats´ drinking water (20% w/v), and animals were submitted to carcinogenic application 24h before euthanasia. There was no reduction (P<0,05) in DNA damages, however there was an increase (P<0,05) in the concentration of 8-hydroxy-2-deoxyguanosine (8-OHdG) DNA in animals treated with C when compared to the ones treated with K and control. In relation to the differential gene expression, 29 genes were differently expressed in the liver, such as the 8-oxoguanine-DNA-glycosylase gene, which was downregulated in the group treated with C. This might explain the increased value of adducts in the same group. Colon presented 31 genes with difference in expression, whereas 5 genes are related to xenobiotic metabolism. 8-hidroxi-2-deoxiguanosina 8-hydroxy-2-deoxyguanosine Alimentos funcionais Brassica vegetables Chemical hepatocarcinogenesis Chemoprevention Danos em DNA Differential gene expression DNA damage Expressão diferencial de genes Hepatocarcinogênese química Hortaliças Brassicas Quimioprevenção
8	Altered DNA Repair, Antioxidant and Cellular Proliferation Status as Determinants of Susceptibility to Methylmercury Toxicity in Vitro Ondovcik, Stephanie Lee 20 June 2014 (has links) Methylmercury (MeHg) is a pervasive environmental contaminant with potent neurotoxic, teratogenic and likely carcinogenic activity, for which the underlying molecular mechanisms remain largely unclear. Base excision repair (BER) is important in mitigating the pathogenic effects of oxidative stress, which has also been implicated in the mechanism of MeHg toxicity, however the importance of BER in MeHg toxicity is currently unknown. Accordingly, we addressed this question using: (1) spontaneously- and Simian virus 40 (SV40) large T antigen-immortalized oxoguanine glycosylase 1-null (Ogg1-/-) murine embryonic fibroblasts (MEFs); and, (2) human Ogg1 (hOgg1)- or formamidopyrimidine glycosylase (Fpg)-expressing human embryonic kidney (HEK) cells; reciprocal in vitro cellular models with deficient and enhanced ability to repair oxidatively damaged DNA respectively. When spontaneously-immortalized wild-type and Ogg1-/- MEFs were exposed to environmentally relevant, low micromolar concentrations of MeHg, both underwent cell cycle arrest but Ogg1-/- cells exhibited a greater sensitivity to MeHg than wild-type controls with reduced clonogenic survival and increased apoptosis, DNA damage and DNA damage response activation. Antioxidative catalase alleviated the MeHg-initiated DNA damage in both wild-type and Ogg1-/- cells, but failed to block MeHg-mediated apoptosis at micromolar concentrations. As in spontaneously immortalized MEFs, MeHg induced cell cycle arrest in SV40 large T antigen-immortalized MEFs, with increased sensitivity to MeHg persisting in the Ogg1-/- MEFs. Importantly, cells seeded at a higher density exhibited compromised proliferation, which protected against MeHg-mediated cell cycle arrest and DNA damage. In the reciprocal model of enhanced DNA repair, hOgg1- and Fpg-expressing cells appeared paradoxically more sensitive than wild-type controls to acute MeHg exposure for all cellular and biochemical parameters, potentially due to the accumulation of toxic intermediary abasic sites. Accordingly, our results provide the first evidence that Ogg1 status represents a critical determinant of risk for MeHg toxicity independent of cellular immortalization method, with variations in cellular proliferation and interindividual variability in antioxidative and DNA repair capacities constituting important determinants of risk for environmentally-initiated oxidatively damaged DNA and its pathological consequences. Toxicology DNA Damage DNA Repair Reactive Oxygen Species Antioxidants Methylmercury Catalase Oxoguanine Glycosylase 1 Cell Culture Cellular Proliferation Oxidative Stress Formamidopyrimidine Glycosylase Gamma H2AX 8-oxo-2'-deoxyguanosine Cellular Immortalization Base Excision Repair 0383
9	Altered DNA Repair, Antioxidant and Cellular Proliferation Status as Determinants of Susceptibility to Methylmercury Toxicity in Vitro Ondovcik, Stephanie Lee 20 June 2014 (has links) Methylmercury (MeHg) is a pervasive environmental contaminant with potent neurotoxic, teratogenic and likely carcinogenic activity, for which the underlying molecular mechanisms remain largely unclear. Base excision repair (BER) is important in mitigating the pathogenic effects of oxidative stress, which has also been implicated in the mechanism of MeHg toxicity, however the importance of BER in MeHg toxicity is currently unknown. Accordingly, we addressed this question using: (1) spontaneously- and Simian virus 40 (SV40) large T antigen-immortalized oxoguanine glycosylase 1-null (Ogg1-/-) murine embryonic fibroblasts (MEFs); and, (2) human Ogg1 (hOgg1)- or formamidopyrimidine glycosylase (Fpg)-expressing human embryonic kidney (HEK) cells; reciprocal in vitro cellular models with deficient and enhanced ability to repair oxidatively damaged DNA respectively. When spontaneously-immortalized wild-type and Ogg1-/- MEFs were exposed to environmentally relevant, low micromolar concentrations of MeHg, both underwent cell cycle arrest but Ogg1-/- cells exhibited a greater sensitivity to MeHg than wild-type controls with reduced clonogenic survival and increased apoptosis, DNA damage and DNA damage response activation. Antioxidative catalase alleviated the MeHg-initiated DNA damage in both wild-type and Ogg1-/- cells, but failed to block MeHg-mediated apoptosis at micromolar concentrations. As in spontaneously immortalized MEFs, MeHg induced cell cycle arrest in SV40 large T antigen-immortalized MEFs, with increased sensitivity to MeHg persisting in the Ogg1-/- MEFs. Importantly, cells seeded at a higher density exhibited compromised proliferation, which protected against MeHg-mediated cell cycle arrest and DNA damage. In the reciprocal model of enhanced DNA repair, hOgg1- and Fpg-expressing cells appeared paradoxically more sensitive than wild-type controls to acute MeHg exposure for all cellular and biochemical parameters, potentially due to the accumulation of toxic intermediary abasic sites. Accordingly, our results provide the first evidence that Ogg1 status represents a critical determinant of risk for MeHg toxicity independent of cellular immortalization method, with variations in cellular proliferation and interindividual variability in antioxidative and DNA repair capacities constituting important determinants of risk for environmentally-initiated oxidatively damaged DNA and its pathological consequences. Toxicology DNA Damage DNA Repair Reactive Oxygen Species Antioxidants Methylmercury Catalase Oxoguanine Glycosylase 1 Cell Culture Cellular Proliferation Oxidative Stress Formamidopyrimidine Glycosylase Gamma H2AX 8-oxo-2'-deoxyguanosine Cellular Immortalization Base Excision Repair 0383
10	Urinary 1,4–dihydroxynonene mercapturic acid (DHN–MA) and 8–hydroxy–2'–deoxyguanosine (8–OHdG) as markers of oxidative damage : the SABPA study / by Leandrie Steenkamp Steenkamp, Leandrie January 2010 (has links) The human body has evolved certain defence mechanisms to cope with the high occurrence of free radicals. These radicals are obtained endogenously from the mitochondria, peroxisomes, the cytochrome P450 (CYP 450) system and neutrophils, or exogenously from the environment. Lack of antioxidants and/or increased production of free radicals will result in oxidative stress, which has been implicated in certain human diseases such as hypertension, inflammation, ageing, autoimmunity, atherosclerosis, Parkinson?s disease, cancer and diabetes. Although the initial aim was to standardise a single assay to quantify both 8–OHdG and DHN–MA, this could not be achieved in this study due to the vast difference in the chemical properties of these two metabolites. Following the decision to use two separate assays for the quantification of the mentioned biomarkers, the 8–OHdG assay was standardised and validated. The intrabatch variation of the assay was 4.18% and the interbatch variation was 17.37%. Unfortunately, the DHN–MA assay could not be standardised within the time frame of this study due to experimental difficulties. Therefore, only urinary 8–OHdG and serum ROS levels were quantified. Urinary 8–OHdG levels were measured in 409 participants (209 Caucasians, 101 males and 108 females and 200 Africans, 100 males and 100 females) from the SABPA study. After removal of outliers from the data matrix, the effect of gender and ethnicity was investigated on the measured urinary 8–OHdG levels. No significant difference in the urinary 8–OHdG levels between Caucasian males (n=87) and females (n=96) were observed (p = 0.68). A similar observation was made for the African males (n=86) and females (n=84), where no significant difference in 8–OHdG levels was detected (p = 0.053). Thus, from the results obtained in this study, it seems that urinary 8–OHdG levels are not influenced by gender. However, 8–OHdG levels were dramatically influenced by ethnicity. Caucasian males (n=87) excreted 70% higher amounts of 8–OHdG compared to African males (n=86) (p < 0.001). Caucasian females (n=96) also excreted larger urinary 8–OHdG amounts (42%) compared to African females (n=84) (p < 0.001). Therefore, it seems that urinary 8–OHdG levels are dramatically influenced by ethnicity. Finally, urinary 8–OHdG levels were compared to serum ROS levels, but no significant correlation between the measured metabolites was observed (r = –0.045). Hence, urinary 8–OHdG and serum ROS levels are not related in these subjects. Even though the initial aim of this study was to standardise an analytical method to quantify both urinary 8–OHdG and DHN–MA, this could not be achieved due to time constraints. vi The human body has evolved certain defence mechanisms to cope with the high occurrence of free radicals. These radicals are obtained endogenously from the mitochondria, peroxisomes, the cytochrome P450 (CYP 450) system and neutrophils, or exogenously from the environment. Lack of antioxidants and/or increased production of free radicals will result in oxidative stress, which has been implicated in certain human diseases such as hypertension, inflammation, ageing, autoimmunity, atherosclerosis, Parkinson?s disease, cancer and diabetes. Although the initial aim was to standardise a single assay to quantify both 8–OHdG and DHN–MA, this could not be achieved in this study due to the vast difference in the chemical properties of these two metabolites. Following the decision to use two separate assays for the quantification of the mentioned biomarkers, the 8–OHdG assay was standardised and validated. The intrabatch variation of the assay was 4.18% and the interbatch variation was 17.37%. Unfortunately, the DHN–MA assay could not be standardised within the time frame of this study due to experimental difficulties. Therefore, only urinary 8–OHdG and serum ROS levels were quantified. Urinary 8–OHdG levels were measured in 409 participants (209 Caucasians, 101 males and 108 females and 200 Africans, 100 males and 100 females) from the SABPA study. After removal of outliers from the data matrix, the effect of gender and ethnicity was investigated on the measured urinary 8–OHdG levels. No significant difference in the urinary 8–OHdG levels between Caucasian males (n=87) and females (n=96) were observed (p = 0.68). A similar observation was made for the African males (n=86) and females (n=84), where no significant difference in 8–OHdG levels was detected (p = 0.053). Thus, from the results obtained in this study, it seems that urinary 8–OHdG levels are not influenced by gender. However, 8–OHdG levels were dramatically influenced by ethnicity. Caucasian males (n=87) excreted 70% higher amounts of 8–OHdG compared to African males (n=86) (p < 0.001). Caucasian females (n=96) also excreted larger urinary 8–OHdG amounts (42%) compared to African females (n=84) (p < 0.001). Therefore, it seems that urinary 8–OHdG levels are dramatically influenced by ethnicity. Finally, urinary 8–OHdG levels were compared to serum ROS levels, but no significant correlation between the measured metabolites was observed (r = –0.045). Hence, urinary 8–OHdG and serum ROS levels are not related in these subjects. Even though the initial aim of this study was to standardise an analytical method to quantify both urinary 8–OHdG and DHN–MA, this could not be achieved due to time constraints. However, an LC–MS/MS analytical assay was standardised and validated for the quantification of urinary 8–OHdG. The method proved reliable for the quantification of 8–OHdG from urine samples and can thus be used for further studies on oxidative DNA damage. / Thesis (M.Sc. (Biochemistry))--North-West University, Potchefstroom Campus, 2011. Lipid peroxidation DNA damage 8-hydroxy-2'-deoxyguanosine 1,4-dihydroxynonene mercapturic acid Tandem mass spectrometry Lipied peroksidasie DNS skade 8-hidroksie-2'-deoksieguanosien 1,4 dihidroksienonene merkaptuursuur Tandem massa spektrometrie

Search results