Avaliação das concentrações de superóxido dismutase e da fragilidade osmótica eritrocitária em cães com linfoma multicêntrico com e sem anemia / Evaluation of the concentration of superoxide dismutase and erythrocyte osmotic fragility in dogs with multicentric lymphoma with and without anemia

Thais Rodrigues Macedo

29 June 2010

Linfomas são as neoplasias hematopoiéticas mais comumente relatadas em cães, podendo ocorrer em qualquer idade. A etiologia ainda é desconhecida, porém se aceita que seja multifatorial. São classificadas de acordo com sua localização anatômica, estadio clínico da Organização Mundial de Saúde (OMS), critérios cito-histológicos e imunofenotípicos. A anemia é a anormalidade hematológica mais observada em pacientes com câncer e manifesta-se em cerca dois terços dos cães com linfoma. Os radicais livres de oxigênio produzidos pelas células tumorais aumentam o estresse oxidativo, sendo este demonstrado por mudanças na atividade das enzimas antioxidantes, podendo ocorrer oxidação de proteínas de DNA, aumento da peroxidação de lipídeos e alterações da fragilidade osmótica eritrocitária, acarretando a diminuição da meia vida das hemácias e, sendo essa diminuição um dos fatores que pode levar à anemia nos casos de linfoma. A superoxido dismutase (SOD) é uma enzima antioxidante que catalisa a dismutação do radical superóxido em oxigênio e peróxido de hidrogênio, protegendo as células dos danos induzidos por estes radicais livres. O objetivo deste estudo foi determinar as concentrações eritrocitárias de superóxido dismutase, além de substâncias reativas ao ácido tiobarbitúrico (MDA), o estado antioxidante total (TAS) e a fragilidade osmótica eritrocitária, em cães hígidos e com linfoma multicêntrico com e sem anemia, para avaliar a influência desses mecanismos no desenvolvimento das anemias associadas a essa neoplasia. Amostras de sangue foram obtidas de 24 cães com linfoma multicêntrico, sendo 10 sem anemia e 14 com anemia, e 20 cães saudáveis. Foi observada diferença significante no estado antioxidante total entre os grupos controle, grupos experimentais com linfoma multicêntrico com anemia e sem anemia (p < 0,0001). Não houve diferença significante quando os cães com linfoma com anemia e sem anemia foram comparados, assim como na avaliação das concentrações plasmáticas do MDA entre o grupo controle, grupo experimental com linfoma multicêntrico com anemia e grupo experimental com linfoma multicêntrico sem anemia (p = 0,823). A diferença também não foi significante quando se comparou o grupo controle e o grupo dos animais doentes (p=0,671). A diferença não foi significante na avaliação das concentrações eritrocitárias de superoxido dismutase entre o grupo controle, grupo experimental com linfoma multicêntrico com anemia e grupo com linfoma multicêntrico sem anemia (p=0,0748.). Entretanto, foi observada diferença significante entre o grupo controle e o grupo experimental com linfoma multicêntrico (p=0,0168). Não foi observada diferença na fragilidade osmótica eritrocitária dos cães com linfoma multicêntrico com anemia e sem anemia, as concentrações de NaCl em que observou-se 50% de hemólise estavam dentro dos valores postulados por Jain, 1963. Os resultados obtidos indicam um aumento do estresse oxidativo em cães com linfoma e que a anemia observada nos pacientes com linfoma não esta relacionada diretamente a diminuição das defesas antioxidantes eritrocitárias ou à alterações nas propriedades de membrana secundarias a peroxidação lipídica, que poderiam interferir na fragilidade do eritrócito / Lymphoma is hematopoietic malignancies most commonly reported in dogs can occur at any age. The etiology is still unknown, but is accepted to be multifactorial. They are classified according to their anatomic location, clinical stage of the World Health Organization (WHO), cytological and histological criteria and immunophenotype. Anemia is the most commonly observed hematologic abnormalities in patients with cancer and manifests itself in about two thirds of dogs with lymphoma. The oxygen free radicals produced by tumor cells increases oxidative stress, which is demonstrated by changes in antioxidant enzyme activities, protein and DNA oxidation, increased lipid peroxidation and alterations of erythrocyte osmotic fragility, leading to a decrease in half life of red blood cells and this decrease is one factor that can lead to anemia in cases of lymphoma. The superoxide dismutase (SOD) is an antioxidant enzyme that catalyzes the dismutation of superoxide into oxygen and hydrogen peroxide, protecting cells from damage induced by these free radicals. The aim of this study was to determine erythrocyte superoxide dismutase, and thiobarbituric acid reactive substances (MDA), total antioxidant status (TAS) and erythrocyte osmotic fragility, and in healthy dogs with multicentric lymphoma with and without anemia, to evaluate the influence of these mechanisms in the development of anemia associated with this neoplasia. Blood samples were obtained from 24 dogs with multicentric lymphoma, 10 and 14 with anemia without anemia and 20 healthy dogs. Significant difference was observed in total antioxidant status between the control group, experimental groups with multicentric lymphoma with anemia and without anemia (p <0.0001). There was no significant difference when dogs with lymphoma with anemia and without anemia were compared no significant difference in assessment of plasma concentrations of MDA between the control group, experimental group with multicentric lymphoma with anemia and experimental group with multicentric lymphoma without anemia (p=0.823). The difference was not significant when comparing the control group and the group of sick animals (p = 0.671). The difference was not significant in the evaluation of erythrocyte superoxide dismutase concentrations between the control group, experimental group with multicentric lymphoma with anemia and patients with multicentric lymphoma without anemia (p = 0.0748).. However, significant difference was observed between the control and experimental group with multicentric lymphoma (p = 0.0168). No difference was observed in erythrocyte osmotic fragility of dogs with multicentric lymphoma with anemia and without anemia, the concentrations of NaCl in which there was 50% hemolysis were within the range postulated by Jain, 1963. The results indicate an increased oxidative stress in dogs with lymphoma and that the anemia observed in patients with lymphoma is not directly related to the decrease in erythrocyte antioxidant defenses or the changes in properties of secondary membrane lipid peroxidation, which could interfere with the fragility of erythrocyte

anemia

estresse oxidativo

Linfoma multicêntrico

superoxido dismutase

anemia

Multicentric lymphoma

oxidative stress

superoxide dismutase

Nitrosilo complexos de rutênio(II) como captores de radicais de interesse biológico / Ruthenium(II) nitrosyls as radical scavenger

Gustavo Metzker

16 July 2009

Os complexos trans-[Ru(NO)(NH3)4(L)](X)3 (1), [Ru(NO)(Hedta)] (2) e seus precursores sintéticos trans-[Ru(H2O)(NH3)4(L)](X)2 (3), trans-[Ru(SO4)(NH3)4(L)](X) (4) , onde L = isn, nic, imN, 4-pic, py, P(OEt) e X = PF6 - e BF4 -, foram testados como captadores dos radicais livres DPPHo, OHo e O2 -o em meio aquoso. O potencial de oxidação do centro metálico nos complexos (1) foram estimados utilizando eletrodo de diamante dopado com boro como eletrodo de trabalho, estando situados em meio aquoso acima de 2,0 V vs. ECS (CH+ = 1,0 x 10-3, &micro; = 0,1 mol L-1). Os complexos (1) e (2) mostraram-se incapazes de reagir com o radical DPPHo, exceto o complexo trans-[Ru(NO)(NH3)4(P(OEt)3)]3+, que reagiu apenas em grande excesso (50 vezes) em relação ao radical DPPHo. Os complexos (3) reagiram quando em excesso ou em proporção estequiométrica. O mecanismo pelo qual esta reação ocorre é predominantemente o de transferência de elétrons. O radical OHo foi captado pelos complexos (1), sendo provavelmente o mecanismo predominante o de transferência de elétrons pela oxidação do centro metálico [Ru(NO)]3+ a [Ru(NO)]4+, compatível com o potencial de oxidação do radical OHo (acima de 2,8 V vs. ECS) reportado na literatura para este radical. As constantes de velocidade específica para estas reações foram estimadas como estando no intervalo de 108 a 1010 M-1 s-1. Não foi observada reação entre o radical OHo e os complexos (4). Os complexos (1) e (2) captam o radical O2 -o pela redução do ligante NO+ com constantes de velocidade específicas no intervalo de 2,0 ± 1,0 x 104 a 4,2 ± 1,0 x 105 M-1 s-1, em medidas efetuadas via cinética de competição com citocromo c. Após a redução, a liberação de NO foi acompanhada via eletrodo seletivo a NO e espectrofotometricamente pela reação do NO com o citocromo c. Nas condições experimentais utilizadas, não se observou a formação do íon peroxinitrito (ONOO-). Os complexos (3) e (4) não reagiram com o radical O2 -o. / The complexes trans-[Ru(NO)(NH3)4(L)](X)3 (1), [Ru(NO)(Hedta)] (2) and their synthetic precursors trans-[Ru(H2O)(NH3)4(L)](X)2 (3), trans-[Ru(SO4)(NH3)4(L)](X) (4) , where L = isn, nic, imN, 4-pic, py, P(OEt) e X = PF6 - and BF4 -, were tested as scavengers for the radicals DPPHo, OHo e O2 -o in aqueous media. The redox potential for the metal center in the complexes (1) were obtained a using boron doped diamond electrode as working electrode. The redox potentials values for ruthenium nitrosyl complexes were higher than 2,0 V vs. SCE. The complexes (1) and (2) were unable to reduce the radical DPPHo, excepted the complex ion trans-[Ru(NO)(NH3)4(P(OEt)3)]3+. The complexes (3) react with DPPHo in stoichometric proportion. Electron transfer from the oxidation of the ruthenium(II) center seems to be the reaction pathway. The OHo radical reacts with ruthenium nitrosyls, predominantly oxidizing the metal center, yielding the fragment [Ru(NO)]4+. This reaction is exothermic since the redox potential of the OHo is around 2.8 V vs. SCE. From competition kinetics the rate constant for this reaction were estimated in the range of 108 a 1010 M-1 s-1. Since the reaction between OHo radical and the complexes (4) was not observed, the hydrogen atom transfer mechanism for the scavenger of OHo by the nitrosyl complexes ca be ruled out. The complexes (1) and (2) scavenge the radical O2 -o by the reduction of the coordinated nitrosyl with specific rate constants ranging from 2,0 ± 1,0 x 104 to 4,2 ± 1,0 x 105 M-1 s-1 as probed by competitive kinetics using cytochrome c. After reduction, nitric oxide dissociation were probed ampherometricaly using a selective NO electrode or spectrophotometrically using cytochrome c as probe. Reduction of the complexes (3) by superoxide ion was not observed and may suggest the coordinated nitrosonium as the reaction site for reduction.

nitrosilo de rutênio

óxido nítrico

radicadis superóxido e hidroxila

nitric oxide

radicals superoxide and hydroxyl

ruthenium nitrosyls

Avaliação da atividade da superóxido dismutase e catalase de Candida albicans e Candida dubliniensis expostas a antineoplásicos, íons metálicos e antifúngicos

Linares, Carlos Eduardo Blanco

January 2009

A atividade de catalase em Candida albicans tem sido sugerida como um mecanismo de resistência ao antifúngico anfotericina B. Neste contexto, poucos são os estudos de enzimas como catalase e superóxido dismutase em leveduras do gênero Candida expostas a diferentes situações. Assim, este estudo teve por objetivo investigar o efeito da exposição de Candida a antineoplásicos, íons metálicos e antifúngicos como fluconazol e anfotericina B sobre a atividade dessas enzimas. Os resultados apontaram que o antineoplásico metotrexato aumentou a atividade da catalase em C. albicans, que íons metálicos como cobre, zinco, manganês e ferro produzem um efeito variável na atividade de superóxido dismutase, bem como, um efeito variável de um íon no acúmulo de outro. Também verificamos através de nossos resultados que a indução de resistência ao fluconazol e anfotericina B aumentam a atividade de catalase e superóxido dismutase em C. albicans e C. dubliniensis. Esses resultados sugerem que o antineoplásico metotrexato e a indução de resistência a anfotericina B e fluconazol podem gerar um estresse oxidativo em leveduras do gênero Candida que possivelmente se adaptam a esse estresse aumentando seus mecanismos de defesa antioxidante. Esse efeito pode induzir a uma maior resistência desses organismos ao ataque de células fagocíticas do hospedeiro. / Catalase is an enzyme that has been suggested to be involved in resistance mechanisms to antifungal drug such as amphotericin B. There are few studies focusing on catalase and superoxide dismutase in yeasts, such as Candida, exposed to different situations. Thereby, the aim of the present study was to investigate the effect of exposing Candida to antineoplastic drugs, metallic ions and antifungial drugs, namely fluconazole and amphotericin B, on catalase and superoxide dismutase activities. Results show that methotrexate induced catalase activity in C. albicans and that metallic ions, such as copper, zinc, manganese and iron produced a variable effect on superoxide dismutase activity of C. albicans, as well as a variable effect in the uptake of one ion on another. We also showed that fluconazole and amphotericin B resistance increased catalase and superoxide dismutase activity in C. albicans and C. dubliniensis. These results suggest that methotrexate as well as the induction of fluconazole- and amphotericin B-resistance may induce oxidative stress in yeasts such as Candida, which may adapt by increasing antioxidant defense mechanisms. This effect may induce a major resistance of this yeast to phagocytic cell attack.

Superóxido dismutase

Catalase

Candida

Estresse oxidativo

Antineoplásicos

Antifúngicos

Superoxide dismutase

Oxidative stress

Resposta imune do carrapato bovino Boophilus microplus: investigação da produção de espécies reativas de oxigênio pelos hemócitos. / Immune response of the cattle tick Boophilus microplus: investigation of reactive oxygen species production by hemocytes.

Pereira, Lourivaldo dos Santos

21 July 2000

Neste estudo avaliamos a ocorrência de fagocitose por parte de alguns tipos celulares presentes na hemolinfa do carrapato bovino B. microplus e a produção de espécies reativas de oxigênio durante a resposta imune. As técnicas empregadas para avaliação da produção de espécies reativas de oxigênio foram luminescência amplificada por luminol, oxidação de fenol vermelho, microscopia de fluorescência e fluorimetria com o corante dihidrorrodamina 123 (DHR). Observamos um aumento da luminescência amplificada por luminol quando hemócitos foram incubados na presença de bactérias Micrococcus luteus ou zimosam ou PMA. Esta luminescência foi inibida por superóxido dismutase (SOD) e por catalase (CAT), enzimas antioxidantes que removem superóxido e peróxido de hidrogênio, respectivamente. LPS não elicitou aumento da luminescência dos hemócitos em relação ao controle. Através da oxidação de fenol vermelho em reação inibida por CAT, verificamos aumento nos níveis de H2O2 produzido pelos hemócitos quando estimulados com PMA e Micrococcus luteus, enquanto não houve aumento quando o estímulo foi LPS, corroborando os resultados da luminescência. Usando microscopia de fluorescência para avaliar a produção de ERO pelos hemócitos, encontramos que cerca de 25% dos hemócitos fluorescem com maior intensidade quando estimulados com zimosam, sendo esta fluorescência inibida por CAT. Através de fluorimetria usando DHR observamos um aumento na intensidade de fluorescência dos hemócitos estimulados com PMA em reação inibida por cisteína, substância redutora que remove peróxido de hidrogênio e peroxinitrito. Nosso conjunto de resultados permitem concluir que os hemócitos do carrapato bovino produzem espécies reativas de oxigênio durante a resposta imune, semelhantemente ao que ocorre em vertebrados e em invertebrados como moluscos, crustáceos e insetos. Este é o primeiro trabalho mostrando produção de ERO pelos hemócitos de aracnídeos. / The phagocytic activity and the reactive oxygen species (ROS) production during immune response of some hemocytes of the cattle tick Boophilus microplus were evaluated in this study. The ROS production was evaluated by luminol amplified luminescence, phenol red oxidation, dyhydrorhodamine (DHR) fluorescence microscopy and fluorimetry. The luminol-amplified luminescence increased when hemocytes were incubated with bacteria (Micrococcus luteus) or zymosam or phorbol 12-miristate 13 acetate (PMA). The superoxide dismutase (SOD) and catalase (CAT), antioxidant enzymes that removes superoxide and hydrogen peroxide, respectively, inhibited this luminescence. Lipopolysaccharide (LPS) did not elicit luminescence of hemocytes in relation to controls. The catalase-inhibittable phenol red oxidation assay also showed an increase in the level of hydrogen peroxide produced by hemocytes stimulated with PMA or Micrococcus luteus. LPS did not stimulate the hemocytes, similarly to the observed by luminescence assay's. We also evaluated ROS production by fluorescence microscopy and we found approximately 25% more fluorescent hemocytes when zymosam was used. This fluorescence was inhibited by catalase. In DHR fluorimetry assay we observed an increase in the intensity of fluorescence in PMA stimulated hemocytes. This fluorescence was inhibited by cystein, a reducing agent that removes hydrogen peroxide and peroxinitrite. We conclude that hemocytes of the tick, like other invertebrate such as mollusks, crustaceans and insects and vertebrate, produce reactive oxygen species during the immune response. This is the first report of reactive oxygen species production by arachnid hemocytes.

carrapato

fagocitose

hemócitos

hemocytes

hydrogen peroxide

immune response

peróxido de hidrogênio

phagocytosis

resposta imune

superoxide

superóxido

tick

Avaliação do estado nutricional de mulheres obesas em relação ao zinco e sua associação com o estresse oxidativo e os polimorfismos Arg213Gli e +35A/C / Assessment of nutritional zinc status and its association with oxidative stress and Arg213Gly and +35A/C polymorphisms in obese women

Almeida, Isabela Saraiva de

05 February 2014

O objetivo desse trabalho foi avaliar o estado nutricional de mulheres obesas em relação ao zinco (Zn) e a associação com marcadores do estresse oxidativo e com polimorfismos em genes das enzimas antioxidantes SOD1 e SOD3. A amostra foi composta por 60 mulheres obesas (OB) e por um grupo controle composto por 55 mulheres eutróficas (CON). Amostras de sangue e urina de 24 horas foram coletadas para análise de zinco, malondialdeído (MDA), 8-isoprostano urinário, atividade antioxidante das enzimas superóxido dismutase (SOD) e glutationa peroxidase (GPx). Foram avaliados dois polimorfismos de nucleotídeo único (SNP) presentes nas enzimas SOD1 e SOD3, o +35A/C e Arg213Gli. Foram aplicados três recordatórios alimentares de 24 horas, incluindo um dia de final de semana. As comparações entre os grupos foram feitas pelos testes qui-quadrado, t-Student, ANOVA e Mann-Whitney. As associações entre as variáveis quantitativas foram realizadas por meio do coeficiente de correlação r de Pearson. Modelo de regressão linear multivariada backward foi feito a fim de se analisar as regressões das variáveis desfecho zinco plasmático, MDA e 8-isoprostano. O equilíbrio de Hardy-Weinberg foi calculado pelo teste do qui-quadrado. A média da ingestão de zinco foi de 6,8 mg/dia e 7,4 mg/dia no grupo CON e OB, respectivamente. As concentrações de Zn plasmático e eritrocitário e a atividade das enzimas SOD e GPx não apresentaram diferença entre os grupos. Ambos os grupos apresentaram deficiência no Zn plasmático. As concentrações de MDA e 8-isoprostano foram maiores no grupo CON, enquanto as concentrações de creatinina e Zn urinários foram maiores no grupo OB. No grupo CON, foram verificadas associações negativas entre Zn plasmático e MDA (p=0,002) e glicemia (p<0,0001). A regressão multivariada mostrou correlação negativa entre o Zn plasmático e o MDA. O 8-isoprostano sofreu influência negativa da creatinina urinária e positiva da atividade física. Já a glicemia e o consumo de energia e de lipídio apresentaram correlação positiva com o MDA. Na análise dos SNPs, foram encontradas apenas duas participantes heterozigotas para o SNP +35A/C e nenhuma participante com o alelo variante para o SNP Arg213Gli. Concluiu-se que os indivíduos obesos e eutróficos apresentaram deficiência de Zn, o que pode estar relacionado ao estresse oxidativo. O estresse oxidativo foi mais intenso para o grupo controle e não foi observada associação entre o IMC e os marcadores MDA e 8-isoprostano. Não foi possível fazer correlação dos polimorfismos com os parâmetros avaliados / The aim of this study was to assess the nutritional zinc status and its association with oxidative stress markers and with polymorphisms in genes of SOD1 and SOD3 in obese women. The sample consisted of 60 obese women (OB) and a control group of 55 normal-weight women (CON). Blood samples and 24-hour urine were collected for analysis of zinc, malondialdehyde (MDA), urinary 8-isoprostane, antioxidant activity of superoxide dismutase (SOD) and glutathione peroxidase (GPx). Two single nucleotide polymorphisms (SNP) were evaluated in the genes of SOD1 and SOD3 enzymes, +35A/C and Arg213Gly. Three food 24-hour recalls, including one weekend day were applied. Comparisons between groups were made by chi-square test, Student\'s t - test, ANOVA and Mann-Whitney. Associations between means of quantitative variables were performed by the correlation coefficient r of Pearson. Backward multivariate linear regression was done in order to analyze the regressions of outcome variables plasma zinc, MDA and 8-isoprostane. The Hardy-Weinberg equilibrium was calculated by chi-square. The mean zinc intake was 6.8 mg/day and 7.4 mg/day in CON and OB groups, respectively. Concentrations of plasma and erythrocyte Zn and activity of SOD and GPx enzymes showed no difference between groups. Both groups showed a deficiency in plasma Zn. The concentrations of MDA and 8-isoprostane were higher in the CON group, whereas the concentrations of creatinine and urinary Zn were higher in the OB group. In the CON group, negative associations between plasma Zn and MDA (p = 0.002) and glucose (p < 0.0001) were observed. Multivariate regression analysis showed a negative correlation between plasma Zn and MDA. The 8-isoprostane suffered negative influence of urinary creatinine and positive influence of physical activity. Blood sugar and energy and lipid consumption showed a positive correlation with MDA. In the analysis of SNPs, were found only two heterozygous participants for the SNP +35A/C and no participant with the variant allele for the SNP Arg213Gly. It was concluded that obese and normal subjects showed Zn deficiency, which may be related to oxidative stress. Oxidative stress was higher in the control group and no association was observed between BMI and MDA and 8-isoprostane markers. It was not possible to correlate polymorphisms with evaluated parameters.

Estresse oxidativo

Micronutrientes

Micronutrients

Obesidade

Obesity

Oxidative stress

Superoxide dismutase

Superóxido dismutase

The role of mitochondrial superoxide in the development of the mammalian hematopoietic system

Case, Adam John

01 May 2011

The SOD2 gene encodes the mitochondrial antioxidant enzyme manganese superoxide dismutase (MnSOD), which converts superoxide (O2●-) to hydrogen peroxide (H2O2). Down-regulation of SOD2 has been reported in many cancer cells of diverse tissue origins, and forced over expression of this enzyme in carcinoma cells decreases their tumorigenicity. These findings suggest that SOD2 functions as an intiation or promotion tumor suppressor; however, it remains to be determined whether loss of SOD2 expression is sufficient for tumor formation since homozygous SOD2 knock-out mice die within weeks after birth. Additionally, due to the shortened lifespan of the constitutive SOD2 knock-out mouse limited studies have been performed in assessing the role of SOD2 in tissue-specific development in vivo. Using Cre-loxP genetics, we now have the capability to generate mice in which SOD2 may be knocked out in a cell type-specific manner and these mice can be used to query the effect of loss of SOD2 expression in tissue development, function, and oncogenesis. We primarily focused our studies on the hematopoietic system, but expanded our research to solid organs such as the liver and mammary gland as well. Our findings demonstrate that SOD2 does not act as a tumor suppressing enzyme in any of these unchallenged systems, and in fact the loss of SOD2 may act to delay tumor formation. T-cell specific SOD2 knock-out demonstrated significant immunodeficiency as illustrated by a decreased immune response to influenza challenge secondary to decreased T-cell populations. Furthermore, hematopoietic stem cell specific SOD2 knock-out showed a severe anemia in the red blood cell population due to increased mitochondrial superoxide. Additional analysis revealed the anemia to be a result of a porphyria due to the inactivation of the heme synthesis enzyme ferrochelatase. The observed phenotypes in all conditional hematological SOD2 knock-out models were rescued by the addition of mitochondrially targeted anti-oxidants. In conclusion, the tissue specific loss of SOD2 in various hematological organs appeared to demonstrate significant developmental and functional aberrations, but the role in tumor initiation appears to be limited if any. The data presented here also suggest the potential for novel anti-oxidant therapy in a variety of hematological diseases.

Anti-oxidants

Free Radicals

Hematology

Mitochondria

Mouse

Superoxide

Effects of selenium in the intracellular peroxide-removal system

Bian, Weipeng

01 December 2011

No description available.

GPx

hydrogen peroxide

Peroxide removal

Selenium

superoxide

TrxR

Quantitative analysis and modeling of redox networks in biology

Witmer, Jordan Richard

01 July 2012

A scientific and cultural revolution occurred with the sequencing of the human genome. The information provided by this accomplishment has provided tools for researchers to test new ideas in silico and on the bench. In redox biology many of the genes, transcripts, proteins, and redox active species have been well characterized. However, the vast majority have not been quantitated in an absolute manner. This is a necessary step to provide the tools for mathematical modeling and systems biology approaches for predicting changes in the cellular redox environment and the biochemical and biological consequences. Here we demonstrate techniques for the absolute quantitation of human catalase, glutathione peroxidase, peroxiredoxin, thioredoxin, and superoxide dismutase within cells. These techniques can be parsed into two groups: detection of activity and detection of total amount of species. Methods for the absolute quantitation of active catalase, peroxiredoxins, and superoxide dismutase have been developed by utilizing specific characteristics of each enzyme. Catalase generates oxygen in the presence of hydrogen peroxide that can easily be detected with a Clark electrode (oxygen monitor); the data are fit to a single-exponential to determine the observed pseudo-first-order rate constant. From this the effective number of fully active catalase enzymes in the sample can be determined. Peroxiredoxin in the disulfide state can be reduced by thioredoxin; thioredoxin from E. coli loses fluorescence upon oxidation. The loss of fluorescence over time is mathematically fit to a single-exponential to determine the observed pseudo first-order rate constant from which the number of active enzymes can be determined. Using an inhibition assay to detect superoxide dismutase activity along with the rate constants at which superoxide reacts with the dismutase and the competing superoxide-reacting-indicator-molecule, the concentration of active superoxide dismutase can be determined. To detect the total amount of protein of an enzyme in a biological sample, an immunoassay was first implemented. This method utilized Bio-Plex® beads from Bio-Rad; however, it was problematic because the antibodies applied did not perform satisfactorily not allowing sufficient signal-to-noise to be deployed. Quantitative mass spectrometry was then implemented to detect total catalase, glutathione peroxidase 1, peroxiredoxin 2, and thioredoxin 1 in human red blood cells. With the absolute concentration of these enzymes and proteins along with data for oxygen consumption rates and peroxisomal hydrogen peroxide concentration for several cell lines, we hypothesize that a reasonable model of hydrogen peroxide and superoxide flux can be constructed. Quantitative data such as these provide the foundation for the new redox biology of the 21st century. Presented here is a roadmap for the obligatory first steps to dissect quantitatively the cellular and tissue metabolic pathways and redox networks that are the basis of all of biology.

catalase

free radical

glutathione peroxidase

hydrogen peroxide

peroxiredoxin

superoxide dismutase

Mechanisms of H2O2-induced oxidative stress in endothelial cells

Coyle, Christian Hannon

01 January 2004

Development of an in vitro model for the early stages of cardiovascular disease is a current necessity. Cardiovascular disease is the leading cause of death in the United States and throughout the world. Oxidative stress and reactive oxygen species have been implicated in cardiovascular disease development. An in vitro model of these processes will improve our understanding of cardiovascular disease development and allow for the development of additional treatments. Atherosclerosis is an inflammatory disease and increased levels of H2O2 are associated with inflammation. The model focuses on H2O2-induced oxidative stress under static and shear conditions. Previous studies have documented increased O2.- and increased cytotoxicity in smooth muscle cells exposed to H2O2. Under static culture, endothelial cells exposed to H2O2, exhibited increased O2.- over basal levels via NOS and NAPDH oxidase pathways. Increased O2.- was attenuated by MnSOD adenoviral-mediated upregulation and endothelial cell exposure to Tiron. This suggests NOS and NADPH oxidase as sources of increased O2.- under H2O2-induced oxidative stress. Endothelial cell cytotoxicity was increased with H2O2 exposure. The increase in cytotoxicity was diminished upon exposure to Tiron or L-NAME. Under shear conditions (8.2 dynes/cm2), endothelial cells exposed to H2O2 exhibited increased O2.- compared to control via an L-NAME (specific inhibitor NOS) and Apocynin (NADPH oxidase inhibitor) inhibitable mechanism. This suggests NOS and NADPH oxidase as sources of increased O2.- under H2O2-induced oxidative stress. The increased O2.- was attenuated with MnSOD adenoviral-mediated upregulation and endothelial cell exposure to Tiron (an O2.-scavenger). Endothelial cell attachment under shear with exposure to H2O2 was improved with MnSOD adenoviral-mediated upregulation as observed by decreased loss of the endothelial cell monolayer compared with H2O2 exposed endothelial cells. Endothelial cells exposed to H2O2 exhibit increased O2.-, suggesting that H2O2-induced oxidative stress may be a reasonable model for atherosclerosis. NOS and NADPH oxidase co-inhibition under shear and static culture demonstrated that NOS and NADPH oxidase inhibition is non-additive under static culture, yet additive under shear. Co-inhibition results suggest a complex relationship between the two enzymes that requires additional experimentation to deconvolve.

Nitric Oxide Synthase

NADPH Oxidase

Endothelial Cell

Superoxide Anion

Hydrogen Peroxide

Shear

Superoxide Dismutase C Modulates Macropinocytosis and Phagocytosis in Dictyostelium Discoideum

Gu, Cong

09 November 2018

Macropinocytosis and phagocytosis, two actin-dependent and clathrin independent events of endocytosis, enable the cells such as macrophages and neutrophils to either internalize pathogens and initiates the human innate immune response or serve as a direct entry route for productive infection of pathogen. Dictyostelium discoideum, soil-living amoeba, a unicellular eukaryote that could professionally internalize fluid phase or particles several folds more than that of macrophages and neutrophils. Additionally, multiple key signaling pathways are conserved between Dictyostelium and mammalian cells, including pathways affecting small GTPases Ras and Rac and their downstream effectors, and F-Actin remodeling. All these traits makes Dictyostelium an excellent model organism to study the process pf macropinocytosis and phagocytosis. Upon internalization of the prey, these macropinocytes and phagocytes are often in an environment of increased production of superoxide radicals in the prey-containing vesicles, which helps stimulates the downstream signaling pathways to digest the prey inside. However, the mechanism of how superoxide regulates the process of macropinocytosis and phagocytosis is not fully understood. We had previously reported that Dictyostelium cells lacking Superoxide dismutase C (SodC) exhibited aberrantly high level of active RasG, high basal level of Phosphatidylinositol-3,4,5-triphosphate (PIP3), and severe chemotaxis defects. Now we report that sodC- cells displayed aberrant endosomal vesicle trafficking, significantly compromised particle uptake and defective cell to substratum matrix adhesion compared to that of wild type cells. By using high resolution live imaging microscope we also show that sodC- cells have defects in F-Actin remodeling at the phagocytic rim extension and F-Actin depolymerization of the nascent phagosome. Interestingly, the introduction of overexpressing of cytoplasmic superoxide dismutase (SodA), redox insensitive RasG (C118A) or treatment of PI3K inhibitor LY294002 in sodC- cells significantly rescued the defects of endosomal vesicle trafficking, particle uptake and adhesion. This project suggests that superoxide dismutase C regulates the endosomal vesicle trafficking, phagocytosis and cell to substratum matrix adhesion through the RasG/PI3K signaling axis in Dictyostelium cells.

Superoxide Dismutase C

Macropinocytosis

Phagocytosis

Dictyostelium Discoideum

Biochemistry

Cell Biology

Molecular Biology