Estresse oxidativo em eritrócitos de bovinos intoxicados por Senecio sp. / Oxidative stress in the erythrocytes of cattle intoxicated with Senecio sp.

Bondan, Carlos

10 February 2006

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Intoxication caused by Senecio sp is characterized by irreversible damage to liver cells and may be associated with oxidative stress. The aim of this study was to evaluate the effects of intoxication by Senecio sp on lipoperoxidation, antioxidant defenses, and the osmotic resistance of erythrocytes in cattle. Blood samples from 30 intoxicated animals (group 1) and 30 samples from healthy animals (group 2) were analyzed. The diagnosis of poisoning by Senecio sp was based on histopathologic lesions verified through hepatic biopsy. The following biochemical parameters of oxidative stress in the erythrocytes were determined: thiobarbituric acid-reactive substances (TBARS), copper zinc superoxide dismutase (CuZnSOD) activity, and nonprotein sulfhydryl (NPSH) groups. Erythrocyte osmotic fragility also was evaluated. TBARS concentration and CuZnSOD activity were significantly (P < .001) higher in group 1 when compared with group 2. The concentration of erythrocyte NPSH groups was significantly (P < .03) lower in group 1 when compared with group 2. Osmotic fragility was more pronounced in the erythrocytes of group 1 when compared with group 2 (P < .001). The results of this study indicate that poisoning by Senecio sp causes a increase in lipoperoxidation, oxidation of NPSH groups, and consequently, oxidative stress in bovine erythrocytes that may contribute to hemolysis. These findings may contribute to a better understanding of the mechanisms involved in cell damage in animals intoxicated by Senecio sp. / Intoxicação causada por Senecio sp é caracterizada por danos irreversíveis às células hepáticas e pode estar associada com estresse oxidativo. O objetivo deste estudo foi avaliar os efeitos da intoxicação por Senecio sp sobre a peroxidação lipídica, defesa antioxidante e resistência osmótica dos eritrócitos em bovinos. Amostras sanguíneas de 30 animais intoxicados (grupo 1) e 30 animais sadios (grupo 2) foram analisadas. O diagnóstico de intoxicação por Senecio sp foi baseado nas lesões histopatológicas verificadas através de biópsia hepática. Os seguintes parâmetros bioquímicos de estresse oxidativo nos eritrócitos foram determinados: substâncias reativas ao ácido tiobarbitúrico (TBARS), atividade da cobre-zinco superóxido dismutase (CuZnSOD) e grupamentos sulfidris nãoproteicos (NPSH).Fragilidade osmótica dos eritrócitos também foi avaliada. A concentração de TBARS e atividade da CuZnSOD foi significativamente maior (p<.001) no grupo 1 quando comparado com o grupo 2. A concentração dos grupamentos NPSH nos eritrócitos foi significativamente menor (p<.03) no grupo 1 quando comparado o grupo 2. A fragilidade osmótica foi maior nos eritrócitos do grupo 1 quando comparada com o grupo 2 (p<.001). O resultado deste estudo indica que a intoxicação por Senecio sp causa um aumento na peroxidação lipídica, oxidação dos grupamentos NPSH, e consequentemente, estresse oxidativo nos eritrócitos de bovinos que pode contribuir para a hemólise. Estes achados podem contribuir para o melhor entendimento dos mecanismos envolvidos no dano celular em animais intoxicados por Senecio sp.

Bovinos

Hemólise

Peroxidação lipídica

Grupos sulfidris não protéicos

Estresse oxidativo

Celulas vermelhas do sangue

Senecio sp

Superoxido dismutase

Bovine

Hemolysis

Lipid peroxidation

Nonprotein sulfhydryl

Oxidative stress

Red blood cell

Senecio sp

Superoxide dismutase

Conseqüências da expressão da enzima Cu,Zn-superóxido dismutase (SOD1) e sua mutante G93A em neuroblastomas. Implicações para a esclerose lateral amiotrófica / Some consequences of SOD1 and G93A mutant expression in neuroblastomas. Implications for amyotrophic lateral sclerosis (ALS).

Fernanda Menezes Cerqueira

22 March 2007

Cerca de 20 % dos casos familiares de esclerose lateral amiotrófica (ELAf) são causados por mutações na enzima Cu,Zn-superóxido dismutase (SOD1). Inicialmente se supôs que as enzimas mutantes teriam a atividade SOD comprometida, entretanto isto não foi comprovado. Atualmente, considera-se que as enzimas mutantes adquiram propriedades tóxicas. Quais seriam estas propriedades e como levariam à degeneração do neurônio motor são questões ainda não respondidas. Neste trabalho, comparamos neuroblastomas humanos transfectados com SOD1 G93A associada à ELAf (SH-SY5YG93A), e SOD1 selvagem (SH-SY5YWT) com células parentais (SH-SY5Y) em relação ao crescimento, viabilidade, produção basal de oxidantes, atividades SOD e peroxidásica e modificações estruturais da SOD. As células transfectadas apresentaram aumento na taxa de crescimento e na produção basal de oxidantes. As células SH-SY5YWT e SH-SY5YG93A mantiveram a expressão de SOD1 e atividade consistente com o aumento esperado de duas vezes, em estágios iniciais de cultura. A atividade peroxidásica do homogenato da célula SH-SY5YG93A foi maior. Após quatro semanas, a linhagem SH-SY5YG93A manteve a expressão de SOD1, mas as atividades dismutásica e peroxidásica diminuíram. A expressão de SOD1 aumentou a proporção de formas alteradas de SOD1, como enzima reduzida, multímeros formados por ponte dissulfeto e formas insolúveis em detergente, particularmente na linhagem SH-SY5YG93A. Entre estas formas insolúveis, identificamos um dímero covalente de SOD. Estas formas alteradas provavelmente são responsáveis pela ativação do proteassomo e estresse do retículo endoplasmático, verificados nas células transfectadas. Concluindo, a superexpressão da SOD1 foi suficiente para elevar as formas imaturas e oligomerizadas de SOD1 e a oxidação basal, e a mutação G93A ressaltou estes processos. / Some familial ALS (fALS) are caused by mutations in the Cu,Zn-superoxide dismutase enzyme (SOD1). It was thought that the mutated enzymes would have impaired SOD activity, but this has not been corroborated so far. Presently, it is more accepted that the mutated enzymes acquire a new toxic function. What this new toxic function is and how it relates to the degeneration of motor neurons remains debatable. Here, we compared human neuroblastoma cells transfected with fALS mutant G93A (SH-SY5YG93A) or wild-type SOD1 (SH-SY5YWT) with parent cells (SH-SY5Y) in regard to growth, viability, basal oxidant production, SOD and peroxidase activities, and SOD forms. Transfected cells presented increased growth rate and basal oxidant production. SH-SY5YWT and SH-SY5YG93A cells in early culture stage showed SOD expression and activity consistent with the expected two-fold increase; SH-SY5YWT homogenates showed increased peroxidase activity. After four weeks, SH-SY5YG93A maintained SOD1 expression levels but peroxidase and dismutase activities were lower. SOD1 expression increased the levels of altered SOD1 forms such as the reduced enzyme, disulfide multimers and detergent-insoluble forms, particularly in SH-SY5YG93A cells. Among the insoluble forms a covalent SOD dimer was identified. These altered SOD forms are probably responsible for proteasome activation and endoplasmatic reticulum stress response verified in transfected cells. In conclusion, SOD1 over-expression was sufficient to increase intracellular immature and oligomerized SOD1 forms and basal oxidation and the G93A mutation enhanced these processes.

Agregação protéica

Dímero covalente de SOD

Esclerose Lateral Amiotrófica (ELA)

Ligação dissulfeto

Amyotrophic Lateral Sclerosis (ALS)

CuZn-superoxide dismutase (SOD1)

Disulfide bond

Protein aggregation

SOD covalent dimer

Inflammation-Dependent Oxidative Stress Metabolites as a Hallmark of Amyotrophic Lateral Sclerosis

Xiong, Luyang, McCoy, Michael, Komuro, Hitoshi, West, Xiaoxia Z., Yakubenko, Valentin, Gao, Detao, Dudiki, Tejasvi, Milo, Amanda, Chen, Jacqueline, Podrez, Eugene A., Trapp, Bruce, Byzova, Tatiana V.

01 January 2022

Amyotrophic lateral sclerosis (ALS) is a progressive neurodegenerative disease, with poor prognosis and no cure. Substantial evidence implicates inflammation and associated oxidative stress as a potential mechanism for ALS, especially in patients carrying the SOD1 mutation and, therefore, lacking anti-oxidant defense. The brain is particularly vulnerable to oxidation due to the abundance of polyunsaturated fatty acids, such as docosahexaenoic acid (DHA), which can give rise to several oxidized metabolites. Accumulation of a DHA peroxidation product, CarboxyEthylPyrrole (CEP) is dependent on activated inflammatory cells and myeloperoxidase (MPO), and thus marks areas of inflammation-associated oxidative stress. At the same time, generation of an alternative inactive DHA peroxidation product, ethylpyrrole, does not require cell activation and MPO activity. While absent in normal brain tissues, CEP is accumulated in the central nervous system (CNS) of ALS patients, reaching particularly high levels in individuals carrying a SOD1 mutation. ALS brains are characterized by high levels of MPO and lowered anti-oxidant activity (due to the SOD1 mutation), thereby aiding CEP generation and accumulation. Due to DHA oxidation within the membranes, CEP marks cells with the highest oxidative damage. In all ALS cases CEP is present in nearly all astrocytes and microglia, however, only in individuals carrying a SOD1 mutation CEP marks >90% of neurons, thereby emphasizing an importance of CEP accumulation as a potential hallmark of oxidative damage in neurodegenerative diseases.

amyotrophic lateral sclerosis (genetics)

animals

disease models

animal

humans

inflammation (genetics)

mice

transgenic

mutation

neurodegenerative diseases

oxidative stress

superoxide dismutase (metabolism)

superoxide dismutase-1 (genetics)

biomarker

carboxyethylpyrrole

lipid peroxidation

Biomedical Sciences

Interactions hôte-pneumocystis : études fonctionnelle de la PcMnSOD et de la colonisation par pneumocytsis spp par des approches expérimentales et clinico-épidémiologiques / Host-Pneumocystis interactions : PcMnSOD functional study and evaluation of Pneumocytsis spp colonization by experimental and clinico-epidemiological approaches

Khalife, Sara

29 September 2014

Le genre Pneumocystis regroupe des microchampignons atypiques qui colonisent par voie respiratoire les alvéoles pulmonaires de nombreux mammifères. C’est un pathogène opportuniste qui s’avère particulièrement dangereux lorsque le système immunitaire de l’hôte est déficient (VIH, greffés) et dans ce cas il provoque une pneumonie, la pneumocytsose, fatale en absence de traitement. Du fait que les Pneumocystis spp restent des microchampignons non cultivables, il est alors impossible de manipuler directement ses gènes et la seule solution pour étudier leurs fonctions et leurs localisations, demeure leur expression en système hétérologue. Situé dans l'espace alvéolaire, Pneumocystis spp. sont exposés au stress oxydatif générés par les macrophages alvéolaires, les granulocytes neutrophiles ainsi que par les espèces réactives de l'oxygène (EROs) produits par le métabolisme respiratoire. Pour se protéger, ces micro-organismes ont développé un système spécifique de détoxification des EROs incluant les SuperOxyde Dismutases (SOD). Dans notre étude, la carence en MnSOD d'une souche de Saccharomyces cerevisiae (EG110) dépourvue du gène Scsod2 a été complétée par l'introduction d'un plasmide portant une version inductible du gène Sod2 de P. carinii (Pcsod2). Une fois exprimée la PcMnSOD était capable de complémenter le défaut de croissance de la souche EG110 qui a été exposés à la ménadione. En bref, notre étude a montré une bonne complémentation du gène Sod2 de P. carinii chez une levure déficiente en MnSOD à savoir (i) la reprise de la culture en conditions de stress oxydant, (ii) la mise en évidence de la protéine traduite (Western Blot) et (iii) l’adressage mitochondriale de la protéine hétérologue. Selon le degré d’altération du système immunitaire, les infections à P. jirovecii peuvent présenter des tableaux cliniques variés allant de la colonisation à la pneumocystose. Ces infections semblent être en grande partie liées à des déficits majeurs de l’immunité cellulaire se traduisant plus précisément par une diminution du nombre des lymphocytes TCD4 (LTCD4). Notre deuxième objectif était de parvenir à une appréciation quantitative du risque de contamination par P. carinii en fonction du degré d’immunodépression (ID) des rats exposés. Nous avons ainsi développé un modèle animal de transmission naturelle de P. carinii où des rats nude développant une pneumocystose (« rats donneurs ») sont mis en contact direct avec des rats Sprague Dawley Pneumocystis-free (« rats receveurs ») présentant différents niveaux d’ID (dexamethasone). Après 2 semaines de contact, le niveau de colonisation des rats graduellement ID est déterminé soit par comptage après coloration au Bleu de Toluidine O, soit par qPCR. Cette étude a permis tout d’abord de valider notre modèle d’ID graduelle chez le rat ; mais surtout, et pour la première fois dans un modèle expérimentale chez le rat, nous avons montré une relation inverse entre le niveau de colonisation par P. carinii et le taux de LTCD4 ou LTCD8 circulants. Enfin, nous avons réalisé la première étude épidémiologique portant sur Pneumocystis au Liban. Ce projet franco-libanais a été mis en place au vue de l’importance majeure de la colonisation par Pneumocystis chez les patients immunocompétents, en particulier chez les patients atteints de pathologies pulmonaires chroniques obstructives tels que la BPCO où la colonisation par Pneumocystis est considérée comme un facteur aggravant de la maladie. Nos résultats montrent une faible prévalence de colonisation (5.2%) et une prédominance du génotype mtLSU2 chez les patients atteints de pathologies respiratoires au Liban. De plus, dans notre cohorte de patient présentant des pathologies respiratoires variées, la BPCO semble être la seule maladie respiratoire associée à un facteur de risque de colonisation par P. jirovecii. / Pneumocystis is an opportunistic pulmonary fungal pathogen that causes Pneumocystis pneumonia (PcP) in immunocompromised individuals such as patients with HIV infection as well as those without HIV infection who are undergoing immunosuppression as a consequence of chemotherapy or organ transplantation. Pneumocystis colonization in immunocompetent individuals has recently been described by the detection of fungal DNA without signs or symptoms of pneumonia, and accumulating evidences underline its clinical importance. Pneumocystis organisms are airborne transmitted and represent a large group of species of atypical fungi that cannot be continuously grown in culture. Consequently, it is impossible to directly manipulate genes in Pneumocystis species. Located in the alveolar space, Pneumocystis organisms are exposed to oxidative burst from phagocytic alveolar macrophages and neutrophils as well as to reactive oxygen species (ROS) produced by the mitochondrial oxygen metabolism. To counteract this, microorganisms have developed a ROS detoxifying system. This includes superoxide dismutases (SOD). In the present study, the MnSOD deficiency of a Saccharomyces cerevisiae mutant strain was complemented by introducing a plasmid carrying an inducible version of the P. carinii Sod2 gene (Pcsod2). Expression of Pcsod2 revealed that the corresponding MnSOD recombinant protein could complement the growth defect in the mutant yeast strain when cells were exposed to menadione. The mitochondrial localization was confirmed by immuno-colocalization of the P. carinii recombinant MnSOD with the yeast mitochondrial Cox4 protein. These results suggest that Pcsod2 encodes an active MnSOD that is targeted to the mitochondrion. This work increases our understanding of the antioxidant defense mechanisms deployed by the Pneumocystis organisms.The adaptive host response to Pneumocystis infection involves humoral and cellular immune responses working in concert to promote the clearance of infection. Depending on the degree of alteration of the immune system, Pneumocystis infections may have various clinical presentations going from colonization to the most severe form (PcP).These infections appear to be largely related to major deficits in cellular immunity and are more closely reflecting a decrease in the number of CD4 T lymphocytes (LTCD4). Our objective was to achieve a quantitative assessment of the risk of contamination by Pneumocystis depending on the degree of immunosuppression (ID) of the exposed host. Thus, we developed an animal model of natural transmission of P. carinii where rats undergoing gradual ID (dexamethasone) named receivers, are cohoused with nude rats developing PcP, named donors. Following contact between receiver and donor rats, the level of colonization by Pneumocystis of receiver rats is determined by toluidine blue O staining or by qPCR. This study allowed us to validate our gradual ID rat model, in the sense that we were able to maintain the level of circulating LTCD4 and LTCD8 stable. Finally, and for the first time in an experimental rat model, we observed an inverse relationship between the level of colonization by P. carinii and the level of circulating LTCD4 and LTCD8.Finally, we aimed to acquire the first data concerning the prevalence of P. jirovecii in the Lebanese population. This Franco-Lebanese project was set up because the colonization by Pneumocystis is probably of major importance in the public health, especially in susceptible patients such as patients with chronic obstructive pulmonary diseases (COPD) where Pneumocystis is considered as a worsening prognosis factor. Our results show a low prevalence of P. jirovecii colonization (5.2%) and the predominance of mtLSU genotype 2 in patients with respiratory diseases in Lebanon. Moreover, in our cohort of patients with various respiratory diseases, COPD was the only respiratory disease associated with a significant increased risk of P. jirovecii colonization.

Colonisation par pneumocystis

Risque infectieux

Expression hétérologue

Saccahromices cerevisae

Choc oxydant

Bronchopneumopathie obstructive

Immunosuppression

Bronchopneumonias

Dismutase, superoxide

Pneumocystis

Fibrosis development requires mitochondrial Cu,Zn-superoxide dismutase-mediated macrophage polarization

He, Chao

01 May 2014

H2O2 generated by alveolar macrophages has been linked to the development pulmonary fibrosis, but little is known about its source, mechanism of production and exact role upon alveolar macrophage activation. In this study, we found that alveolar macrophages from asbestosis patients spontaneously produce high levels of H2O2 and have high expression of Cu,Zn-SOD. Cu,Zn-SOD localized to the mitochondrial intermembrane space (IMS) in asbestosis patients and asbestos induced translocation of Cu,Zn-SOD to the IMS. This process was unique to macrophages and dependent on functional mitochondrial respiration. The presence of at least one of the conserved cysteines was required for disulfide bond formation and mitochondrial translocation. These conserved cysteine residues were also necessary for enzyme activation and H2O2 generation. Cu,Zn-SOD-mediated H2O2 generation was inhibited by knockdown of the iron-sulfur protein, Rieske, in complex III. The role of Cu,Zn-SOD was biologically relevant as Cu,Zn-SOD-/- mice generated significantly less H2O2, had less oxidative stress, and were protected from developing pulmonary fibrosis. This protective mechanism is closely related to the alveolar macrophage activation and polarization in Cu,Zn-SOD-/- mice, as they had a dominant pro-inflammatory phenotype. Macrophages not only initiate and accentuate inflammation after tissue injury, but they are also involved in resolution and repair. The pro-inflammatory M1 macrophages have microbicidal and tumoricidal activity, whereas the M2 macrophages are involved in tumor progression and tissue remodeling, and can be pro-fibrotic in certain settings. We demonstrate that overexpression of Cu,Zn-SOD promoted macrophages polarization into an M2 phenotype. Furthermore, overexpression of Cu,Zn-SOD in mice resulted in a pro-fibrotic environment and accelerated the development of pulmonary fibrosis. The mechanism which Cu,Zn-SOD-mediated H2O2 utilizes to modulate macrophage M2 polarization is through redox regulation of a critical cysteine in STAT6. The polarization process, at least partially, was regulated by epigenetic modulation. We show that STAT6 was indispensable for Cu,Zn-SOD-mediated M2 polarization. STAT6 upregulated Jmjd3, a histone H3 lysine 27 demethylase, and initiated M2 gene transcriptional activation. Targeting STAT6 with leflunomide, which can reduce cellular ROS production and inhibit STAT6 phosphorylation, abolished M2 polarization and ameliorated the fibrotic development. Taken together, these observations provide a novel mechanism for the pathogenesis of pulmonary fibrosis whereby the antioxidant enzyme Cu,Zn-SOD plays a paradoxical role. The study highlights the importance of mitochondrial Cu,Zn-SOD and redox signals in macrophage polarization and fibrosis development. These observations demonstrate that the Cu,Zn-SOD-STAT6-Jmjd3 pathway is a novel regulatory mechanism for M2 polarization and that leflunomide is a potential therapeutic agent in the treatment of pulmonary fibrosis.

Cu,Zn-superoxide dismutase

Epigenetics

Hydrogen peroxide

Macrophage phenotype

Mitochondria

Pulmonary fibrosis

Protein folding studies of human superoxide dismutase and ALS associated mutants

Lindberg, Mikael

January 2004

<p>Proteins are among the most abundant biological macromolecules. The cellular machinery is coupled to exact structural shape and properties of the more than 100 000 different proteins. Still, proteins can sometimes completely change their character and as a result trigger neuro degenerative disease. Exactly what happens is yet poorly understood but misfolding and aggregation leading to toxic gain of function is probable causes, i.e. the protein adopts new noxious properties. In 1993 the protein superoxide dismutase (SOD) was found to be associated with the neuro degenerative disease ALS. Up to date more than 100 mutations in SOD have been associated with ALS. However, the mutations are scattered all over the structure and no common denominator for the disease mechanism has been found. </p><p>This work has been focused on the molecular mechanism of the toxic gain-of - function of mutant SOD from the perspective of protein folding and structural stability. To facilitate the studies of SOD and its ALS associated mutations, an expression system resulting in increased copper content was developed. Coexpression with the copper chaperone for superoxide dismutase (yCCS) leads to increased expression levels, especially for the destabilised ALS mutants. Through thermodynamic studies, I show that with the exception of the most disruptive mutations the holo protein is only marginally destabilised, whereas all mutations show a pronounced destabilisation on the apo protein. Kinetic studies suggest further that the dimeric apoSOD folds via a three-state process where the dimerisation proceeds via a marginally stable monomer. The apoSOD monomer folds by a two-state process. The disulphide bond is not critical for the folding of the apoSOD monomer although it contributes significantly to its stability. Interestingly, in the absence of metals, reduction of the disulphide bond prevents the formation of the dimer. A mutation can affect the protein stability in various ways: either from destabilisation of the monomer (case 1), weakening of the dimer interface (case 2) or, in the worst case, from a combination of both (case 1+2). Thus, therapeutic strategies to prevent the noxious effects of mutant SOD must include both mechanisms. An important finding in this study is that we can see a correlation between the stability for each mutation and the mean survival time. This could be an opening in the development of therapeutic substances that counteract the defect in SOD upon mutation.</p>

Biochemistry

superoxide dismutase

ALS

protein folding

equilibrium titration

protein stability

apo protein

disulphide bridge

chevron plot

Biokemi

Biochemistry

Biokemi

Measuring protein metal binding via mass spectrometry : copper, zinc superoxide dismutase and amyotrophic lateral sclerosis

Rhoads, Timothy W.

06 July 2012

Amyotrophic lateral sclerosis (ALS) is a devastating disease characterized by the progressive degeneration of motor neurons. Dominantly-inherited mutations to the antioxidant enzyme Cu,Zn superoxide dismutase (SOD1) cause 3-6% of all ALS cases. The complete mechanism behind the toxicity of mutant SOD1 remains unclear, although significant evidence points to aberrant or incomplete metal-binding having a role in a toxic gain-of-function. However, the relevance of the metal-binding of SOD1 to mutant-SOD1-linked ALS remains controversial. Direct assessments of protein metal-binding from transgenic, SOD1-overexpressing rodent models of the disease are difficult to acquire due to the non-covalent nature of the interaction. The relatively small amount of disease-afflicted spinal cord tissue in which the motor neurons reside compounds the difficulty of measuring the protein metal binding of SOD1 from transgenic mice. This dissertation addresses the metals bound to SOD1 throughout the disease course in transgenic mice using a novel mass spectrometry assay. The methodology developed here offers the first detailed examination of partially unfolded intermediates of SOD1 present in the spinal cord of pre-symptomatic, symptomatic, and end-stage transgenic mice overexpressing the ALS-associated SOD1 mutation G93A (glycine mutated to alanine at position 93). These results were compared to age-matched transgenic mice expressing wild-type SOD1 that do not develop ALS symptoms. To extract SOD1 from relevant spinal cord tissue, a 300 ��m necropsy punch was used to remove a small piece of tissue from the ventral or dorsal gray matter of a 1 mm-thick slice of spinal cord. Physiological salts that interfere with electrospray mass spectrometry were removed by binding the proteins to a C4 Ziptip��, a pipette tip containing hydrophobic, reversed-phase packing material. Washing the Ziptip-bound proteins with water eliminated interfering salts. Bound proteins could then be eluted into a mass spectrometer with low concentrations of acetonitrile plus formic acid. Electrospray ionization conditions were determined that could keep both copper and zinc bound to SOD1. Using a high-resolution Fourier transform-ion cyclotron resonance mass spectrometer, we used the assay to collect isotopically-resolved protein mass data. Theoretical protein isotope distributions were calculated from the empirical formulas of SOD1 and matched to the experimental data with a least squares fitting algorithm to determine the multiple intermediates of SOD1 present. Spinal cord tissue, wild-type in particular, was notable for containing significantly more one-metal SOD1 than any other tissue, despite having 3-fold less SOD1 than liver. We quantitatively compared the levels of soluble, partially unfolded intermediates of SOD1 from wild-type and G93A SOD1 spinal cords. Wild-type mouse spinal cord contained significantly more of all of the partially unfolded intermediates copper-deficient SOD1, disulfide reduced SOD1, and apo SOD1. The amount of zinc-containing SOD1 was exceptionally high in wild-type mice, comprising 60% of the total SOD1 in wild-type spinal cord. The larger amounts of these SOD1 intermediates in wild-type transgenic mice indicate that they are not directly responsible for toxicity in vivo. However, copper-containing, zinc-deficient SOD1 was the one species found in higher concentrations in G93A SOD1 spinal cord. The concentration was on average 0.6-0.8 ��M in G93A spinal cord, compared to 0.1-0.3 ��M zinc-deficient SOD1 found in the wild-type mouse spinal cord. A concentration above 0.5 ��M zinc-deficient SOD1 was sufficient to induce motor neuron death in vitro. These results suggest that copper-containing, zinc-deficient SOD1 could be the toxic species responsible for motor neuron death in ALS. / Graduation date: 2013

Mass Spectrometry

Metals

Lou Gehrig's Disease

Superoxide dismutase

Metalloenzymes

Entwicklung eines Dual-Luciferase-Reportergen-Assays zum Nachweis der Induktion antioxidativer Enzyme durch Nahrungsbestandteile / Establishment of a reporter gene assay for the determination of induction of antioxidative enzymes by food components

Wiencierz, Anne Maria

January 2008

Die Induktion antioxidativer Enzyme gilt als eine Möglichkeit, die antioxidative Kapazität von Zellen zu steigern und dadurch mit oxidativem Stress assoziierten Erkrankungen (z. B. Herz-Kreislauf-Erkrankungen, Neurodegeneration, Atherosklerose) vorzubeugen. Ausgehend davon wurde in der vorliegenden Arbeit der Dual-Luciferase-Reportergen-(DLR)-Assay zum Nachweis der Induktion der antioxidativen Enzyme Katalase (CAT), zytosolische Glutathion-Peroxidase (GPX1) und Kupfer-Zink-Superoxid-Dismutase (SOD1) entwickelt. Im Zuge dessen wurden drei Säugetierzelllinien (CaCo2, IEC-18, V79) auf ihre Eignung zur Modellzelllinie untersucht. Aufgrund der Transfektionseffizienz wurde die Fibroblastenzelllinie V79 ausgewählt. Zur Gewährleistung eines hohen Substanzdurchsatzes des DLR-Assays wurden bei der Etablierung Parameter wie Kulturplattenformat, DNA-Menge, Luciferasen-Kinetik berücksichtigt. Nach erfolgreicher Etablierung des Versuchs im 96-Well-Format wurden L-Carnitin, Catechin, Epigallocatechingallat, Genistein, Wasserstoffperoxid (H2O2), Natrium-Ascorbat, Paraquat, Quercetin, 12-O-Tetradecanoylphorbol-13-Acetat (TPA) und Trolox in nicht-zytotoxischen Konzentrationen hinsichtlich der Aktivierung des Ratten-CAT-, des humanen GPX1- und des humanen SOD1-Promotors untersucht. Die Bestimmung der maximal tolerierbaren Behandlungskonzentration erfolgte im Vorfeld mittels Resazurintest. Von den zehn Verbindungen zeichneten sich drei Substanzen als potente Induktoren für die SOD1 und die GPX1 aus. Die 24-stündige Behandlung von mit Reportergenkonstrukten transient transfizierten V79-Zellen mit 100 µM Paraquat resultierte in einer Verdopplung der relativen SOD1-Promotor-Aktivität und einer Erhöhung der relativen GPX1-Promotor-Aktivität auf 1,6 bzw. 1,7. Die Stimulation mit 20 µM Genistein oder 10 µM Quercetin führte wiederum zu einer Verdopplung bis Verdreifachung der relativen SOD1- und GPX1-Promotor-Aktivität. Der Promotor der Rattenkatalase konnte demgegenüber nur durch 50 µM H2O2 aktiviert werden (1,5fach). Für diesen DLR-Assays bieten sich folglich Genistein, Quercetin wie auch H2O2 als Referenzsubstanzen an. Um aber eine qualitative Charakterisierung der einzelnen Verbindungen hinsichtlich ihres Induktionspotentials zu gewährleisten, sollten von allen getesteten Substanzen Dosis-Wirkungskurven aufgenommen werden. Zudem wird für den routinemäßigen Einsatz die Verwendung stabil transfizierter Zellen zur Vermeidung von mit der Transfektion verbundenen experimentellen Schwankungen empfohlen. / The induction of antioxidative enzymes might be an opportunity to elevate the cellular antioxidative capacity and, thus, to prevent oxidative stress associated diseases (e. g. cardio-vascular disease, neurodegenerative disease, atherosclerosis). Based on this idea the dual luciferase reporter gene (DLR) assay was developed to demonstrate the induction of three antioxidative enzymes: catalase (CAT), cytosolic glutathione peroxidase (GPX1), and copper-zinc superoxide dismutase (SOD1). In the course of the development three mammalian cell lines (CaCo2, IEC-18, V79) were tested for their ability to serve as a model cell line. The line V79 was chosen due to the transfection efficiency. To give consideration to a high-throughput several parameters were studied (e. g. format of the cultural plates, amount of DNA, kinetics of the luciferases) and the DLR assay was successfully established in 96 well plates. Subsequently, L-carnitine, catechin, epigallocatechin gallate, genistein, hydrogen peroxide (H2O2), sodium ascorbate, paraquat, quercetin, 12-O-tetradecanoylphorbol-13-acetate (TPA) and trolox were tested in non-cytotoxic concentrations for the activation of the rat CAT, human GPX1 and human SOD1 promoter. The maximally tolerable concentrations were determined by resazurin test in advance. Three out of these ten compounds were identified as potent inducers of GPX1 and SOD1. Stimulation of reporter gene construct transient transfected V79 cells for 24 hours with 100 µM paraquat caused a duplication of the relative GPX1 promoter activity and a 1.6-/1.7-fold increase of the relative SOD1 promoter activity. The incubation with 20 µM gen-istein or 10 µM quercetin resulted in duplication to triplication of both, the relative GPX1 and SOD1 promoter activity. In contrast, the rat CAT promoter was activated by 50 µM H2O2 (1.5-fold). Consequently, genistein, quercetin, and H2O2 are considered to be suitable reference substances for this DLR assay. To further characterize the inducing potential of the tested compounds all of them should be tested in different concentrations. Furthermore, for the routinely performed DLR assay it is recommended to use stably transfected cells to eliminate transfection caused variations.

Katalase

Glutathion-Peroxidase

Superoxiddismutase

Reportergen-Assay

Nahrungsbestandteile

catalase

glutathione peroxidase

superoxide dismutase

reporter gene assay

natural compounds

Life sciences

Protein folding studies of human superoxide dismutase and ALS associated mutants

Lindberg, Mikael

January 2004

Proteins are among the most abundant biological macromolecules. The cellular machinery is coupled to exact structural shape and properties of the more than 100 000 different proteins. Still, proteins can sometimes completely change their character and as a result trigger neuro degenerative disease. Exactly what happens is yet poorly understood but misfolding and aggregation leading to toxic gain of function is probable causes, i.e. the protein adopts new noxious properties. In 1993 the protein superoxide dismutase (SOD) was found to be associated with the neuro degenerative disease ALS. Up to date more than 100 mutations in SOD have been associated with ALS. However, the mutations are scattered all over the structure and no common denominator for the disease mechanism has been found. This work has been focused on the molecular mechanism of the toxic gain-of - function of mutant SOD from the perspective of protein folding and structural stability. To facilitate the studies of SOD and its ALS associated mutations, an expression system resulting in increased copper content was developed. Coexpression with the copper chaperone for superoxide dismutase (yCCS) leads to increased expression levels, especially for the destabilised ALS mutants. Through thermodynamic studies, I show that with the exception of the most disruptive mutations the holo protein is only marginally destabilised, whereas all mutations show a pronounced destabilisation on the apo protein. Kinetic studies suggest further that the dimeric apoSOD folds via a three-state process where the dimerisation proceeds via a marginally stable monomer. The apoSOD monomer folds by a two-state process. The disulphide bond is not critical for the folding of the apoSOD monomer although it contributes significantly to its stability. Interestingly, in the absence of metals, reduction of the disulphide bond prevents the formation of the dimer. A mutation can affect the protein stability in various ways: either from destabilisation of the monomer (case 1), weakening of the dimer interface (case 2) or, in the worst case, from a combination of both (case 1+2). Thus, therapeutic strategies to prevent the noxious effects of mutant SOD must include both mechanisms. An important finding in this study is that we can see a correlation between the stability for each mutation and the mean survival time. This could be an opening in the development of therapeutic substances that counteract the defect in SOD upon mutation.

Biochemistry

superoxide dismutase

ALS

protein folding

equilibrium titration

protein stability

apo protein

disulphide bridge

chevron plot

Biokemi

Biochemistry

Biokemi

Mise en évidence d'une relation entre la protéine Damaged DNA-Binding 2 et le facteur de transcription NF-kB : conséquences sur les capacités migratrices et invasives des tumeurs mammaires

Ennen, Marie

04 December 2012

La protéine Damaged DNA-Binding 2 (DDB2) est connue pour son rôle dans la réparation de l'ADN lésé par les UV. Cependant, le laboratoire a montré que cette protéine est surexprimée naturellement dans les cellules tumorales mammaires non métastatiques et active leur prolifération, en favorisant leur entrée en phase de transition G1/S du cycle cellulaire. Il a été montré que cette nouvelle activité biologique de DDB2 dépend de sa capacité à intervenir dans la transcription de gènes cibles, comme celui codant l'enzyme anti-oxydante, la superoxyde dismutase à manganèse (SOD Mn). Sur la base que DDB2 est peu ou pas exprimée dans les cellules tumorales mammaires métastatiques, ce travail a consisté à étudier le rôle de cette protéine dans les capacités invasives de ces cellules. Dans un 1er temps, nous avons montré que les cellules tumorales mammaires hautement métastatiques (MDA-MB231 et SKBR3), lorsqu'elles surexpriment DDB2 après introduction de son gène, ont des capacités migratrices et invasives in vitro, ainsi que des propriétés in vivo à développer des métastases pulmonaires, fortement réduites, en association avec une diminution importante de l'expression de la métalloprotéase matricielle 9 (MMP-9). De même, lors d'une analyse rétrospective sur 92 échantillons cliniques provenant de patientes, une corrélation inverse entre l'expression de DDB2 et le haut grade (SBR>ou =3) des tumeurs mammaires est observée. Dans un 2ème temps, nous avons identifié le mécanisme moléculaire par lequel DDB2 agit négativement sur les capacités invasives des cellules tumorales mammaires. Nous avons montré que DDB2 intervient positivement sur l'expression du gène codant I kappa B alpha (IkBa), en se fixant sur une séquence d'ADN localisée dans la région proximale du promoteur, qui entraîne en conséquence une forte diminution de l'activité du facteur de transcription NF-kB. Ce dernier est connu pour son rôle dans les capacités invasives et migratrices des cellules tumorales mammaires métastatiques, en régulant de nombreux gènes cibles comme celui codant la MMP-9. Nous avons montré, que l?inhibition de l'expression d'IkBa, par ARN interférence restaure en partie les propriétés invasives des cellules tumorales mammaires métastatiques surexprimant DDB2, en association avec une réexpression de MMP-9. Dans un 3ème temps, nous avons également montré dans les cellules tumorales mammaires métastatiques, que l?expression constitutivement élevée de la SOD Mn, en l'absence de DDB2, dépend de l'activité conjointe des facteurs de transcription NF-kB et Sp1, révélant ainsi un autre mécanisme moléculaire impliqué dans les propriétés invasives de ces cellules. L'ensemble de ce travail contribue ainsi à mieux comprendre comment les cellules tumorales mammaires progressent vers un statut invasif et renforce également l'idée que DDB2 présente un intérêt clinique potentiel, comme marqueur prédictif de la progression métastatique des tumeurs mammaires. Enfin, la relation entre la DDB2, NF-kB et la SOD Mn représente une voie intéressante pour le développement de nouvelles thérapies anticancéreuses.

DDB2

NF-kB

Superoxyde dismutase à manganèse

Cancer du sein

Migration

Invasion

Régulation génique