Estudo da eficiência de inibidores e da resistência à  corrosão localizada da superliga Incoloy 800, utilizada no circuito secundário do gerador de vapor do tipo PWR, em meio simulador de frestas. / Study of inhibition efficiency and localized corrosion resistance of Alloy 800, used in the secondary circuit of the PWR type steam generator, in a crevice simulator medium.

Domingues, Leandro Souza

17 June 2019

A liga Incoloy 800 é usada em tubulações do gerador de vapor (GV) nos reatores de água pressurizada (PWR). Nestes, os tubos são suportados por placas. A literatura tem reportado a ocorrência de falhas por corrosão por frestas na região onde os tubos entram em contato com as placas de suporte, atribuída ao acúmulo conjunto de cloreto (Cl-) e tiossulfato (S2O32-). Para minimizar este problema inibidores de corrosão são adicionados à água de alimentação. Apesar da corrosão por frestas ser o foco principal da literatura, os mecanismos por trás do efeito conjunto de ambos os íons agressivos sobre a resistência à corrosão localizada das superligas em conjunto com o efeito da presença de inibidores têm sido pouco abordados. Desse modo, o presente estudo utilizou técnicas eletroquímicas e de caracterização superficial para estudar o efeito da presença de S2O32- em diferentes concentrações e da adição de 10-6M do inibidor de corrosão etanolamina (ETA) sobre a resistência à corrosão por pite da superliga Incoloy 800 em meio 0,3M de Cl-. Os ensaios de espectroscopia de impedância eletroquímica (EIS) realizados no potencial de circuito aberto (OCP) mostraram que, para todas as condições utilizadas, a liga se mantém passiva, e que o comportamento melhora com a diminuição da razão [Cl-/S2O32-] e com o tempo de imersão. Para esta condição, as análises por XPS mostraram que a interação do Cl- com a camada passiva é fraca quando este íon se encontra isolado no meio e que o tiossulfato apresenta condições para a redução sobre a película passiva do Incoloy 800, ambos os fatores podendo ser responsáveis pela melhora da resposta de impedância com o tempo de imersão. O ajuste dos diagramas de impedância com circuitos equivalentes (CEE) evidenciou a adsorção de S2O32-, indicando que este íon controla a resposta de impedância em altas frequências quando adicionado em concentrações equivalentes à concentração de cloretos. Os ensaios de polarização anódica mostraram que o Incoloy 800 não é suscetível à corrosão localizada na presença apenas de tiossulfato, porém apresenta corrosão por pites em 0,3M de NaCl, exibindo, no entanto, propriedades de repassivação. Por sua vez, na solução contendo os dois ânions o comportamento eletroquímico é controlado pela razão [Cl-/S2O32-]. Assim para uma alta razão, a quebra da película se dá pela ação do cloreto com o tiossulfato atuando de modo a estabilizar os pites metaestáveis, diminuindo o potencial de quebra e impedindo a repassivação do eletrodo. Por sua vez, para uma baixa razão, o oxiânion atua de modo inibitivo, impedindo o efeito prejudicial do Cl- sobre a camada passiva. A caracterização por MEV mostrou que, sempre que ocorreu, a corrosão por pites teve início nas proximidades das partículas de segunda fase de TiN, e que a presença do tiossulfato aumenta a agressividade do ataque localizado, formando pites maiores e mais profundos, embora em menor número, provavelmente devido à formação de sulfetos metálicos nas regiões submetidas ao ataque localizado. No OCP, a adição de 10-6M de ETA ao meio contendo 0,3M de NaCl sem e com 0,075M de S2O32- provocou mudanças no potencial de corrosão e diminuiu o módulo de impedância da liga. As análises por XPS mostraram a adsorção da ETA à superfície do eletrodo e que este aumenta à adsorção do íon tiossulfato à superfície do eletrodo. Por sua vez, o ajuste dos diagramas de impedância com CEE indicou a ocorrência de processos controlados por difusão na camada passiva. Em concordância com os ensaios de impedância, as curvas de polarização anódica apresentaram maiores valores de corrente passiva na presença do inibidor. No que concerne à corrosão por pites, a adição de 10-6M de ETA não inibiu a quebra da película protetora para a solução contendo apenas íons cloreto e impediu a repassivação, levando à formação de pites maiores a mais profundos. Porém na presença de Cl- e S2O32- (em baixa concentração) houve inibição da quebra da película passiva, indicando um possível efeito sinergético entre a amina e o oxiânion no sentido de dificultar a adsorção dos íons cloreto. / Alloy 800 is used for tubing in the steam generator (SG) at Pressurized Water Reactors (PWR). These pipes are supported by plates. The literature reports the occurrence of crevice corrosion failures on the tubes in the regions where they are in contact to the supporting plates, which has been attributed to the accumulation of chloride (Cl-) and thiosulfate (S2O32-). In order to minimize this problem, corrosion inhibitors are added to the feed water. Despite crevice corrosion be the main focus of the literature, the mechanisms behind the joint effect of both aggressive ions on the localized corrosion resistance of superalloys in the presence of inhibitors have been scarcely investigated. Therefore, the present study used electrochemical and surface characterization techniques in order to study the effect of S2O32- presence in different concentrations and the addition of 10-6M of ethanolamine (ETA) corrosion inhibitor on the pitting corrosion resistance of Alloy 800 in 0.3M NaCl solution. The electrochemical impedance spectroscopy (EIS) tests performed at open circuit potential (OCP) showed, for all conditions applied, that the alloy maintains its passivity, which is enhanced as the [Cl-/S2O32-] ratio decreases as well as the immersion time. For this condition, the XPS analyses showed that Cl- ions interact weakly with the passive layer when they are the sole aggressive species in the medium and that thiosulfate may be reduced on the passive film of Alloy 800, both factors may explain the improvement of impedance response with the immersion time. EIS diagrams fitting with electrical equivalent circuits (EEC) pointed to S2O32- adsorption at the alloy surface, and indicated that these ions may control the high frequency impedance response when added at concentrations equivalent to that of chloride ions. Anodic polarization experiments showed that Alloy 800 is not susceptible to localized corrosion in the presence of only S2O32-, but exhibits pitting corrosion in 0.3M NaCl, showing, although, repassivation properties. On the other hand, in the medium containing both anions the electrochemical behavior is controlled by [Cl-/S2O32-] ratio. Thus, for a high ratio, chlorides breakdown the film and thiosulfate stabilize the metastable pits, reducing the breakdown potential and preventing the repassivation of the electrode. However, for a low ratio, the oxyanion acts as inhibitors, preventing the detrimental effect of Cl- on the passive layer. SEM characterization showed that, whenever it occurred, pitting corrosion starts at TiN second phase particles, and that the presence of thiosulfate enhances the aggressiveness of the localized attack, forming larger and deeper pits, but in a lesser quantity, probably due to the formation of metallic sulphides in regions submitted to the localized attack. On the OCP, the addition of 10-6M of ETA to the medium containing 0.3M NaCl with and without 0.075M S2O32- caused shifts on the corrosion potential and decreased the alloy impedance modulus. The XPS analyses showed the adsorption of ETA on the electrode surface and that it also enhances the thiosulfate adsorption. On the other hand, fitting of the EIS diagrams with EEC indicated the occurrence of diffusion-controlled processes within the passive layer. In agreement with the impedance experiments, the anodic polarization curves showed higher passive current values in the presence of inhibitor. With regard to pitting corrosion, the addition of 10-6M of ETA did not inhibit the breakdown of the passive film in the solution containing only chloride ions and also prevented the repassivation process, leading to the formation of larger and deeper pits. However, in the presence of Cl- and S2O32- (low concentration) the inhibition of the passive layer breakdown occurred, indicating a possible synergistic effect between the amine and the oxyanion in order to hindering the adsorption of chloride ions.

Alloy 800

Chloride

Cloreto

Corrosão

Etanolamina

Ethanolamine

Gerador de vapor

Incoloy 800

Inibidores de corrosão

Pitting corrosion

Steam generator

Thiosulfate

Tiossulfato

Mechanistic Study of Under Deposit Corrosion of Mild Steel in Aqueous Carbon Dioxide Solution

Huang, Jin

January 2013

No description available.

Chemical Engineering

CO2 Corrosion

pipeline

under deposit

silica sand

mechanisms

localized corrosion

pitting

corrosion inhibitor

imidazoline

thiosulfate

The initial phase of sodium sulfite pulping of softwood : A comparison of different pulping options

Deshpande, Raghu

January 2016

Single stage and two-stage sodium sulfite cooking were carried out on either spruce, pine or pure pine heartwood chips to investigate the influence of several process parameters on the initial phase of such a cook down to about 60 % pulp yield. The cooking experiments were carried out in the laboratory with either a lab-prepared or a mill-prepared cooking acid and the temperature and time were varied. The influences of dissolved organic and inorganic components in the cooking liquor on the final pulp composition and on the extent of side reactions were investigated. Kinetic equations were developed and the activation energies for delignification and carbohydrate dissolution were calculated using the Arrhenius equation. A better understanding of the delignification mechanisms during bisulfite and acid sulfite cooking was obtained by analyzing the lignin carbohydrate complexes (LCC) present in the pulp when different cooking conditions were used. It was found that using a mill-prepared cooking acid beneficial effect with respect to side reactions, extractives removal and higher stability in pH during the cook were observed compared to a lab-prepared cooking acid. However, no significant difference in degrees of delignification or carbohydrate degradation was seen.  The cellulose yield was not affected in the initial phase of the cook however; temperature had an influence on the rates of both delignification and hemicellulose removal. It was also found that the  corresponding activation energies increased in the order:  xylan, glucomannan, lignin and cellulose. The cooking temperature could thus be used to control the cook to a given carbohydrate composition in the final pulp. Lignin condensation reactions were observed during acid sulfite cooking, especially at higher temperatures. The LCC studies indicated the existence of covalent bonds between lignin and hemicellulose components with respect to xylan and glucomannan. LCC in native wood showed the presence of phenyl glycosides, ϒ-esters and α-ethers; whereas the α-ethers  were affected during sulfite pulping. The existence of covalent bonds between lignin and wood polysaccharides might be the rate-limiting factor in sulfite pulping. / The sulfite pulping process is today practised in only a small number of pulp mills around the globe and the number of sulfite mills that use sodium as the base (cation) is less than five. However, due to the increasing interest in the wood based biorefinery concept, the benefits of sulfite pulping and especially the sodium based variety, has recently gained a lot of interest. It was therefore considered to be of high importance to further study the sodium based sulfite process to investigate if its benefits could be better utilized in the future in the production of dissolving pulps. Of specific interest was to investigate how the pulping conditions in the initial part of the cook (≥ 60 % pulp yield) should be performed in the best way. Thus, this thesis is focused on the initial phase of sodium based single stage bisulfite, acid sulfite and two-stage sulfite cooking of either 100 % spruce, 100 % pine or 100 % pine heartwood chips. The cooking experiments were carried out with either a lab prepared or a mill prepared cooking acid and the temperature and cooking time were varied. Activation energies for different wood components were investigated as well as side reactions concerning the formation of thiosulfate. LCC (Lignin carbohydrates complexes) studies were carried out to investigate the influence of different cooking conditions on lignin carbohydrate linkages.

Activation energy

acid sulfite pulping

bisulfite pulping

cellulose

delignification

dissolving pulp

extractives

glucomannan

hemicelluloses

lignin

lignin condensation

lignin carbohydrate complexes

pine

spruce

thiosulfate

total SO2

xylan

Associated Sulfide Minerals in Thiosulfate Leaching of Gold: Problems and Solutions

Xia, Chen

01 April 2010

The effects of some associated minerals on thiosulfate gold leaching were studied through thermodynamic analysis and leaching experiments on composite ore samples containing various minerals and a reference silicate gold ore. In the leaching test on the reference gold ore, about 93% of gold was extracted within 3.0 hours. The presence of various amount of pyrite, pyrrhotite, chalcopyrite, arsenopyrite, chalcocite, bornite, and some lead species, has significant detrimental effects. Under reduced oxygen conditions, the thiosulfate consumptions could be significantly reduced. High gold extractions (i.e. >= 90%) were observed in the leaching tests with reduced dissolved oxygen (i.e., 0.7% oxygen in the supplied gas) in the absence or in the presence of sulfide minerals such as pyrite, pyrrhotite, arsenopyrite and chalcopyrite. High copper concentration and a pre-aeration step was also found to largely increase the gold extractions under such conditions. Thiosulfate-copper-ethylenediamine system was found effective in the leaching of gold. The leaching kinetics was significantly slower than that of the conventional thiosulfate-copper-ammonia leaching. The consumption of thiosulfate, however, was largely reduced. This leaching system worked effectively on the reference gold ore within a wider pH range (e.g., 6-11), with or without ammonia. The presence of ammonia in a low concentration improved the leaching rate but also increase the consumption of thiosulfate. Comparable gold extractions were observed in the leaching of the composite ores containing various sulfide minerals, such as pyrite, pyrrhotite, chalcocite, galena and chalcopyrite. The leaching of gold in the presence of iron sulfides was also improved by applying chemical additives, such as, carbonate, calcium, galena, phosphate, and additional hydroxide anion. It is proposed that these additives either passivated the harmful surface of sulfide minerals or masked some detrimental aqueous species. Finally, some improved leaching methods concluded in this study were applied on a few industrial ore samples in order to demonstrate the effectiveness of these methods. It was found that by comprehensively applying these improved thiosulfate leaching strategies, satisfactory gold extractions and thiosulfate consumption results were archived on these ores. / Thesis (Ph.D, Mining Engineering) -- Queen's University, 2008-09-18 11:48:38.672

thiosulfate

gold

ammonia

copper

ethylenediamine

phosphate

pyrite

pyrrhotite

arsenopyrite

chalcopyrite

chalcocite

bornite

galena

lead

Eh-pH

Oxygen

Extraction

Leaching

Pre-aeration

Passivation

New Anions In The Assembly Of The Open-Framework Compounds : Synthesis, Structure And Properties

Paul, Avijit Kumar

07 1900

Open-framework inorganic materials constitute an important area of study in materials chemistry, because of their potential applications in areas such as sorption and catalysis. After the discovery of nanoporous aluminium phosphates (AlPOs) by Flanigen et al in 1982, there has been a tremendous growth in the area of porous solids that are based on phosphates. Apart from phosphates, phosphites, arsenates, sulfates, sulfites, selenates, selenites etc. have also been investigated. In addition to the different anions, the framework compounds now encompass almost all the elements of the periodic table. The compounds exhibit wide variety and structural diversity. New building units, such as thiosulfate and borate have also been explored as a network builder in the formation of framework structures. In this thesis, the results of the investigations on open-framework metal thiosulfates, metal borates and metal sulfates are presented. The studies are aimed not only at the synthesis of the new compounds based on the new anions, but also their possible applications. In Chapter 1 of the thesis an overview of inorganic open-framework materials with different anions is presented. In Chapter 2 (Part A), the synthesis, structure and transformation of inorganic-organic hybrid open-framework cadmium thiosulfate are presented. The lack of stability of the thiosulfate ion in solution prompted the exploration of new approaches such as low temperature solvothermal methods, use of rigid linkers etc. The transformations of lower to higher dimensional structures have been accomplished. The possible mechanisms for such transformations were investigated. In Part B, the physical and chemical properties of the hybrid cadmium thiosulfate frameworks are presented. The studies indicate that the anionic dyes selectively adsorb on the compounds in the water medium and also desorb reasonably in alcoholic medium. The cadmium thiosulfate compounds appear to be reasonable photocalysts for the photodecomposition of the cationic dyes under UV irradiation as well as under sunlight with good recyclability. The compounds also exhibit heterogeneous catalytic behavior (Lewis acidity) for the cyanosilylation of the imines. In Chapter 3, a new family of organically templated open-framework borate materials is presented. The zinc and aluminoborate structures, prepared in the present study, are rationalized using the HSAB theory. The [B4O9H2] units polymerize differently to form different zinc borate structures. The amine molecules act as a ligand by binding with the metal. The nature of the amine appears to control the dimensionality of the final zinc borate structures. The zinc borate compounds exhibit absorption of UV-light (λ = 365 nm) suggesting that the zinc borate compounds could be exploited for UV-blocking applications. Organically templated aluminoborates have connectivities between the Al3+ ions and the [B5O10] cyclic pentaborate units. The aluminoborate structures exhibit graphite layer and three-dimensional diamond structure. Detailed studies and comparison of the various amine templated open-framework aluminoborate structures reveals subtle relationships between the organic amines (shape and length of the amines) and the final framework structures. In Chapter 3, the synthesis, structure and catalytic studies of a variety of cadmium sulfate phases have been carried out. Polyazaheterocyclic ligands were employed to study their possible role in the formation of such structures. All the compounds have structures built up by the connectivity involving the cadmium octahedra and the sulfate tetrahedra in which the heterocyclic organic molecules act as the ligand. The connectivity between the Cd2+ and (SO4)2− ions form one-, two-and three-dimensionally extended cadmium sulfate phases, though the starting source is cadmium sulfate (CdSO4.8/3H2O) in all the cases. The connectivity between Cd2+ ion and the heterocyclic ligand also gives rise to one-and two-dimensional structures. The interconnectivity between the two units gives rise to the final observed structure. As part of the study, a variety of properties i.e. adsorption-desorption, photocatalytic degradation and cyanosilylation reaction, exhibited by the cadmium sulfate compounds have been investigated and the properties are comparable to the cadmium thiosulfate phases. AlPOs are well known for their many important properties. The wide varieties in their structures and heterogeneous catalytic properties have been extensively investigated. The photocatalytic behaviors, on the contrary, have not been investigated in detail. The photocatalytic properties of the metal-doped AlPOs, for the photodegrdation of organic dyes have been investigated in the Chapter 5. The metal ions (Mg2+, Zn2+ and Co2+) have been substituted in place of Al3+ and Ti4+ in place of both the Al3+ and P5+ in a variety in AlPO structures and the synthesized phases are characterized by a variety of techniques. Photodecomposition studies of organic dye molecules under UV-light were carried out in aqueous medium. The studies suggest that the photocatalytic activity is reasonable and appears to depend on the dopant concentration. Ti-substituted phase exhibits the maximum catalytic activity.

Ion Exchange

Anions (Chemistry)

Open-Framework Compounds

Open-Framework Metal Thiosulfates

Open-Framework Metal Borates

Open-Framework Metal Sulfates

Cadmium Thiosulfate compounds

Zinc Borate

Cadmium Sulfate Frameworks

Open-Framework Materials

Aluminoborates

Aluminophosphates

Aluminium Phosphates

Electrochemistry

Chemistry and Corrosion Mechanisms of Steels Embedded in High-density Slag Concrete for Storage of Used Nuclear Fuel

Nadarajah, Parthiban

15 December 2011

The chemistry and corrosion mechanisms associated with reduced sulfur compounds such as calcium sulfide, present in ground granulated blast-furnace slag (GGBFS), have been studied in high-density concrete, mortar and simulated pore-water environments. The high-density concrete and mortar samples were produced to replicate the high-density GGBFS concrete, in the dry storage containers (DSCs), used for radiation shielding from used nuclear fuel. Electrochemical measurements on embedded steel electrodes in high-density GGBFS concrete and mortar samples, showed that sulfide is capable of consuming oxygen to create a stable, reducing environment, though not in all cases, and the high-frequency electrolyte resistance increases with hydration time. Ion chromatography on simulated pore-water environments determined that thiosulfate is quite kinetically stable as a sulfide oxidation product and magnetite is capable of oxidizing sulfide. Microscopy has also been used to provide visual evidence of GGBFS hydration and elemental quantification of the hydrating microstructure in different environments.

nuclear

corrosion

used fuel

chemical engineering

concrete

slag

nuclear waste management

steel

sulfide

thiosulfate

cement

GGBFS

steel corrosion

radioactive waste

ion chromatography

electrochemistry

microscopy

impedance

OPC

mortar

sulfate

magnetite

hematite

aggregates

0542

0543

0552

0794

Chemistry and Corrosion Mechanisms of Steels Embedded in High-density Slag Concrete for Storage of Used Nuclear Fuel

Nadarajah, Parthiban

15 December 2011

The chemistry and corrosion mechanisms associated with reduced sulfur compounds such as calcium sulfide, present in ground granulated blast-furnace slag (GGBFS), have been studied in high-density concrete, mortar and simulated pore-water environments. The high-density concrete and mortar samples were produced to replicate the high-density GGBFS concrete, in the dry storage containers (DSCs), used for radiation shielding from used nuclear fuel. Electrochemical measurements on embedded steel electrodes in high-density GGBFS concrete and mortar samples, showed that sulfide is capable of consuming oxygen to create a stable, reducing environment, though not in all cases, and the high-frequency electrolyte resistance increases with hydration time. Ion chromatography on simulated pore-water environments determined that thiosulfate is quite kinetically stable as a sulfide oxidation product and magnetite is capable of oxidizing sulfide. Microscopy has also been used to provide visual evidence of GGBFS hydration and elemental quantification of the hydrating microstructure in different environments.

nuclear

corrosion

used fuel

chemical engineering

concrete

slag

nuclear waste management

steel

sulfide

thiosulfate

cement

GGBFS

steel corrosion

radioactive waste

ion chromatography

electrochemistry

microscopy

impedance

OPC

mortar

sulfate

magnetite

hematite

aggregates

0542

0543

0552

0794

Investigação de mecanismos fisiopatológicos de erros inatos do metabolismo do enxofre em cérebro de ratos e fibroblastos humanos e potenciais estratégias terapêuticas

Grings, Mateus

January 2018

O sulfito e o tiossulfato encontram-se acumulados na deficiência da sulfito oxidase (SO), ao passo que o tiossulfato também se acumula na deficiência da proteína da encefalopatia etilmalônica 1 (ETHE1). Os pacientes apresentam principalmente encefalopatia progressiva e convulsões neonatais graves, resultando geralmente em morte prematura. Neste estudo, investigamos os efeitos in vivo do sulfito em estruturas encefálicas de ratos com deficiência da SO, e da administração intraestriatal de sulfito e tiossulfato em ratos normais sobre a homeostase redox e mitocondrial. Também avaliamos alterações nesses parâmetros em fibroblastos de pacientes. Inicialmente, observamos que o sulfito diminuiu os níveis de GSH e as atividades da glutationa redutase (GR) e glutationa S-transferase (GST) no córtex cerebral, e da GST no cerebelo de animais deficientes para a SO. Além disso, o sulfito aumentou as atividades dos complexos II e II-III em estriado e do complexo II no hipocampo, mas diminuiu a atividade do complexo IV no estriado de animais com deficiência da SO. Nesses animais, o sulfito também reduziu o potencial de membrana mitocondrial no córtex cerebral e no estriado, além de diminuir as atividades da malato e glutamato desidrogenase. Já nos animais que receberam injeção intraestriatal de sulfito ou tiossulfato, ambos os compostos diminuíram as atividades da creatina cinase e da citrato sintase, enquanto que o sulfito reduziu a massa mitocondrial. O sulfito ainda diminuiu os níveis de GSH e as atividades da glutationa peroxidase (GPx), GR, GST e glicose-6-fosfato desidrogenase (G6PDH), enquanto que o sulfito e o tiossulfato aumentaram a atividade da catalase. O sulfito também diminui os níveis nucleares de PGC-1α e induziu reatividade glial e dano neuronal. As alterações causadas pelo sulfito foram prevenidas pelo tratamento com bezafibrato. Por fim, nos estudos realizados em fibroblastos, utilizamos células de quatro pacientes com deficiência da ETHE1 e de um paciente com deficiência da SO. Observamos diminuição da respiração mitocondrial em todos os tipos celulares, e diminuição de ATP em duas linhagens com deficiência da ETHE1 e na linhagem com deficiência da SO. Também verificamos alterações variáveis no conteúdo de proteínas de dinâmica mitocondrial, e uma diminuição do conteúdo de proteínas envolvidas na comunicação entre retículo endoplasmático (RE) e mitocôndria. Um aumento nos níveis de DDIT3, marcadora de estresse de RE, na produção de superóxido e apoptose também foram verificados em todos os tipos celulares. O tratamento com JP4-039, um antioxidante mitocondrial, diminuiu os níveis de superóxido em todas as linhagens celulares e aumentou a respiração mitocondrial em duas linhagens com deficiência da ETHE1 e na linhagem com deficiência da SO. Os achados deste trabalho evidenciam que alterações na homeostase energética e redox, na biogênese e dinâmica mitocondrial, bem como na comunicação entre mitocôndria e RE são mecanismos patológicos envolvidos nas deficiências da SO e da ETHE1. Além disso, visto que o bezafibrato e o JP4-039 exerceram efeitos protetores nos diferentes modelos, pode ser sugerido que esses compostos são promissores para o desenvolvimento de novas estratégias terapêuticas para as deficiências da SO e da ETHE1. / Sulfite and thiosulfate are accumulated in tissues of patients affected by sulfite oxidase (SO) deficiency, whereas thiosulfate also accumulates in the deficiency of ethylmalonic encephalopathy protein 1 (ETHE1). Patients present progressive encephalopathy and severe neonatal seizures, often resulting in early childhood death. In this study, we investigated the effects of sulfite in encephalic structures of SO-deficient rats, and of an intrastriatal injection of sulfite or thiosulfate in normal rats on redox and mitochondrial homeostasis. We also investigated possible alterations in these parameters in fibroblasts of patients. Initially, we observed that sulfite decreased reduced glutathione (GSH) levels and the activities of glutathione reductase (GR) and glutathione S-transferase (GST) in cerebral cortex, and of GST in cerebellum of SO deficient rats. Moreover, sulfite increased the activities of the respiratory chain complexes II and II-III in striatum and of complex II in hippocampus, whereas complex IV activity was decreased in striatum of SO deficient animals. In these animals, sulfite also reduced mitochondrial membrane potential in the cerebral cortex and in the striatum, as well as inhibited the activities of malate and glutamate dehydrogenase in cerebral cortex. Regarding the rats that received sulfite or thiosulfate via intrastriatal injection, both compounds reduced creatine kinase and citrate synthase activities, while sulfite decreased mitochondrial mass. Sulfite also decreased GSH levels and the activities of glutathione peroxidase (GPx), GR, GST, glucose-6-phosphate dehydrogenase (G6PDH), whereas both sulfite and thiosulfate increased catalase activity. In addition, sulfite decreased PGC-1α nuclear levels and induced glial reactivity and neuronal damage. Bezafibrate prevented the alterations induced by sulfite in striatum. Finally, in the experiments with fibroblasts, we used four cell lines with ETHE1 deficiency and one cell line with SO deficiency. We observed a decrease in basal and maximal respiration in all cell lines, and ATP depletion in two ETHE1 deficient cell lines and in the SO deficient fibroblasts. We also verified variable alterations in the content of proteins involved in mitochondrial dynamics, and a decrease in the content of proteins involved in endoplasmic reticulum (ER)-mitochondria communication. Increased content of DDIT3, an ER stress marker, as well as high levels of superoxide and apoptosis induction were further seen in all cell lines. Treatment with the mitochondria-targeted free radical scavenger JP4-039 decreased superoxide levels in all cells lines and increased basal and maximal respiration in two ETHE1 deficient cell lines and in the SO deficient cells. Our findings provide evidence that alterations in energy and redox homeostasis, mitochondrial biogenesis and dynamics, as well as in the communication between mitochondria and ER are pathological mechanisms involved in the SO and ETHE1 deficiencies. Furthermore, since bezafibrate and JP4-039 exerted protective effects, it may be suggested that these compounds are attractive agents for the development of new therapeutic strategies aiming to improve the prognosis of patients affected by SO and ETHE1 deficiency.

Erros inatos do metabolismo

Sistema nervoso central

Encefalopatias metabólicas congênitas

Sulfitos

Sulfito oxidase : Deficiência

Tiossulfatos

Metabolismo energetico

Homeostase

Mitocôndrias

Bezafibrato

Sulfite oxidase deficiency

Mitochondrial function

Redox homeostasis

Brain

Thiosulfate

Sulfite

ETHE1 deficiency

Investigação de mecanismos fisiopatológicos de erros inatos do metabolismo do enxofre em cérebro de ratos e fibroblastos humanos e potenciais estratégias terapêuticas

Grings, Mateus

January 2018

O sulfito e o tiossulfato encontram-se acumulados na deficiência da sulfito oxidase (SO), ao passo que o tiossulfato também se acumula na deficiência da proteína da encefalopatia etilmalônica 1 (ETHE1). Os pacientes apresentam principalmente encefalopatia progressiva e convulsões neonatais graves, resultando geralmente em morte prematura. Neste estudo, investigamos os efeitos in vivo do sulfito em estruturas encefálicas de ratos com deficiência da SO, e da administração intraestriatal de sulfito e tiossulfato em ratos normais sobre a homeostase redox e mitocondrial. Também avaliamos alterações nesses parâmetros em fibroblastos de pacientes. Inicialmente, observamos que o sulfito diminuiu os níveis de GSH e as atividades da glutationa redutase (GR) e glutationa S-transferase (GST) no córtex cerebral, e da GST no cerebelo de animais deficientes para a SO. Além disso, o sulfito aumentou as atividades dos complexos II e II-III em estriado e do complexo II no hipocampo, mas diminuiu a atividade do complexo IV no estriado de animais com deficiência da SO. Nesses animais, o sulfito também reduziu o potencial de membrana mitocondrial no córtex cerebral e no estriado, além de diminuir as atividades da malato e glutamato desidrogenase. Já nos animais que receberam injeção intraestriatal de sulfito ou tiossulfato, ambos os compostos diminuíram as atividades da creatina cinase e da citrato sintase, enquanto que o sulfito reduziu a massa mitocondrial. O sulfito ainda diminuiu os níveis de GSH e as atividades da glutationa peroxidase (GPx), GR, GST e glicose-6-fosfato desidrogenase (G6PDH), enquanto que o sulfito e o tiossulfato aumentaram a atividade da catalase. O sulfito também diminui os níveis nucleares de PGC-1α e induziu reatividade glial e dano neuronal. As alterações causadas pelo sulfito foram prevenidas pelo tratamento com bezafibrato. Por fim, nos estudos realizados em fibroblastos, utilizamos células de quatro pacientes com deficiência da ETHE1 e de um paciente com deficiência da SO. Observamos diminuição da respiração mitocondrial em todos os tipos celulares, e diminuição de ATP em duas linhagens com deficiência da ETHE1 e na linhagem com deficiência da SO. Também verificamos alterações variáveis no conteúdo de proteínas de dinâmica mitocondrial, e uma diminuição do conteúdo de proteínas envolvidas na comunicação entre retículo endoplasmático (RE) e mitocôndria. Um aumento nos níveis de DDIT3, marcadora de estresse de RE, na produção de superóxido e apoptose também foram verificados em todos os tipos celulares. O tratamento com JP4-039, um antioxidante mitocondrial, diminuiu os níveis de superóxido em todas as linhagens celulares e aumentou a respiração mitocondrial em duas linhagens com deficiência da ETHE1 e na linhagem com deficiência da SO. Os achados deste trabalho evidenciam que alterações na homeostase energética e redox, na biogênese e dinâmica mitocondrial, bem como na comunicação entre mitocôndria e RE são mecanismos patológicos envolvidos nas deficiências da SO e da ETHE1. Além disso, visto que o bezafibrato e o JP4-039 exerceram efeitos protetores nos diferentes modelos, pode ser sugerido que esses compostos são promissores para o desenvolvimento de novas estratégias terapêuticas para as deficiências da SO e da ETHE1. / Sulfite and thiosulfate are accumulated in tissues of patients affected by sulfite oxidase (SO) deficiency, whereas thiosulfate also accumulates in the deficiency of ethylmalonic encephalopathy protein 1 (ETHE1). Patients present progressive encephalopathy and severe neonatal seizures, often resulting in early childhood death. In this study, we investigated the effects of sulfite in encephalic structures of SO-deficient rats, and of an intrastriatal injection of sulfite or thiosulfate in normal rats on redox and mitochondrial homeostasis. We also investigated possible alterations in these parameters in fibroblasts of patients. Initially, we observed that sulfite decreased reduced glutathione (GSH) levels and the activities of glutathione reductase (GR) and glutathione S-transferase (GST) in cerebral cortex, and of GST in cerebellum of SO deficient rats. Moreover, sulfite increased the activities of the respiratory chain complexes II and II-III in striatum and of complex II in hippocampus, whereas complex IV activity was decreased in striatum of SO deficient animals. In these animals, sulfite also reduced mitochondrial membrane potential in the cerebral cortex and in the striatum, as well as inhibited the activities of malate and glutamate dehydrogenase in cerebral cortex. Regarding the rats that received sulfite or thiosulfate via intrastriatal injection, both compounds reduced creatine kinase and citrate synthase activities, while sulfite decreased mitochondrial mass. Sulfite also decreased GSH levels and the activities of glutathione peroxidase (GPx), GR, GST, glucose-6-phosphate dehydrogenase (G6PDH), whereas both sulfite and thiosulfate increased catalase activity. In addition, sulfite decreased PGC-1α nuclear levels and induced glial reactivity and neuronal damage. Bezafibrate prevented the alterations induced by sulfite in striatum. Finally, in the experiments with fibroblasts, we used four cell lines with ETHE1 deficiency and one cell line with SO deficiency. We observed a decrease in basal and maximal respiration in all cell lines, and ATP depletion in two ETHE1 deficient cell lines and in the SO deficient fibroblasts. We also verified variable alterations in the content of proteins involved in mitochondrial dynamics, and a decrease in the content of proteins involved in endoplasmic reticulum (ER)-mitochondria communication. Increased content of DDIT3, an ER stress marker, as well as high levels of superoxide and apoptosis induction were further seen in all cell lines. Treatment with the mitochondria-targeted free radical scavenger JP4-039 decreased superoxide levels in all cells lines and increased basal and maximal respiration in two ETHE1 deficient cell lines and in the SO deficient cells. Our findings provide evidence that alterations in energy and redox homeostasis, mitochondrial biogenesis and dynamics, as well as in the communication between mitochondria and ER are pathological mechanisms involved in the SO and ETHE1 deficiencies. Furthermore, since bezafibrate and JP4-039 exerted protective effects, it may be suggested that these compounds are attractive agents for the development of new therapeutic strategies aiming to improve the prognosis of patients affected by SO and ETHE1 deficiency.

Erros inatos do metabolismo

Sistema nervoso central

Encefalopatias metabólicas congênitas

Sulfitos

Sulfito oxidase : Deficiência

Tiossulfatos

Metabolismo energetico

Homeostase

Mitocôndrias

Bezafibrato

Sulfite oxidase deficiency

Mitochondrial function

Redox homeostasis

Brain

Thiosulfate

Sulfite

ETHE1 deficiency

Investigação de mecanismos fisiopatológicos de erros inatos do metabolismo do enxofre em cérebro de ratos e fibroblastos humanos e potenciais estratégias terapêuticas

Grings, Mateus

January 2018

O sulfito e o tiossulfato encontram-se acumulados na deficiência da sulfito oxidase (SO), ao passo que o tiossulfato também se acumula na deficiência da proteína da encefalopatia etilmalônica 1 (ETHE1). Os pacientes apresentam principalmente encefalopatia progressiva e convulsões neonatais graves, resultando geralmente em morte prematura. Neste estudo, investigamos os efeitos in vivo do sulfito em estruturas encefálicas de ratos com deficiência da SO, e da administração intraestriatal de sulfito e tiossulfato em ratos normais sobre a homeostase redox e mitocondrial. Também avaliamos alterações nesses parâmetros em fibroblastos de pacientes. Inicialmente, observamos que o sulfito diminuiu os níveis de GSH e as atividades da glutationa redutase (GR) e glutationa S-transferase (GST) no córtex cerebral, e da GST no cerebelo de animais deficientes para a SO. Além disso, o sulfito aumentou as atividades dos complexos II e II-III em estriado e do complexo II no hipocampo, mas diminuiu a atividade do complexo IV no estriado de animais com deficiência da SO. Nesses animais, o sulfito também reduziu o potencial de membrana mitocondrial no córtex cerebral e no estriado, além de diminuir as atividades da malato e glutamato desidrogenase. Já nos animais que receberam injeção intraestriatal de sulfito ou tiossulfato, ambos os compostos diminuíram as atividades da creatina cinase e da citrato sintase, enquanto que o sulfito reduziu a massa mitocondrial. O sulfito ainda diminuiu os níveis de GSH e as atividades da glutationa peroxidase (GPx), GR, GST e glicose-6-fosfato desidrogenase (G6PDH), enquanto que o sulfito e o tiossulfato aumentaram a atividade da catalase. O sulfito também diminui os níveis nucleares de PGC-1α e induziu reatividade glial e dano neuronal. As alterações causadas pelo sulfito foram prevenidas pelo tratamento com bezafibrato. Por fim, nos estudos realizados em fibroblastos, utilizamos células de quatro pacientes com deficiência da ETHE1 e de um paciente com deficiência da SO. Observamos diminuição da respiração mitocondrial em todos os tipos celulares, e diminuição de ATP em duas linhagens com deficiência da ETHE1 e na linhagem com deficiência da SO. Também verificamos alterações variáveis no conteúdo de proteínas de dinâmica mitocondrial, e uma diminuição do conteúdo de proteínas envolvidas na comunicação entre retículo endoplasmático (RE) e mitocôndria. Um aumento nos níveis de DDIT3, marcadora de estresse de RE, na produção de superóxido e apoptose também foram verificados em todos os tipos celulares. O tratamento com JP4-039, um antioxidante mitocondrial, diminuiu os níveis de superóxido em todas as linhagens celulares e aumentou a respiração mitocondrial em duas linhagens com deficiência da ETHE1 e na linhagem com deficiência da SO. Os achados deste trabalho evidenciam que alterações na homeostase energética e redox, na biogênese e dinâmica mitocondrial, bem como na comunicação entre mitocôndria e RE são mecanismos patológicos envolvidos nas deficiências da SO e da ETHE1. Além disso, visto que o bezafibrato e o JP4-039 exerceram efeitos protetores nos diferentes modelos, pode ser sugerido que esses compostos são promissores para o desenvolvimento de novas estratégias terapêuticas para as deficiências da SO e da ETHE1. / Sulfite and thiosulfate are accumulated in tissues of patients affected by sulfite oxidase (SO) deficiency, whereas thiosulfate also accumulates in the deficiency of ethylmalonic encephalopathy protein 1 (ETHE1). Patients present progressive encephalopathy and severe neonatal seizures, often resulting in early childhood death. In this study, we investigated the effects of sulfite in encephalic structures of SO-deficient rats, and of an intrastriatal injection of sulfite or thiosulfate in normal rats on redox and mitochondrial homeostasis. We also investigated possible alterations in these parameters in fibroblasts of patients. Initially, we observed that sulfite decreased reduced glutathione (GSH) levels and the activities of glutathione reductase (GR) and glutathione S-transferase (GST) in cerebral cortex, and of GST in cerebellum of SO deficient rats. Moreover, sulfite increased the activities of the respiratory chain complexes II and II-III in striatum and of complex II in hippocampus, whereas complex IV activity was decreased in striatum of SO deficient animals. In these animals, sulfite also reduced mitochondrial membrane potential in the cerebral cortex and in the striatum, as well as inhibited the activities of malate and glutamate dehydrogenase in cerebral cortex. Regarding the rats that received sulfite or thiosulfate via intrastriatal injection, both compounds reduced creatine kinase and citrate synthase activities, while sulfite decreased mitochondrial mass. Sulfite also decreased GSH levels and the activities of glutathione peroxidase (GPx), GR, GST, glucose-6-phosphate dehydrogenase (G6PDH), whereas both sulfite and thiosulfate increased catalase activity. In addition, sulfite decreased PGC-1α nuclear levels and induced glial reactivity and neuronal damage. Bezafibrate prevented the alterations induced by sulfite in striatum. Finally, in the experiments with fibroblasts, we used four cell lines with ETHE1 deficiency and one cell line with SO deficiency. We observed a decrease in basal and maximal respiration in all cell lines, and ATP depletion in two ETHE1 deficient cell lines and in the SO deficient fibroblasts. We also verified variable alterations in the content of proteins involved in mitochondrial dynamics, and a decrease in the content of proteins involved in endoplasmic reticulum (ER)-mitochondria communication. Increased content of DDIT3, an ER stress marker, as well as high levels of superoxide and apoptosis induction were further seen in all cell lines. Treatment with the mitochondria-targeted free radical scavenger JP4-039 decreased superoxide levels in all cells lines and increased basal and maximal respiration in two ETHE1 deficient cell lines and in the SO deficient cells. Our findings provide evidence that alterations in energy and redox homeostasis, mitochondrial biogenesis and dynamics, as well as in the communication between mitochondria and ER are pathological mechanisms involved in the SO and ETHE1 deficiencies. Furthermore, since bezafibrate and JP4-039 exerted protective effects, it may be suggested that these compounds are attractive agents for the development of new therapeutic strategies aiming to improve the prognosis of patients affected by SO and ETHE1 deficiency.

Erros inatos do metabolismo

Sistema nervoso central

Encefalopatias metabólicas congênitas

Sulfitos

Sulfito oxidase : Deficiência

Tiossulfatos

Metabolismo energético

Homeostase

Mitocôndrias

Bezafibrato

Sulfite oxidase deficiency

Mitochondrial function

Redox homeostasis

Brain

Thiosulfate

Sulfite

ETHE1 deficiency