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Modulação da ativação de monócitos por lipoxinas / Modulation of monocytes activation by lipoxinsAmanda Regina da Fé 05 March 2009 (has links)
Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / Lipoxinas (LXs) são metabólitos do ácido araquidônico com reconhecidas atividades antiinflamatórias e pró-resolução. Apesar do grande número de trabalhos publicados descrevendo o papel das LXs e seus análogos em leucócitos e outros tipos celulares envolvidos em doenças inflamatórias, pouco é sabido a respeito dos mecanismos de ação que desencadeiam estas respostas. Neste trabalho investigamos o papel do 15-epi-16-(para-flúor)-fenoxi-lipoxina A4 (ATL-1), um análogo sintético da 15-epi-lipoxina A4, sobre diversos processos de ativação de monócitos. Caracterizamos, pela primeira vez, o receptor da lipoxina A4 (ALX) na linhagem monocítica U937, através da avaliação de sua expressão gênica e protéica e de sua funcionalidade analisando a ativação de ERK-2, o que torna esta célula uma ferramenta apta para estudo dos mecanismos de ação das LXs e seus análogos sobre os monócitos. Além disso, demonstramos que o ATL-1 aumenta a expressão da enzima heme oxigenase (HO) -1 em células U937 via ativação da p38 MAP quinase (MAPK) e diminui a secreção da Monocyte chemoattractant protein-1 (MCP-1), uma quimiocina envolvida com o recrutamento de monócitos para o foco inflamatório, em células U937 estimuladas com LPS. A inibição da secreção de MCP-1 foi revertida pela utilização do SB203580, sugerindo que este efeito é dependente da ativação da via p38 MAPK. O presente estudo elucida alguns dos mecanismos envolvidos na ativação de monócitos pelas lipoxinas que podem levar a novas abordagens para o controle de diversas doenças nas quais o componente inflamatório é importante / Lipoxins (LXs) are arachidonic acid metabolites with well recognized anti-inflammatory and pro-resolution activities. Despite the large number of studies describing the role of LXs and their analogs in leukocytes and other cell types involved in inflammatory diseases, little is known about the mechanisms of action that trigger these responses. This work investigated the role of 15-epi-16-(para-fluoro)-phenoxy-lipoxin A4 (ATL-1), a synthetic analog of 15-epi-lipoxin A4 on various processes of monocyte activation. We characterized, for the first time, the lipoxin A4 receptor (ALX) in the monocytic lineage U937, through the assessment of its gene expression and protein and its functionality through the activation of ERK-2, which makes this cell line a suitable tool to study the mechanisms of action of LXs and their analogs on the monocytes. Furthermore, we demonstrated that ATL-1 increases the expression of the enzyme heme oxygenase (HO)-1 in the U937 cells via activation of p38 MAP kinase (MAPK) and decreases the secretion of Monocyte chemoattractant protein-1 (MCP-1), a chemokine involved in the recruitment of monocytes to the inflammatory focus in LPS-stimulated U937 cells. MCP-1 secretion inhibition by ATL-1 was reverted by SB203580 indicating that this effect is dependent on the activation of p38 MAPK pathway. This study clarifies some of the mechanisms involved in the activation of monocytes by lipoxins which may lead to new approaches for the control of different pathologies where the inflammatory component is relevant
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Análise e identificação de produtos do catabolismo de heme nas formas epimastigotas de Trypanosoma cruzi / Analysis and identification of heme catabolism products in Trypanosoma cruzi epimastigotes formsMauricio Cupello Peixoto 19 September 2014 (has links)
O Trypanosoma cruzi, agente etiológico da doença de Chagas, possui um ciclo de vida complexo, deve lidar com diversas condições do ambiente e depende dos hospedeiros para suprir suas necessidades nutricionais. Uma delas é a necessidade de captar a molécula de heme (Fe-protoporfirina IX) que será utilizada como fator de crescimento. Os mecanismos envolvendo o metabolismo de heme são cruciais para a sobrevivência do T. cruzi pois o parasito não possui várias enzimas de biossíntese dessa porfirina e o heme livre pode apresentar citotoxicidade para célula. Na tentativa de perseguir o destino final do heme no parasito, nós estudamos essa via inexplorada no T. cruzi. Nessa tese, nós demonstramos que epimastigotas cultivados com heme, produziram os compostos, α-meso hidroxiheme, verdoheme e biliverdina (identificados por HPLC acoplado á espectrofotômetria). Além disso, nós observamos através de análise dos extratos de epimastigotas no espectrômetro de massas (LQT Orbitrap), espécies iônicas de m/z 583,4 e m/z 619,3. A fragmentação subsequente desses íons originaram espécies filhas típicas das moléculas de biliverdina e verdoheme, respectivamente. Nós observamos também, espécies iônicas de m/z 1397,4 e m/z 1135,4. A fragmentação dessas espécies produziram íons, sendo um deles com a mesma massa molecular de heme (m/z 616,3). Essa espécie iônica por sua vez, gerou fragmentos iônicos idênticos a uma molécula de heme, confirmando que esses intermediários são produtos da modificação da porfirina. Baseado nesses resultados, nós propomos um modelo onde o catabolismo de heme em T. cruzi, envolveria a conjugação da bis(glutationil)spermina, um derivado da tripanotiona presente em tripanossomatídeos, à porfirina (m/z 1137,4), seguido da remoção de dois resíduos de ácidos glutâmicos (m/z 1135,4). Embora o significado bioquímico e fisiológico da adição desse resíduo tiol na molécula de heme ainda é pouco compreendido, alguns trabalhos demonstram a abilidade desses compostos em ligar na porfirina, sem contar também, que esse heme conjugado poderia resultar em uma forma efetiva de prevenção de danos à membrana e a célula ocasionados pelo acúmulo de heme livre. Em conjunto, esses resultados fornecem novas abordagens do metabolismo de heme em T. cruzi, revelando possíveis alvos de intervenção quimioterápica futuros. Nossa proposta está direcionada para uma via ativa de catabolismo de heme que inclui a adição de grupos tiol (derivado da tripanotiona) à heme e a clivagem do anel porfirínico originando a molécula de biliverdina. / Trypanosoma cruzi, the causal agent of Chagas disease, has a complex life cycle and they must cope with diverse environmental conditions and depends on hosts for its nutritional needs. One of the nutritional characteristic is that they need a heme compound (Fe-protoporphyrin IX) as a growth factor. The mechanisms involved in these processes are crucial for their survival mainly because of trypanosomatids lack of the complete heme biosynthetic pathway and the cytotoxic activity of free heme. Following the fate of this porphyrin in the parasite we studied this missing pathway in T. cruzi. Here, we show that epimastigotes cultivated with heme yielded the compounds, α-meso hydroxyheme, verdoheme and biliverdin (as determined by HPLC with diode array detector). Furthermore, we observed ion species of m/z 583.4 and m/z 619.3 from epimastigotes extracts detected by direct infusion on LQT Orbitrap platform. A tipical biliverdin and verdoheme doughter-ion species were generated by m/z 583.4 and m/z 619.3 fragmentations, respectively. We also observed an ion species at m/z 1397.4 and m/z 1135. The subsequent fragmentation of this species produced a daughter-ions whose one with the same molecular mass as heme (m/z 616.4). This species, in turn, generated daughter species identical to an authentic heme, confirming that these intermediates were modified heme products. Based on these findings, we propose that heme catabolism in T. cruzi involves a additions of Bis(glutathionyl)spermine, a low molecular mass thiols occurring in trypanosomatids, to heme (m/z 1397.4), followed by removal of the glutamic residues (m/z 1135). Although the biochemical and physiological significance of the addition of thiol residues to heme molecule is underexplored, some works, already demonstrated their ability to bind heme and also this modified heme may resulting in the effective prevention of membrane damage and cytotoxicity by the heme accumulation. Taken together, these results offer new insights into heme metabolism in T. cruzi, revealing potential future therapeutic targets. We propose an active heme catabolism pathway that includes a trypanotione derivate additions and cleavage of the heme porphyring ring to biliverdin.
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Modulação redox da homeostase de células musculares lisas através de estimuladores do sistema NADPH oxidase / Redox modulation of smooth muscle cells homeostasis via inductors of NADPHoxidase systemJoão Alfredo de Moraes Gomes Silva 09 December 2011 (has links)
Conselho Nacional de Desenvolvimento Científico e Tecnológico / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / As doenças cardiovasculares representam a principal causa de morte nos países ocidentais. Dentre essas doenças, a aterosclerose é que mais se destaca, sendo caracterizada pelo acúmulo de células musculares lisas vasculares (CMLV). O efeito patológico das CMLV em resposta a diferentes estímulos pode acarretar em disfunções nestas células. É notável que a aterosclerose ocorra principalmente em vasos sinuosos onde ocorre um forte turbilhonamento do fluxo sanguíneo, que pode acarretar em hemólise e, consequentemente, acúmulo de heme livre. Além disso, no processo de aterogênese as moléculas de adesão, principalmente integrinas, são de crucial importância durante a resposta de CMLV. Nesse trabalho nosso objetivo inicial foi avaliar o efeito do heme livre nas funções de CMLV, bem como os mecanismos moleculares por trás desses efeitos. Em uma segunda parte, investigamos o envolvimento da integrina α1ß1 no efeito da Angiotensina II (Ang II) em CMLV. Nós observamos que o heme livre é capaz de induzir a proliferação e migração de CMLV via espécies reativas de oxigênio (ERO) provenientes da NADPHoxidase (NADPHox). Adicionalmente vimos que o heme ativa vias de sinalização redox-sensíveis relacionadas à proliferação celular, como MAPKinases e o fator de transcrição NFκB. Também observamos que há uma ligação entre a NADPHox e o sistema heme oxigenase (HO), uma vez que o heme induz a expressão de HO-1 e o pré-tratamento das CMLV com inibidores de HO levam ao aumento tanto o efeito proliferação quanto a indução de ERO promovidas pelo heme. Além disso, vimos que o efeito contra-regulatório promovido pela HO ocorre devido as metabolites do heme: biliverdina, bilirrubina e monóxido de carbono. Por último, quando bloqueamos tanto a NADPHox quanto o sistema HO o heme não teve efeito algum na proliferação de CMLV. Em um segundo estudo, observamos que o efeito da Ang II sobre a migração de CMLV foi inibido quando as células foram pré-tratadas com o ligante da integrina α1ß1, a desintegrina Obtustatina. A seguir observamos que o efeito da Ang II na ativação de FAK e na colocalização actina-ILK é dependente da integrina α1ß1, que possivelmente ativa PKCα, uma vez que vimos que a produção de ERO induzida por Ang II foi inibida pela Obtustatina. Vimos que a indução da expressão de ILK por Ang II em CMLV é dependente da integrina α1ß1 e também observamos que a Obtustatina inibibiu o desacoplamento de ILK da FAK, uma vez que a Obtustatina bloqueou a fosforilação de FAK induzida por Ang II (processo crucial para o desacoplamento da ILK). Nós também observamos que a Ang II induz, via integrina α1ß1, a fosforilação de AKT e a diminuição da expressão de p21, provavelmente via ILK. Corroborando estes dados, nós mostramos que o pré-tratamento com Obtustatina induziu um estacionamento na fase G0 e diminuição da proliferação de CMLV tratadas com Ang II. Portanto, mostramos nesse trabalho que o heme livre induz a ativação de CML via NADPHox, que é elegantemente contra-regulado pelo sistema HO. Além disso, sugerimos que a integrina α1ß1 pode ser um importante alvo molecular para o desenvolvimento de intervenções mais efetivas para a aterosclerose. / Cardiovascular diseases represent the major mortality reason in western countries. Among these diseases, atherosclerosis is the most prominent one, which is characterized by vascular smooth muscle cell (VSMC) accumulation. The pathological effect of VSMC in response to different stimuli is able to induce VSMC dysfunctions. Notably, this cardiovascular disease occurs mainly in sinuous vessels with turbulent blood flow, which may lead to hemolysis and consequent free heme accumulation. Furthermore, in atherogenesis the adhesion molecule, mainly integrins, were of crucial importance during the VSMC response. In this work our aim was to elucidate the effect of free heme in VSMC, as well the molecular mechanisms underlying this process. In a second part, we investigated the role of α1ß1 integrin in Angiotensin II (Ang II) effect on VSMC. We observed that free heme is able to induce VSMC proliferation in a Reactive Oxygen Species (ROS) derived from NADPHoxidase (NADPHox) dependent manner. Additionally, heme activates proliferation-relationed redox-sensitive signaling routes, such as MAPKinases and the transcription factor NFκB. It was also observed a critical crosstalk between NADPHox and heme oxygenase (HO) system, once heme induces HO-1 expression and VSMC pretreatment with HO inhibitors increased heme proliferative effect and ROS production. Accordingly, we observed that the counter-regulatory effect promoted by HO occurs due heme metabolites: biliverdin, bilirubin and carbon monoxide. Finally, when both NADPHox and HO system were blocked, heme had no effect on VSMC proliferation. In a second part, we observed that the chemotactic effect of Ang II on VSMC was abolished when the cells were pretreated with the α1ß1 integrin ligand, the disintegrin Obtustatin. Then, we observed that the Ang II effect on FAK activation and actin-ILK colocalization is integrin α1ß1 dependent, which possibly activates PKCα, once we observed that the ROS production induced by Ang II was inhibited by Obtustatin. We demonstrated by western blotting that ILK induction by Ang II is dependent of α1ß1 integrin and we also observed that Obtustatin inhibited the uncoupling of ILK to FAK, once Obtustatin blocked the FAK phosphorylation induced by Ang II (crucial process to ILK uncoupling). We also observed that Ang II induced, via α1ß1 integrin, AKT phosphorylation, and p21 expression reducement, probably via ILK. Corroborating these data we demonstrated that the pretreatment with Obt induced G1 phase arrest and diminishment of VSMC proliferation treated with AngII. Thus we showed that free heme induces VSMC activation via NADPHox, which is elegantly counter-regulated by HO-1. Furthermore, we suggest that α1ß1 integrin may be an important target molecule to the development of more effective therapeutic interventions in atherosclerosis.
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Expressão de SIRP'alfa' e SPH-1 na anemia hemolitica autoimune / SIP-alpha and SHP-1 expression in autoimmune hemolytic anemiaAlmeida, Ana Carolina de 13 August 2018 (has links)
Orientadores: Antonio Condino Neto, Sara Teresinha Olalla Saad / Tese (doutorado)- Universidade Estadual de Campinas, Faculdade de Ciencias Medicas / Made available in DSpace on 2018-08-13T18:06:47Z (GMT). No. of bitstreams: 1
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Previous issue date: 2009 / Resumo: SIRP 'alfa'(Signal Regulatory Protein 'alfa') é um receptor que medeia funções inibidoras em fagócitos. Sua ativação e conseqüente fosforilação dos ITIMs ocorre pela ligação ao CD47 presente na membrana dos eritrócitos, e permite o recrutamento e a ativação de SHP-1, a qual desfosforila substratos específicos envolvidos na mediação de diversos efeitos fisiológicos. O objetivo deste trabalho foi avaliar o papel da dexametasona (dexa) e de IFN?/TNFa sobre a expressão de SIRPa e
SHP-1; a consequência desta regulação sobre a eritrofagocitose; e o nível de expressão gênica de SIRPa e SHP-1 em monócitos de pacientes com anemia hemolítica autoimune (AHAI) antes e depois de corticoterapia. Monócitos de doadores sadios e células mielomonocíticas U937 foram cultivados por 48 horas com dexa (1µM) ou IFN? (100U/ml) e TNFa (1000U/ml), por 6 horas com Hemina® (30uM), ou por 72 horas com prednisolona (0,15 e 1mg/l). Monócitos foram isolados de pacientes com AHAI antes e depois da corticoterapia. A expressão gênica de SIRPa e SHP-1 foi determinada por PCR em Tempo Real, a expressão protéica de SIRPa e SHP-1 foi determinada por Western Blotting, e a capacidade de eritrofagocitose foi determinada por microscopia. IFN? e TNFa, in vitro, promoveram o aumento da expressão gênica e protéica de SIRPa e a expressão gênica de SHP-1, em paralelo com a redução da capacidade de eritrofagocitose em monócitos normais. Em contrapartida, embora tenha aumentado a expressão gênica de SIRPa e SHP-1, dexa in vitro não alterou a expressão destas proteínas, assim como não alterou a capacidade de eritrofagocitose de monócitos normais. A expressão gênica de SIRPa e SHP-1 foi maior em monócitos de pacientes com AHAI em comparação a doadores sadios. Após corticoterapia, a expressão gênica de SIRPa e SHP-1 em monócitos de pacientes com AHAI se mostrou similar a
doadores sadios. Pacientes com AHAI estudados antes da corticoterapia apresentaram baixos níveis de hemoglobina e após corticoterapia esse índice de mostrou normal. A expressão gênica de SIRPa foi aumentada pela cultura de monócitos com hemina, mas a expressão de proteína permaneceu a mesma. Nossos resultados confirmam o papel fundamental da SIRPa na regulação da eritrofagocitose e sugere que a expressão de mRNA de SIRPa em monócitos de pacientes com AHAI antes de corticoterapia é aumentada pela liberação de heme, e que a redução da expressão gênica de SIRPa após corticoterapia se deve a um efeito indireto desta droga pela redução da eritrofagocitose e diminuição da disponibilidade de heme. / Abstract: SIRPa (Signal Regulatory Protein a) is an inhibitory receptor in phagocytes. Its activation and consequent phosphorylation of ITIMs occurs by the binding to CD47 on erythrocyte membrane, what allows SHP-1 recruitment, which dephosphorylates specific substrates involved in the mediation of several physiologic effects. The aim of this work was to determine the role of dexamethasone and IFN?/TNFa upon SIRPa and SHP-1 expression, and the consequence of this regulation over erythrophagocytosis; and to evaluate the regulation of SIRPa and SHP-1 in peripheral blood monocytes (PBM) of autoimmune hemolytic anemia (AIHA) patients before and after glucocorticoid (GC) therapy. PBM from healthy donors and U937 myelomonocytic cells were cultured for 48 hours with dexamethasone (1µM) or IFN? (100U/ml) and TNFa (1000U/ml), for 6 hours with Hemin (30uM), or for 72 hours with prednisolone (0.15 and 1mg/l). PBM were isolated from AIHA patients under GC therapy or not. SIRPa and SHP-1 gene expression was determined by Real Time PCR, SIRPa and SHP-1 protein level was determined by Western Blotting, and erythrophagocytosis was determined by microscopy. IFN? and TNFa increased SIRPa gene and protein expression and SHP-1 gene expression, in parallel with a decrease in erythrophagocytosis ability in PBM. On the other hand, although SIRPa and SHP-1 gene expression was significantly increased, dexamethasone did not alter SIRPa and SHP-1 protein expression, and did not alter erythrophagocytosis ability in monocytes. SIRPa and SHP-1 expression was significantly higher in PBM from AIHA patients compared to normal. After GC therapy, SIRPa and SHP-1 expression was similar in PBM of AIHA patients compared to healthy donors. AIHA patients studied before glucocorticoid therapy showed low hemoglobin and after glucocorticoid therapy the level of hemoglobin was normal. SIRPa gene expression was increased by culture with hemin, but protein expression remained the same. Our results confirm the key role of SIRPa in erythrophagocytosis regulation and suggest that SIRPa mRNA expression in AIHA patients before glucocorticoid therapy is increased by heme release, and the decrease of SIRPa gene expression after glucocorticoid therapy is due to an indirect effect of this drug by the reduction of erythophagocytosis and free heme availability. / Doutorado / Doutor em Farmacologia
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Análise de polimorfismos em genes envolvidos no estresse oxidativo e associação com a severidade da doença em pacientes com anemia falciforme = Analysis of polymorphisms in genes involved in oxidative stress and association with the severity of the disease in patients with sickle cell disease / Analysis of polymorphisms in genes involved in oxidative stress and association with the severity of the disease in patients with sickle cell diseaseGil, Gislene Pereira, 1985- 21 August 2018 (has links)
Orientadores: Mônica Barbosa de Melo, Fernando Ferreira Costa / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-21T00:19:46Z (GMT). No. of bitstreams: 1
Gil_GislenePereira_M.pdf: 2808239 bytes, checksum: 22a11f67b6d086bf9bab0100ff802ec7 (MD5)
Previous issue date: 2012 / Resumo: Embora a anemia falciforme (AF) resulte da homozigosidade de uma única mutação, no codon 6 do locus da ?-globina, fenotipicamente, essa doença é muito heterogênea, de modo que diferentes pacientes podem apresentar evoluções clínicas significativamente distintas. As complicações nestes pacientes normalmente são decorrentes de acometimento vascular causado pelo acúmulo de hemácias falcizadas nos vasos sanguíneos. Um dos eventos que vem sendo associados a complicações em diversas doenças é o mecanismo de estresse oxidativo, o qual apresenta- se exacerbado em pacientes com AF. Dentre as fontes de estresse oxidativo nestes pacientes estão os eventos de vaso-oclusão e isquemia reperfusão, os quais são muito frequentes. O estresse oxidativo em níveis elevados pode danificar várias moléculas e posteriormente prejudicar o organismo. Alguns polimorfismos em enzimas envolvidas na via de estresse oxidativo foram associados com doenças vasculares como, hipertensão, doença arterial coronária, doença arterial periférica. Considerando que os pacientes com AF apresentam complicações decorrentes de acometimento vascular, esses polimorfismos podem estar contribuindo para as várias manifestações clínicas e, consequentemente, para a gravidade da doença. Este projeto se propôs a avaliar três polimorfismos em genes envolvidos no mecanismo de estresse oxidativo em pacientes com AF e testar a associação com o grau de gravidade da doença. Os polimorfismos analisados foram o C242T e -930 A/G no gene CYBA e o -413 T/A no gene HMOX-1. Os genótipos foram identificados por meio das técnicas de PCR e sequenciamento direto, e os escores de gravidade foram obtidos através de índices de severidade, em 169 pacientes. O genótipo AA do polimorfismo -930 A/G apresentou-se associado com escores baixos de gravidade, obtidos através do índice pediátrico, nas crianças com anemia falciforme. O genótipo CT do polimorfismo C242T esteve associado com crises álgicas e o genótipo TT do polimorfismo -413 T/A mostrou-se associado a níveis elevados de HbF, através de análises dos dados de todos os pacientes. De acordo com este estudo, sugerimos novos marcadores genéticos, os quais podem estar direta ou indiretamente envolvidos com a gravidade da doença em pacientes com AF na população brasileira. Estudos futuros em grandes coortes necessitam ser realizados para confirmar esses resultados / Abstract: Although sickle cell anemia (SCA) results from the homozygosity for a single mutation at codon 6 of the ?-globin locus, phenotypically this disease is very heterogeneous, so that different patients may have significantly different clinical outcomes. The complications in these patients are usually caused by vascular impairment caused by the accumulation of sickled erythrocytes in the blood vessels. One event that has been associated with complications in several diseases is oxidative stress, which has increased levels in SCA patients. Among the sources of oxidative stress in these patients are the vaso-occlusion and ischemia reperfusion events, which are very common. Oxidative stress at high levels can damage various molecules and subsequently damage the organism. Some polymorphisms of enzymes involved in the oxidative stress pathway have been associated with vascular diseases as: hypertension, coronary heart disease, peripheral arterial disease. Considering that the complications in SCA patients are due to vascular involvement, these polymorphisms may be contributing to the various clinical manifestations and consequently to the severity of the disease. This project proposes to evaluate three polymorphisms in genes involved in the mechanism of oxidative stress in SCA patients and test the association with the severity of the disease. The analyzed polymorphisms were C242T and -930 A/G in the CYBA gene and the -413 T/A in the HMOX-1 gene. The genotypes were identified through PCR and direct sequencing, and severity scores were obtained by severity indexes in 169 patients. The AA genotype of the -930 A/G polymorphism was associated with low severity scores, obtained from the pediatric index, in children with sickle cell anemia. The CT genotype of the C242T polymorphism was associated with pain crisis and the TT genotype of the -413 T/A polymorphism was associated with high levels of HbF, after analyzing the data from all patients. According to this study, new genetic markers can be suggested, which may be, directly or indirectly, involved with disease severity in patients with SCA in the Brazilian population. Future studies in larger cohorts have to be conducted to confirm these results / Mestrado / Clinica Medica / Mestre em Clinica Medica
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Propriétés anti-inflammatoires des statines, des triterpénoïdes et des dérivés de thiazole : rôle de la hème-oxygénase-1 et de la cyclooxygénase-2 / Anti-inflammatory properties of statins, triterpenoids and thiazole derivatives : role of heme oxygenase-1 (HO-1) and cyclooxygenase-2 (COX-2)Ghewa, El Achkar 05 November 2015 (has links)
Les statines sont des inhibiteurs sélectifs de la 3-hydroxy-3-méthylglutaryl-coenzyme A réductase, utilisées pour diminuer la biosynthèse du cholestérol. Ces molécules possèdent en plus de leur capacité à réduire le cholestérol des effets pléiotropiques comme les propriétés anti-inflammatoires et anti-oxydantes. Les cucurbitacines sont des triterpènes dérivés des plantes, ayant des propriétés biologiques diverses comme les effets anti-inflammatoires et anticancéreux, associées toutefois à une toxicité élevée. Les dérivés de thiazole sont des molécules contenant un noyau hétérocyclique formé de trois atomes de carbones, un atome de sulfure et un atome d'azote, disposant des effets anti-inflammatoires importantes. Les cyclooxygénases et les hème-oxygénases jouent un rôle dans l'inflammation et le stress oxydatif et sont les cibles des statines et des cucurbitacines in vitro. Les dérivés de thiazole peuvent inhiber plutôt l'activité enzymatique des cyclooxygénases. Le but de ma thèse est d'étudier les effets de ces 3 molécules in vivo et d'analyser si possible les mécanismes impliqués, comme par exemple pour les statines. Pour cela, nous avons eu recours chez les souris C57BL/6 au modèle d'inflammation de la poche à air-stérile injecté par le zymosan.Nous avons d'abord montré que le traitement des souris avec l'atorvastatine pendant 10 jours a réduit la migration des cellules dans l'exsudat de la poche à air ainsi que l'expression de gènes des marqueurs pro-inflammatoires tels que les cytokines, les chimiokines, la cyclooxygénase-2 et la nitric oxide synthase -II. Le taux de la prostaglandine E2 et de l'interleukine-6 a été également réduit. L'inhibition de l'hème-oxygénase-1 par son inhibiteur sélectif, tin protoporphyrine, a partiellement réduit l'effet inhibiteur de l'atorvastatine sur la migration des cellules et sur certaines cytokines suggérant un rôle important de la l'hème-oxygénase-1 dans les propriétés anti-inflammatoires in vivo.En parallèle, nous avons utilisé ce modèle animal tester l'effet de la cucurbitacine E sur l'inflammation et évaluer le rôle d'encapsulation in vivo dans des liposomes à base de phosphatidylcholine. Nous avons démontré que la cucurbitacine E libre (12.5 μg/poche ou 25 μg/poche) a tendance à diminuer l'interleukine-6, l'hème oxygénase-1 et la cyclooxygénase-2 alors que la cucurbitacine E encapsulée (12.5 μg/poche) a significativement réduit la prostaglandine E2, l'interleukine-6 et le taux de nitrite sans affecter le niveau d'ARNm de la cyclooxygénase-2 et l'hème oxygénase-1. Nos résultats suggèrent que l'incorporation de la cucurbitacine E dans des liposomes améliore son effet anti-inflammatoire et réduit sa cytotoxicité.Finalement, deux dérivés de thiazole qui diffèrent dans leur structure par la présence d'un groupement butyle- ou benzyle- sur leur chaîne latérale, ont été explorés dans ce modèle. Nous avons montré que le dérivé de thiazole contenant le groupe benzyle est sélectif de la cyclooxygénase-2 dans les macrophages et le modèle in vivo chez la souris.En résumé, mon travail de thèse met en évidence in vivo les effets anti-inflammatoires des statines et le rôle de l'hème oxygénase-1, et permet en plus la caractérisation des effets anti-inflammatoires des cucurbitacines et des dérivés de thiazole. L'ensemble de ces résultats renforcent les effets anti-inflammatoires de ces substances et démontre in vivo leur effet et les suggèrent comme molécules anti-inflammatoires. / Statins are selective competitive inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A reductase used to lower cholesterol biosynthesis and have multiple pleiotropic effects beyond lowering cholesterol such as anti-inflammatory and anti-oxidant properties. Cucurbitacins are triterpenoid derived from plants and exhibit potential anti-inflammatory and anticancer properties though they have a high cytotoxicity. Thiazole derivatives are molecules containing heterocyclic ring with three carbons, one sulfur and one nitrogen atom, with important anti-inflammatory activities. Cyclooxygenases and heme-oxygenases play a role in inflammation and oxidative stress and are targets for statins or cucurbitacins in vitro. Thiazole derivatives are potential inhibitors of cyclooxygenases. The aim of my thesis is to investigate the anti-inflammatory effect of these three compounds in vivo and attempt to analyze the mechanisms involved, mainly for statins. Thus we set up an animal model of inflammation in C57BL/6 corresponding to the zymosan -injected dorsal sterile air pouch.First we have shown that treatment of mice with atorvastatin for 10 days reduced cell migration in the exudate of the air pouch as well as the expression of inflammatory markers such as cytokines, chemokines, cyclooxygenase-2 and nitric oxide synthase -II. The synthesis of prostaglandin E2 and interleukin-6 was also reduced. Inhibition of heme-oxygenase-1 by the selective inhibitor tin protoporphyrin partially diminished the inhibitory effect of statins on cell migration and some cytokines suggesting a significant role of HO-1 in the anti-inflammatory properties for atorvastatin in vivo.For cucurbitacins, we used the same animal model to investigate the effect of this substance in vivo and further assess the beneficial effect of encapsulating cucurbitacin in phosphatidylcholine-liposomes. Free cucurbitacin E (12.5 μg/pouch or 25 μg/pouch) tended to increase interleukin-6, decrease heme oxygenase-1 and cyclooxygenase-2 whereas cucurbitacin E loaded liposomes (12.5 μg/pouch) significantly reduced prostaglandin E2, interleukin-6 and nitrite without affecting cyclooxygenase-2 and heme oxygenase-1 mRNA levels. We demonstrated that the incorporation of Cuc E into liposomes enhances its anti-inflammatory effect and reduces its cytotoxicity.Finally, we used the dorsal air pouch model to investigate the anti-inflammatory effect of two thiazole derivatives that differ in their side chain by the presence of butyl or benzyl group. In addition to analyzing their effect on cyclooxygenase activity in human blood platelets, on recombinant COX-1 and in culture macrophage cell lines, we demonstrated their capacity to block cyclooxygenase-dependent prostaglandin synthesis in the lumen of the air pouch.In summary, my thesis presents in vivo evidence for the anti-inflammatory effects of atorvastatin dependent on HO-1 activity. My studies characterized the anti-inflammatory effects of cucurbitacins and thiazole derivatives. All these results support the anti-inflammatory effects of these substances and suggested them as potential anti-inflammatory substances.
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Thermodynamics and Kinetics of Ligand Photodissociation in Heme Proteins and Formation of DNA i-MotifButcher, David S 01 March 2017 (has links)
Heme proteins carry out a diverse array of functions in vivo while maintaining a well-conserved 3-over-3 α-helical structure. Human hemoglobin (Hb) is well-known for its oxygen transport function. Type 1 non-symbiotic hemoglobins (nsHb1) in plants and bacterial flavohemoglobins (fHb) from a variety of bacterial species have been predicted to carry out a nitric oxide dioxygenase function. In nsHb1 and fHb this function has been linked to protection from nitrosative stress. Herein, I combine photoacoustic calorimetry (PAC), transient absorption spectroscopy (TA), and classical molecular dynamics (cMD) simulations to characterize molecular mechanism of diatomic ligand interactions with a hexa-coordinate globin from plant (rice hemoglobin), bacterial flavohemoglobins and human hemoglobin.
In rice type 1 non-symbiotic hemoglobin (rHb1), the dynamics and energetics of structural changes associated with ligand photodissociation is strongly impacted by solvent and temperature, namely CO escape from the protein matrix is slower at pH = 6.0 compare to neutral pH (ns) due to the CD loop reorganization which forms a pathway for ligand escape. In human hemoglobin, exogenous allosteric effectors modulate energetics of conformational changes associated with the CO and O2 escape although the effectors impact on rate constants for ligand association is small. The conformational dynamics associated with ligand photorelease from fHbs from Cupriavidus necator (FHP) and Staphylococcus aureus (HMPSa) are strongly modulated by the presence of azole drugs indicating that drug association modulates structural properties of the heme binding pocket.
In addition, we carried out a study of the formation of the DNA intercalated motif (i-motif). The formation of the structure is strongly favored at acidic pH; therefore, PAC was combined with a 2-nitrobenzaldehyde pH-jump to probe formation of the i-motif on fast timescales. i-Motif folding is two-step process with the initial protonation of cytosine residues being endothermic with ΔHfast=8.5 ± 7.0 kcal mol-1 and ΔVfast=10.4 ± 1.6 mL mol-1 and subsequent nucleation/i-motif folding (τ = 140 ns) with ΔHslow=-51.5 ± 4.8 kcal mol-1 and ΔVslow=-6.6 ± 0.9 mL mol-1. The above results indicate that PAC can be employed to study diverse biochemical reactions such as DNA folding, drug binding and ligand photorelease from proteins.
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Dual Sites For Heme Biosynthesis In The Malarial ParasiteVaradharajan, S 10 1900 (has links) (PDF)
No description available.
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The Role of hhbp in Heme Uptake in Haemophilus ducreyiAlsenani, Qusai January 2016 (has links)
Haemophilus ducreyi is a gram-negative and heme-dependent bactreia. H. ducreyi is the responsible of causing chancroid, a sexually transmitted infection forming genital ulcers. Infection with H. ducreyi is associated with an increased risk of acquiring HIV-1 as well as increasing the risk of the HIV-1 transmission. Heme acquisition in H. ducreyi occur through a receptor mediated process in which it start with binding of hemoglobin and heme to their cognate outer membrane receptors, HgbA and TdhA, respectively. The receptors are energized by the TonB complex. Following that the deposition of heme into the periplasmic area is unclear. Profiling of the periplasmic proteome of the H. ducreyi resulted in the identification of a periplasmic- binding protein that highly expressed in heme limitation conditions, and it has been called hHbp. This protein is encoded by a gene resides in a locus of four genes displaying genetic features of an ABC transporter. The gene cluster is organized as an operon comprising an internal membrane protein (IntPro), a sulphate reductase gamma subunit (dsvC), a heme dependant periplasmic bind-ing protein (hHBP), and an ATPase. The purified periplasmic binding protein, hHbp, bind heme in a dose-dependent and saturable manner. Moreover, the binding between heme and hHbp was specifically competitively inhibited by heme. The proposal planned to cre-ate an isogenic hhbp mutant by insertional inactivation using a kanamycin cassette, to genotypically and phenotypically characterize the mutant and thereby to confirm the cru-cial role of the hhbp gene in heme transport in H. ducreyi. Several attempts to ligate a kanamycin resistance cassette into hhbp to construct such a mutant were unsuccessful de-spite the systematic alteration of the ligation conditions and the use of kanamycin re-sistant genes derived from a variety of different plasmids. The explanations for this fail-ure are uncertain. In future work, two other approaches to construct an hhbp mutant in-clude the FRT-FLP recombinase technology and the use of overlapping extension PCR with a chloramphenicol cassette.
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Unique Features Of Heme-Biosynthetic Pathway In The Human Malaria Parasite, Plasmodium FalciparumArun Nagaraj, V 07 1900 (has links)
Malaria is a life-threatening vector borne infectious disease caused by protozoan parasites of the genus Plasmodium. More than 100 species of Plasmodium can infect numerous animal species such as reptiles, birds and various mammals. However, human malaria is caused by four Plasmodium species -Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale and Plasmodium malariae, and occasionally by the simian malaria parasite, Plasmodium knowlesi. Of these, P. falciparum and P. vivax are the major causative agents and P. falciparum is the most virulent. About 300-500 million malaria infections occur every year leading to over 1-2 million deaths, of which 75% occur in African children of less than 5 years infected with P. falciparum. In spite of major global efforts to eliminate this disease over the past few decades, it continues to persist as a major affliction of human-kind imposing serious health and economic burden, especially to the poor countries. In India, the present scenario is about 2 million malaria positive cases every year, with almost 50% being caused by P. falciparum.
Although remarkable attempts have been made over the years to develop vaccines against sexual and asexual stages of malaria parasite, an effective vaccine is still not in sight and remains as a distant goal. Hence, highly potent, less toxic and affordable antimalarial drugs remain as a first line therapy for malaria. Unfortunately, these parasites have been evolving against every known antimalarial drug and many of these drugs have lost their potency due to rapid emergence and spread of drug resistant strains. With development of resistance against frontline antimalarials such as chloroquine and antifolates, artemisinin and its derivatives seem to be the only effective antimalarials. However, recent reports on the possible emergence of artemisinin resistant strains, have led to the implementation of artemisinin-based combination therapies as a strategy to prevent drug resistance. Also, this continuous emergence of drug resistance has necessitated the development of new antimalarial drugs to combat this disease. While, Anopheles mosquitoes transmit parasites that infect humans, monkeys and rodents, Culex and Aedes mosquitoes predominate in the natural transmission to birds, and vectors of reptilian parasites are largely unknown. Of the approximately 400 species of Anopheles throughout the world, about 60 are malaria vectors under natural conditions, and 30 of which are of major importance. Ironically, the strategies implemented for controlling Anopheles, have also been hampered by insecticide resistance and other practical difficulties that exist in the scope of their applicability.
In the past few years several milestones have been achieved in parasite genome, transcriptome and proteome studies, which could be exploited for the development of new drugs and drug targets. One such promising target includes the metabolic pathways of the malaria parasite which differ significantly from its human host. This thesis entitled “Unique Features of the Heme-Biosynthetic Pathway in Human Malaria Parasite, Plasmodium falciparum” unravels the unique biochemical features of heme-biosynthetic enzymes of P. falciparum, which have the potential for being drug targets. This pathway was first identified in this laboratory over 15 years ago. In the present study, five of the 7 enzymes of this pathway have been cloned, expressed, properties studied and sites of localization identified. With the knowledge on the first two enzymes coming from earlier studies, it is now possible to depict the unique hybrid pathway for heme biosynthesis in
P. falciparum with full experimental validation.
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