Eixo IL-12/23-IFN-g e o sistema NADPH oxidase. / IL-12/23-IFN-g axis and the NADPH oxidase system.

Aragão Filho, Walmir Cutrim

27 June 2014

O sistema NADPH oxidase é um complexo enzimático gerador de ânion superóxido formado pelas subunidades gp91-phox e p22-phox, p47-phox, p67-phox e p40-phox. O eixo IL-12/23-IFN-g é crítico para a ativação dos fagócitos e controle de infecções. Defeitos na ativação deste eixo resultam em infecções recorrentes e à MSMD, e podem levar à diminuição da expressão do componente gp91-phox. Em minha Dissertação de Mestrado (Aragão-Filho, 2009), vimos que as subunidades 1 e 2 do receptor do IFN-g são necessárias para a expressão dos genes NCF1 e NCF2 e para a ativação do sistema NADPH oxidase humano nos modelos experimentais de células humanas por nós utilizados. Assim, no presente trabalho de doutorado, continuamos a investigar o papel dos defeitos no eixo IL-12/23-IFN-g sobre o sistema NADPH oxidase utilizando novas linhagens celulares de pacientes com defeitos no eixo IL-12/23-IFN-g. Verificamos que há defeito secundário da ativação da NADPH oxidase em pacientes com defeitos no eixo IL-12/23-IFN-g, o que representa um novo mecanismo imunopatológico envolvido na MSMD. / The NADPH oxidase system is an enzymatic complex that generates superoxide anion, it is formed by gp91-phox, p22-phox, p47-phox, p67-phox and p40-phox subunits. The IL-12/23-IFN-g axis is critical for the phagocytes activation and infection control. Defects in this axis activation result in recurrent infections and MSMD, and can lead to decreased expression of gp91-phox component. In my Master Thesis (Aragão-Filho, 2009), we found that the subunits 1 and 2 of the IFN-g receptor are required for NCF1 and NCF2 gene expression and activation of human NADPH oxidase system in human experimental cell models that we used. Therefore, in the present doctoral work, we continue to investigate the role of IL-12/23-IFN-g axis defects on NADPH oxidase system using new cell lines from patients with IL-12/23-IFN-g axis defects. We verify that there is a secundary defect in the activation of the NADPH oxidase from patients with IL-12/23-IFN-g defects, what represents a new immunopathological mechanism involved in MSMD.

Defeitos do eixo IL-12/23-IFN-g

IL-12/23-IFN-g axis defects

MSMD

MSMD

NADPH oxidase

NADPH oxidase

Avaliação da eficiência do antagonista seletivo de CD28, mPEG PV1-Fab´, no tratamento da uveíte autoimune experimental. / Efficacy of murine selective CD28 antagonist for the treatment of experimental autoimmune uveitis.

Rosa, Pedro Henrique Papotto

08 December 2014

A uveíte autoimune é uma doença inflamatória crônica, caracterizada pela resposta imune a antígenos oculares. É mediada por linfócitos T CD4+ com perfil TH1, e responsável por uma parcela significativa de casos de deficiências visuais e cegueira. Embora efetivos, os tratamentos disponíveis estão associados a efeitos adversos importantes. Logo, a busca de novos alvos terapêuticos mais específicos tem sido o objetivo principal no campo da imunoterapia. Nesse trabalho foi avaliada a eficiência do antagonista seletivo de CD28, mPEG PV1-Fab´(PV1), no tratamento da uveíte autoimune experimental (EAU). Camundongos tratados com PV1 exibiram menores graus de doença quando comparados a controles não tratados. Tal achado foi acompanhado de uma diminuição da ativação de linfócitos T, tanto nos olhos quanto nos órgãos linfoides periféricos desses animais. Mais ainda, o tratamento com PV1 levou a uma diminuição da população de linfócitos T reguladores e de células do tipo TH1. Portanto, concluiu-se que PV1 é eficaz no tratamento da EAU por agir em linfócitos T efetores. / Autoimmune uveitis is a T-cell mediated disease that targets mainly the posterior eye pole. Similar to human uveitis, experimental autoimmune uveitis (EAU) is mostly dependent on T cells with a TH1 phenotype. Although many treatment strategies are available, most of them focus on general immunossuppression, resulting in undesirable side effects. Thus, the development of more specific therapies is the major aim in the field of immunotherapy. Here we evaluated the efficacy of mPEG PV-1-Fab´ (PV1), a specific CD28 antagonist, in the treatment of EAU. Our results indicate that PV1 blocks T cell activation by decreasing expression of different costimulatory molecules. Furthermore, PV1 treatment led to a decrease of Treg cell population in peripheral lymphoid organs. Also, IFN-g production by CD4+ cells and TH1 lymphocytes population were decreased. Altogether, our results raise this CD28 blockade strategy as a potential tool for the treatment of autoimmune disorders in the eye, and indicate that mPEG PV1-Fab acts mainly on IFN-g production and TH1 polarization.

Bloqueio co-­estimulatório

CD28

CD28

Costimulatory blockade

EAU

EAU

IFN-­gamma

IFN-­gamma

Th1

Th1

Uveíte

Uveitis

Caractérisation des cellules dendritiques cDC1 et de leur synthèse d'Interféron de type III dans l’immunité antitumorale / Characterization of cDC1 dendritic cells and their type III interferon production in breast and ovarian cancers

Hubert, Margaux

20 November 2018

Les cellules dendritiques (DC) tiennent une place centrale dans l'initiation des réponses immunitaires et dans le contrôle du développement des tumeurs. La sous-population cDC1 suscite aujourd'hui en grand intérêt de par ses fonctions d'activation de réponses cytotoxiques par présentation croisée d'Ag aux lymphocytes T (LT) CD8+ ainsi que son implication dans l'immunité antitumorale et la réponse aux immunothérapies chez la souris. Le rôle des cDC1 chez l'Homme est cependant peu décrit. Les cDC1 murines et humaines sont aussi connues pour produire de larges quantités d'interféron (IFN) de type III (IFN-III), aussi appelés IFN-λ. Tout comme les IFN-I avec lesquels ils partagent la même voie de signalisation, les IFN-III ont un rôle antiviral bien décrit. Des modèles murins ont également suggéré un rôle antitumoral, mais ces IFN n'ont jamais été étudiés dans un contexte de cancer chez l'Homme. Il est donc crucial de comprendre les mécanismes expliquant l'impact pronostique positif des cDC1 ainsi que le rôle des IFN-III dans l'immunité antitumorale, en particulier pour le développement de nouvelles approches thérapeutiques. Nous avons démontré pour la première fois l'infiltration des tumeurs humaines de sein et d'ovaire par diverses sous-populations de DC. Les cDC1 sont particulièrement enrichies par rapport au sang des patientes et forment de nombreuses interactions avec les LT CD8+ dans les tumeurs. Une approche de bio-informatique a permis de révéler que les cDC1 représentent l'unique population de DC associée à une meilleure survie des patients dans la majorité des cancers du TCGA. De façon intéressante, la signature de réponses aux IFN-I et III est enrichie dans les tumeurs de sein fortement infiltrées par les cDC1 mais pas par les autres sous-populations. L'expression des gènes codant pour l'IFN-λ1 ou le récepteur aux IFN-III est également associée à une meilleure survie sans rechute dans le cancer du sein. De plus, nous avons démontré la capacité des cDC1 à produire de l'IFN-III sans aucune réactivation ex vivo. Ce résultat indique clairement que dans un contexte de réponse immunitaire antitumorale chez l'Homme, la synthèse d'IFN-III est une spécificité des cDC1 comparées aux autres sous-populations. La présence d'IFN-III dans les surnageants tumoraux a été confirmée au niveau protéique et démontrée comme étant fortement corrélée avec l'IL-12p40, les CXCR3-L, le CX3CL1 et le TNF-α. Ces données soulèvent alors l'hypothèse de l'association entre l'IFN-III, produit dans le microenvironnement tumoral par les cDC1, et la présence de cytokines et chimiokines impliquées dans le recrutement et l'activation de lymphocytes cytotoxiques tels que les LT CD8+ ou cellules NK. Notre étude apporte des informations détaillées quant à la nature des différentes sous-populations de DC infiltrant les tumeurs humaines de sein et d'ovaire et démontrent pour la première fois la production d'IFN-III par les cDC1. L'association de ces cellules et des IFN qu'elles produisent avec une meilleure survie des patientes confirme l'intérêt de développer de nouvelles immunothérapies ciblant les cDC1, en particulier dans le cancer du sein / Dendritic cells (DCs) represent a promising target for the development of new immunotherapies because of their central role in the initiation and the control of immunity. The rare cDC1 population is under considerable scrutiny because their murine counterparts called CD8α+ DCs are essential for cross-presentation to CD8+ T cells, antitumor immunity and response to immunotherapies. In contrast, the role of human cDC1 in cancer has not been investigated as extensively as in mice. They were identified in several tumors and transcriptomic analyses revealed their association with a favorable patient outcome. They also represent a major source of type III interferon (IFN-III), also called IFN-λ, playing a crucial role in viral infections, similarly to IFN-I that share the same signaling pathway. Its antitumor activity was also reported in mouse models, therefore raising questions regarding the use of IFN-IIl in clinical oncology. We believe that understanding the underlying mechanisms of cDC1 favorable prognostic impact and the role of IFN-III in antitumor immunity will be central to design new therapeutic approaches. Here, we demonstrated the infiltration of human primary breast and ovarian tumors by several DC populations and the enrichment of cDC1 compared with patient blood. We also showed for the first time close contacts between cDC1 and T cells in breast tumors. An in silico approach using MCPcouter on the TCGA data sets revealed that cDC1 represented the only DC subset associated with a prolonged overall survival in the majority of solid tumors. Interestingly, type I/III signature was strongly enriched in tumors highly infiltrated only with cDC1. Furthermore, we observed by feature intracytoplasmic flow cytometry analysis a spontaneous production of IFN-λ1 that is restricted to cDC1 in the absence of any ex vivo stimulation in one third of tumors. This result clearly indicates that IFN-λ1 production is a distinct of cDC1 compared with other DC subsets, even in a human tumor context. Notably, a high expression level of genes coding for IFN-III or its receptor was correlated with an increased relapse-free survival in breast cancer. We confirmed the presence of the IFN-λ1 protein in more than 50% of tumors and observed its abundancy compared with other IFN subtypes. IFN-λ1 was strongly correlated with IL-12p40, CXCL9, CXCL10, CXCL11, CX3CL1 and TNF-α. These results raised the hypothesis that IFN-λ1, produced by cDC1 in the TME, could be associated with the production of cytokines and chemokines involved in the recruitment and activation of cytotoxic lymphocytes (NK cells and CD8+ T cells). Our study provides detailed information about the DC compartment infiltrating human breast and ovarian tumors, revealing their potential implication in the antitumor immunity. By focusing on the pathways associated with each DC subset, our findings shed new light on the link between DC population called cDC1 and IFN-I/III signature in tumors. Our clear demonstration of IFN-III production by cDC1 and of its positive impact on the prognosis of cancer patients provides valuable evidences to support the development of new therapeutic strategies targeting cDC1 to amplify the response to immunotherapies, especially in breast cancer

Immunité antitumorale

Cellules dendritiques

CDC1

Interféron

IFN-III

Antitumor immunity

Dendritic cells

CDC1

Interferon

IFN-III

570

Avaliação da eficiência do antagonista seletivo de CD28, mPEG PV1-Fab´, no tratamento da uveíte autoimune experimental. / Efficacy of murine selective CD28 antagonist for the treatment of experimental autoimmune uveitis.

Pedro Henrique Papotto Rosa

08 December 2014

A uveíte autoimune é uma doença inflamatória crônica, caracterizada pela resposta imune a antígenos oculares. É mediada por linfócitos T CD4+ com perfil TH1, e responsável por uma parcela significativa de casos de deficiências visuais e cegueira. Embora efetivos, os tratamentos disponíveis estão associados a efeitos adversos importantes. Logo, a busca de novos alvos terapêuticos mais específicos tem sido o objetivo principal no campo da imunoterapia. Nesse trabalho foi avaliada a eficiência do antagonista seletivo de CD28, mPEG PV1-Fab´(PV1), no tratamento da uveíte autoimune experimental (EAU). Camundongos tratados com PV1 exibiram menores graus de doença quando comparados a controles não tratados. Tal achado foi acompanhado de uma diminuição da ativação de linfócitos T, tanto nos olhos quanto nos órgãos linfoides periféricos desses animais. Mais ainda, o tratamento com PV1 levou a uma diminuição da população de linfócitos T reguladores e de células do tipo TH1. Portanto, concluiu-se que PV1 é eficaz no tratamento da EAU por agir em linfócitos T efetores. / Autoimmune uveitis is a T-cell mediated disease that targets mainly the posterior eye pole. Similar to human uveitis, experimental autoimmune uveitis (EAU) is mostly dependent on T cells with a TH1 phenotype. Although many treatment strategies are available, most of them focus on general immunossuppression, resulting in undesirable side effects. Thus, the development of more specific therapies is the major aim in the field of immunotherapy. Here we evaluated the efficacy of mPEG PV-1-Fab´ (PV1), a specific CD28 antagonist, in the treatment of EAU. Our results indicate that PV1 blocks T cell activation by decreasing expression of different costimulatory molecules. Furthermore, PV1 treatment led to a decrease of Treg cell population in peripheral lymphoid organs. Also, IFN-g production by CD4+ cells and TH1 lymphocytes population were decreased. Altogether, our results raise this CD28 blockade strategy as a potential tool for the treatment of autoimmune disorders in the eye, and indicate that mPEG PV1-Fab acts mainly on IFN-g production and TH1 polarization.

Bloqueio co-­estimulatório

CD28

EAU

IFN-­gamma

Th1

Uveíte

CD28

Costimulatory blockade

EAU

IFN-­gamma

Th1

Uveitis

Eixo IL-12/23-IFN-g e o sistema NADPH oxidase. / IL-12/23-IFN-g axis and the NADPH oxidase system.

Walmir Cutrim Aragão Filho

27 June 2014

O sistema NADPH oxidase é um complexo enzimático gerador de ânion superóxido formado pelas subunidades gp91-phox e p22-phox, p47-phox, p67-phox e p40-phox. O eixo IL-12/23-IFN-g é crítico para a ativação dos fagócitos e controle de infecções. Defeitos na ativação deste eixo resultam em infecções recorrentes e à MSMD, e podem levar à diminuição da expressão do componente gp91-phox. Em minha Dissertação de Mestrado (Aragão-Filho, 2009), vimos que as subunidades 1 e 2 do receptor do IFN-g são necessárias para a expressão dos genes NCF1 e NCF2 e para a ativação do sistema NADPH oxidase humano nos modelos experimentais de células humanas por nós utilizados. Assim, no presente trabalho de doutorado, continuamos a investigar o papel dos defeitos no eixo IL-12/23-IFN-g sobre o sistema NADPH oxidase utilizando novas linhagens celulares de pacientes com defeitos no eixo IL-12/23-IFN-g. Verificamos que há defeito secundário da ativação da NADPH oxidase em pacientes com defeitos no eixo IL-12/23-IFN-g, o que representa um novo mecanismo imunopatológico envolvido na MSMD. / The NADPH oxidase system is an enzymatic complex that generates superoxide anion, it is formed by gp91-phox, p22-phox, p47-phox, p67-phox and p40-phox subunits. The IL-12/23-IFN-g axis is critical for the phagocytes activation and infection control. Defects in this axis activation result in recurrent infections and MSMD, and can lead to decreased expression of gp91-phox component. In my Master Thesis (Aragão-Filho, 2009), we found that the subunits 1 and 2 of the IFN-g receptor are required for NCF1 and NCF2 gene expression and activation of human NADPH oxidase system in human experimental cell models that we used. Therefore, in the present doctoral work, we continue to investigate the role of IL-12/23-IFN-g axis defects on NADPH oxidase system using new cell lines from patients with IL-12/23-IFN-g axis defects. We verify that there is a secundary defect in the activation of the NADPH oxidase from patients with IL-12/23-IFN-g defects, what represents a new immunopathological mechanism involved in MSMD.

Defeitos do eixo IL-12/23-IFN-g

MSMD

NADPH oxidase

IL-12/23-IFN-g axis defects

MSMD

NADPH oxidase

La protéine Core du virus de l’hépatite B est le déterminant majeur responsable de l’inhibition précoce de la réponse IFN dans les hépatocytes / Hepatitis B virus capsid protein (HBc) is the major determinant involved in the early IFN response inhibition in hepatocytes

Gruffaz, Marion

04 June 2013

Dans le cas d'une infection chronique par le virus de l'hépatite B (HBV), les traitements actuels (IFN et analogues de nucléos(t)ides) ne permettent pas d'éradiquer l'infection du fait de la persistance de l'ADNccc et des phénomènes de résistance observés chez les patients. S'agissant des traitements par l'IFN, 70 % des patients porteurs chroniques sont non-répondeurs. En effet, le virus HBV aurait développé des stratégies immunosuppressives pour établir une infection persistante. La compréhension des mécanismes impliqués dans cette viro-immunosuppression devient ainsi un enjeu majeur dans la mise en place de nouvelles stratégies antivirales. Les objectifs de ma thèse ont consisté en l'étude des relations précoces entre HBV et les hépatocytes. Nous avons pu mettre en évidence que cette absence d'activation du système immunitaire était le résultat, non pas d'une « invisibilité » du virus, mais d'une inhibition active des réponses IFN de type I/III et proinflammatoires, précocement établie par le virus HBV pour établir une infection persistante. De façon intéressante, nous avons pu démontrer que la protéine HBc était capable d'inhiber spécifiquement l'activation des voies IFN via son interaction avec les promoteurs des gènes de l'immunité innée et l'installation de marques épigénétiques (H3K9me2/3) répressives sur ces gènes par recrutement d'histone méthyl-transférases. Ces résultats prônent l'utilisation de stratégies antivirales utilisant des anticapsides dégradant et/ou prévenant la localisation nucléaire de la protéine HBc, restaurant ainsi le potentiel immunitaire des hépatocytes, pouvant dès lors être exacerbé par des agonistes de PRRs / Current treatments against Hepatitis B virus (HBV) chronic infection (IFNs and nucleos(t)ide analogues) are inefficient due to the persistence of cccDNA and emergence of viral resistance observed in infected patients. So far, up to 70 % of these patients are non responders to IFN treatments and it seems that the virus itself is able to counteract actively the host innate immune responses to establish a persistent infection. Therefore, the understanding of molecular mechanisms involved in this immunosuppression is crucial to design new immunotherapeutic strategies. In this context, the aim of my thesis was to investigate the early interactions between HBV and the hepatocyte antiviral responses. We have determined that HBV is not only a weak inducer of the host immune response, but is also able to inhibit very early and actively type I/III IFNs and proinflammatory pathways to persist in the hepatocytes. Furthermore, we have identified HBc protein as the major determinant involved specifically in the inhibition of IFN responses by counteracting host innate immune gene activations leading to repressive epigenetic marks such as H3K9/K27me3, or the recruitment of histone methyl transferase enzymes to the host IFN gene promoters. These results highlight new immunotherapeutic strategies and proposed the use of anticapsids components to degrade or block the nuclear localization of HBc proteins in order to restore a potent immune response in the hepatocytes. These anticapsid treatments may be also combined to PRRs agonists in order to improve the host antiviral state and HBV replication control

HBV

IFN

Immunité innée

Capside

Inhibition précoce

Épigénétique

HBV

IFN

Innate immune

Capsid

Early inhibition

Epigenetics

579.2

Etude de l’implication du complexe eIF4F dans la réponse immune antitumorale via la régulation traductionnelle de l’axe STAT1-PD-L1 dans le mélanome métastatique / Study of the eIF4F Complex Involvement in the Antitumor Immune Response Through STAT1-PD-L1-Translational Regulation in Metastatic Melanoma

Guemiri, Ramdane

15 October 2018

Résumé : L’immunothérapie anti-PD1 est à l’origine de résultats cliniques impressionnants dans le traitement de certains cancers comme le mélanome métastatique ou le lymphome Hodgkinien. Néanmoins, les rechutes sont fréquentes et certaines tumeurs y sont d’emblée résistantes. Par ailleurs, l’étude du complexe d’initiation de la traduction eIF4F gagne de plus en plus d’intérêt dans le domaine du cancer. En effet, eIF4F joue un rôle fondamental dans la biologie des cancers grâce au contrôle sélectif de la synthèse de protéines impliquées dans le développement tumoral.Dans cette étude, nous montrons que l’inhibition du complexe eIF4F, en plus d’avoir un effet antitumoral directe via l’inhibition de la croissance tumorale in-vitro, a une action indirecte grâce à l’inhibition de l’expression de PD-L1 sous IFN-g, évitant ainsi le blocage des lymphocytes cytotoxiques suite à l’engagement PD-1/PD-L1. Dans un modèle murin de mélanome, nous avons montré une inhibition de la croissance tumorale grâce à l’inhibition de l’expression de PD-L1, uniquement dans des souris immunocompétentes, montrant ainsi le rôle fondamental du système immunitaire. Nous avons ensuite identifié la voie de régulation de PD-L1 par eIF4F via une régulation traductionnelle de l’ARNm de STAT1, principal facteur de transcription de PD-L1 sous IFN-g.Cette étude apporte une nouvelle preuve de l’intérêt des inhibiteurs d’eIF4F dans le cancer en démontrant leur effet immunothérapeutique via l’inhibition de PD-L1, évitant ainsi l’interaction PD-1/PD-L1 qui conduit à l’échappement des tumeurs. Ces résultats ouvrent la voie vers de nouvelles stratégies dans la lutte contre le cancer. / The eukaryotic translation initiation complex eIF4F is subject of an increased interest in the field of cancer. This heterotrimeric complex, comprising the RNA helicase eIF4A, the cap-binding protein eIF4E and the scaffold protein eIF4G, is known to be more abundant and active in tumor cells than non-malignant counterparts.In a previous work, we showed that this complex is implicated in the resistance to melanoma-targeted therapies (Boussemart et al, Nature 2014). Furthermore, it is implicated in the resistance to various chemotherapies. Thus, agents targeting the eIF4F complex appear as promising tools in the field of cancer therapy.On the other hand, immunotherapy, by (re)stimulating and enhancing the host immune system against tumors is giving good clinical results in oncology treatment and appears nowadays as the most promising approach to fight cancer, especially anti-PD1 treatment. Even though immunotherapy has demonstrated remarkable results in curing some established cancers, such as advanced melanoma or Hodgkin’s lymphoma, many tumors relapse or fail to respond. It is thus important to still look for a new strategy enhancing the efficacy of actual treatments. Here, we propose to study the impact of inhibiting the eIF4F complex on the tumor-specific immune response.

Initiation de la traduction

Mélanome

Pd-L1

Réponse antitumorale

Voie IFN-G

Translation initiation

Melanoma

Pd-L1

Antitumor response

IFN-G pathway

Rescue of host innate immunity in pigs infected with Nsp1ß mutant PRRSV

Shyu, Duan-Liang

14 October 2015

No description available.

Virology

The Contribution of IFNα-Stimulated Immune Cell Populations to B6.NbA2 Lupus-likeDisease

Keller, Emma Jean

01 September 2021

No description available.

Animal Diseases

Health Sciences

Immunology

Molecular Biology

SLE

Lupus

IFNa

Interferon alpha

Type I IFN, Interferon

auto-antibodies

IFN, IFN-I

B6Nba2

murine lupus

autoimmunity

autoimmune

B Cells

T Cells

Myeloid Cells

murine autoimmunity

Avaliação da taxa de metilação do DNA de leucócitos na região promotora dos genes IFN&#947, Serpin B5 e Stratifin durante o período gestacional e sua relação com o metabolismo das vitaminas e metabólitos / Assessment of leukocyte DNA methylation index in the promoter region of IFNγ, Serpin B5 and Stratifin genes in women with different gestational ages and their relationship to the metabolism of vitamins and metabolites

Silva, Thaiomara Alves

15 October 2010

A metilação do DNA é uma alteração epigenética que atua na regulação da expressão gênica. A deficiência de vitaminas (cobalamina, B6 e folato) pode interferir na taxa de metilação. O efeito da deficiência destas vitaminas foi determinado em estudos com cultura de células e em animais. No entanto, são raros os estudos realizados com seres humanos. Os objetivos deste trabalho foram: avaliar a taxa de metilação do DNA de leucócitos na região promotora dos genes Interferon gama (IFNγ), Serpin B5 e Stratifin; verificar se existe associação entre as concentrações das vitaminas e dos metabólitos com a taxa de metilação do DNA dos 3 genes; e analisar quais são os fatores de predição para a taxa de metilação do DNA (variável dependente) considerando como variáveis independentes os valores séricos das vitaminas e metabólitos, em mulheres com idades gestacionais de 16, 28 e 36 semanas. Cento e oitenta e três mulheres foram convidadas a participar desse estudo, porém apenas 96 completaram o estudo prospectivo. Foram determinadas as concentrações séricas da cobalamina (Cbl), folato, vitamina B6, S-adenosilmetionina (SAM), S-adenosilhomocisteína (SAH), ácido metilmalônico (MMA), homocisteína total (tHcy) e folato eritrocitário. A taxa de metilação nos 3 genes foi determinada por qMSP (Quantitative Methylation Specific - Polimerase Chain Reaction). Várias mulheres estavam fazendo uso de suplementação com ácido fólico e/ou polivitamínicos. Diante deste fato foram formados 4 subgrupos: Grupo 1 (constituído por mulheres que não usaram suplementação), Grupo 2 (mulheres que usaram suplementação em todas as idades gestacionais estudadas - 16, 28 e 36 semanas), Grupo 3 (mulheres que usaram suplementação no início da gestação até a 16ª semana) e Grupo 4 (mulheres que usaram suplementação na 16ª e 28ª semana gestacional). Não houve diferença entre as taxas de metilação do DNA dos genes IFNγ, Serpin B5 e Stratifin durante o período gestacional estudado. As taxas de metilação no gene IFNγ do grupo 1 foram maiores, quando comparadas as taxas dos demais grupos. Em modelos de regressão linear múltipla, considerando o período gestacional como um todo, apenas a vitamina B6 e a tHcy foram diretamente associadas aos valores da taxa de metilação do gene IFNγ. No entanto, a vitamina B6 foi inversamente associada, enquanto que tHcy esteve diretamente associada aos valores da taxa de metilação do gene Stratifin. A taxa de metilação não sofre alterações durante a gestação; a vitamina B6 e a tHcy foram os fatores de predição para as taxas de metilação do DNA na região promotora dos genes IFNγ e Stratifin. / DNA methylation is an epigenetic modification that regulates gene expression. Cobalamin, vitamin B6 and folate deficiencies can impair the DNA methylation index. Studies involving cultured cells and animals have evaluated the effect of vitamin deficiencies in DNA methylation. However, few studies were conducted in humans. The goals of this study were: to evaluate the leukocyte DNA methylation index in the promoter region of interferon gamma (IFNγ), Serpin B5 and Stratifin genes; to assess the association between vitamins and metabolites concentrations and DNA methylation index in three genes; and to examine the predictive factors for DNA methylation index using as independent variables: serum folate, serum cobalamin, serum vitamin B6, erythrocyte folate, methylmalonic acid (MMA), total homocysteine (tHcy) in three gestational ages (16th, 28th and 36,th weeks). A hundred eighty three women were included, but only 96 completed the prospective study. The serum concentrations of cobalamin, folate, vitamin B6, S-adenosylmethionine (SAM), Sadenosylhomocysteine (SAH), MMA, tHcy were determined. The erythrocyte folate concentration was also evaluated. The DNA methylation index was determined in three genes by qMSP (Quantitative Methylation Specific - Polymerase Chain Reaction). Several women were taking folic acid supplementation and/or multivitamins. Four groups were formed according to supplementation use: Group 1 (women who take no supplementation), Group 2 (women who took supplements at 16th, 28th and 36th weeks of pregnancy), Group 3 (women who took supplements in early pregnancy and up to 16 weeks) and Group 4 (women who took supplements in the 16th and 28th week of pregnancy). There was no difference between the DNA methylation index in the IFNγ, Serpin B5 and Stratifin genes during the gestational periods studied. The DNA methylation index in the IFNγ gene in group 1 was higher than those indexes from other groups. In multiple linear regression models considering the gestational periods as a whole, only vitamin B6 and tHcy were directly associated to DNA methylation index in IFNγ gene. However, vitamin B6 was inversely associated, whereas tHcy was directly associated with values of DNA methylation in Stratifin. The DNA methylation index does not change during pregnancy, vitamin B6 and tHcy were the predictors of DNA methylation in the promoter region of IFNγ and Stratifin genes.

IFN&#947

IFN&#947

Cobalamin

Cobalamina

DNA methylation in the promoter region

Folate

Folato

Gravidez

Metilação do DNA na região promotora

Pregnancy

Serpin B5

Serpin B5

Stratifin

Stratifin