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Modulação da genisteína sobre os receptores toll like e a imunidade adaptativa durante o desenvolvimento da encefalomielite autoimune experimentalDias, Alyria Teixeira 28 April 2016 (has links)
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Previous issue date: 2016-04-28 / A esclerose múltipla (EM) e o seu modelo animal de estudo, a encefalomielite autoimune experimental (EAE), são caracterizadas por neuroinflamação imunomediada e desmielinização no sistema nervoso central (SNC). Os tratamentos para a EM normalmente incluem o interferon-β (IFN-β) e destinam-se a reduzir o número de surtos e retardar a progressão da doença. No entanto, são apenas parcialmente eficazes, sugerindo a necessidade do desenvolvimento de novas alternativas terapêuticas. Os receptores toll like (TLRs) são receptores de reconhecimento de padrões do sistema imune inato e desempenham importante papel na iniciação de respostas inflamatórias e na indução da imunidade adaptativa. A sua participação na patogênese de doenças autoimunes têm sido estudada e foi também demonstrado que ligantes de TLRs podem suprimir a EAE. A genisteína é um fitoestrógeno obtido da soja com propriedades anti-inflamatórias. Alguns estudos mostraram seus efeitos benéficos na EAE e resultados promissores que sugerem potencial terapêutico na EM. Entretanto, os trabalhos realizados até o momento, utilizavam um protocolo de tratamento após o aparecimento dos sinais clínicos da doença e não abordavam a resposta imune inata. Neste contexto, o presente trabalho busca avaliar a modulação da resposta imune inata e a influência desta na resposta imune adaptativa, através dos TLRs, utilizando um tratamento com genisteína anterior ao aparecimento dos sinais clínicos da EAE, avaliando também os parâmetros no início do desenvolvimento da doença. Para isso, a EAE foi induzida em camundongos C57BL/6 fêmeas com o peptídeo MOG35-55 tratados ou não com genisteína. O tratamento com 200mg/kg de massa corporal por dia, via subcutânea, foi realizado do período -2 dias antes da indução até o dia +6 após a indução da EAE. Os parâmetros laboratoriais foram avaliados na medula espinhal no 7° dia pós indução e os sinais clínicos acompanhado s até o 21° dia pós indução. O tratamento com genisteína resultou em atraso no aparecimento e redução na pontuação dos sinais clínicos, concomitante à redução do infiltrado celular e da desmielinização da medula espinhal, reforçando seu potencial neuroprotetor em doenças autoimunes. Adicionalmente, foi observado aumento na intensidade mediana de fluorescência de TLR3 e TLR9 em macrófagos e células dendríticas e diminuição de TLR2 em células dendríticas, presentes na medula espinhal. A sinalização via TLR3 e TLR9 vêm sendo relacionada à maior produção de IFN-β em doenças autoimunes. De fato, o tratamento com genisteína aumentou a expressão relativa de RNAm para IFN-β na medula espinhal. Os níveis das citocinas próinflamatórias IL-6, IL-12p40 e da quimiocina CCL5 foram reduzidos. Além disso, foi observado diminuição na expressão dos fatores de transcrição RORγT e T-bet e aumento na produção da citocina TGF-β, sugerindo o estabelecimento de um ambiente imuno regulador. Estes resultados reforçam o potencial terapêutico da genisteína no tratamento da EAE e da EM, sugerindo que o seu uso, inclusive na forma de suplementação ou alimentação rica em soja, poderia se aliar a terapias já estabelecidas, melhorando o quadro clínico da doença e prevenindo novos surtos. / Multiple sclerosis (MS) and experimental autoimmune encephalomyelitis (EAE), its animal model, are both characterized by immune-mediated neuroinflammation and demyelination in the central nervous system (CNS). The treatments for MS, including IFN-β, are intended to reduce the number of relapses and slow the progression of the disease. However, these treatments are only partially effective, suggesting the need to develop new therapies. The toll-like receptors (TLRs) are patterns-recognition receptors, of the innate immune system, that play important roles in the initiation of inflammatory responses and induction of adaptive immunity. Its role in the pathogenesis of autoimmune diseases have been demonstrated and it was also shown that TLR ligands can suppress EAE. Genistein is a phytoestrogen obtained from soybeans with anti-inflammatory properties. Some studies showed beneficial effects on EAE treatment, suggesting therapeutic potential in MS. However, the work done to date, used a treatment protocol after the onset of clinical signs of the disease and did not address the innate immune response. In this context, the present work aims to evaluate the modulation of innate immune response, and its influence in the adaptive immune response, through the TLRs, using a treatment protocol prior the onset of the clinical signs of the EAE, by evaluating the parameters in the beginning of the development of the disease. EAE was induced in C57BL/6 females with MOG35-55 peptide. The animals were treated or not with 200mg/kg/day of genistein, subcutaneously, in the period between 2 days before induction and until the day 6 after induction of EAE. Laboratory parameters were evaluated in the spinal cord in the day 7 after induction and clinical signs monitored until day 21 after induction. Treatment with genistein resulted in delayed onset and reduced score of disease, concomitant with reduced cellular infiltration and demyelination in the spinal cord, reinforcing its neuroprotective potential in autoimmune diseases. Additionally, it was observed an increase in the median fluorescence intensity of TLR3 and TLR9 in macrophages and dendritic cells and decrease of TLR2 in dendritic cells in the spinal cord. The signaling via TLR3 and TLR9 is related to increase the production of IFN-β. In fact, treatment with genistein increases mRNA expression for IFN-β in the spinal cord. The levels of IL-6, IL-12p40 and CCL5 were reduced. Furthermore, the expression of ROR-γT and T-bet were decreased, and, together with increased production of TGF-β, suggest the development of a regulatory environment. These results heighten the therapeutic potential of genistein in the treatment of EAE and MS, suggesting that its use, including as a supplement or soy-enriched diet, could preventing new outbreaks.
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PDZ Binding Motif of NS1 Proteins of Influenza A Viruses: : A Virulent Factor in the Expression of Interferon-β?To, Thuan January 2012 (has links)
Background: The PDZ domain is a peptide sequence of 80-90 amino acids and can be found in e.g. bacteria, animals and plants. These domains are commonly part of the cytoplasmic and membrane adapter proteins and its function are important in protein-protein interactions. The NS1 proteins of influenza A viruses play an important role in inhibiting the IFN-β production in many ways. In the C-terminus of the NS1 protein, a peptide sequence of four amino acids had been demonstrated to bind to the PDZ domain termed as PDZ binding motif (PBM). Objective: The aim of this study is to determine whether the PBM sequence of the NS1 protein of influenza A virus plays a key roll in the expression of interferon-β. Methods: The open reading frame of the NS1 protein was amplified and cloned into expressing vector and transfected into A549 cells along with a reporter plasmid containing ISRE promoter, driving expression of firefly luciferase. Dual luciferase reporter assay was performed to measure luciferase activity which represented expression of IFN-β. The assay was performed only once and unfortunately the result can not be trusted since the negative control showed positive value. Therefore, to understand the interaction between the PBM sequence of NS1 proteins and the production of IFN-β, further experiments are needed.
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Rôle différentiel des isoformes de PML en réponse au trioxyde d’arsenic et dans la défense antivirale / Differencial role of PML isoforms in arsenic trioxyde response and in antiviral defenseEl Asmi, Faten 13 December 2013 (has links)
Les interférons (IFN) constituent une famille de cytokines aux propriétés antiprolifératives et antivirales. Ils activent, via la voie Jak/STAT, des gènes spécifiques dont les produits sont les médiateurs des effets biologiques des IFN. C’est le cas de PML (Promyelocytic leukemia), appelée aussi TRIM19, qui joue un rôle central dans la défense antivirale. PML appartenant à la famille des protéines Tripartite Motif (TRIM), caractérisée par la présence en N-terminal d’un motif RBCC, constitué d’un domaine RING, d’une ou de deux boites B et d’un domaine coiled-coil. PML a été identifiée dans la leucémie aiguë promyélocytaire, une pathologie causée par la translocation chromosomique t(15 ;17) qui fusionne les gènes PML et RARA, aboutissant à la synthèse d'une protéine chimère PML-RARA. Le trioxyde d'arsenic (As2O3) cible la portion PML de la protéine oncogénique, entraînant sa dégradation et la rémission complète des patients. Dans les cellules saines, les transcrits PML issus d’un gène unique génèrent par épissage alternatif 7 isoformes principales de PML, dont six sont nucléaires (PMLI à PMLVI) et une cytoplasmique (PMLVIIb). Toutes possèdent la même extrémité N-terminale mais diffèrent au niveau de leur extrémité C-terminale, conférant à chaque isoforme des fonctions spécifiques.PML est l’organisatrice d’une structure multi-protéique appelée corps nucléaires (CN), impliquée dans divers processus cellulaires tels que l’apoptose, la dégradation des protéines ou encore la défense antivirale.PML est modifiée par SUMO de façon covalente au niveau de trois sites lysines (K65, K160, K490) et de façon non covalente, via son domaine SIM (pour « SUMO Interacting Motif »). Ces modifications sont requises pour la formation de CN fonctionnels et le recrutement de protéines partenaires au sein de ceux-ci. Le but de ma thèse a été d’étudier le rôle différentiel des différentes isoformes de PML en réponse à l’As2O3 et suite à l’infection virale. Nous avons montré que le SIM de PML est nécessaire à sa dégradation en réponse à l'As2O3. Ce motif est présent dans toutes les isoformes de PML, hormis l’isoforme nucléaire PMLVI et l’isoforme cytoplasmique PMLVIIb. Le SIM de PML n’est pas requis pour sa SUMOylation et son interaction avec RNF4 (une E3 ubiquitine ligase responsable de la dégradation de PML via le protéasome). En revanche, ce motif est requis pour l’ubiquitination de PML, le recrutement des composants du protéasome et sa dégradation en réponse à l’As2O3. Concernant les propriétés antivirales de PML, l’étude que nous avons menée avec toutes les isoformes de PML a permis de montrer que seules PMLIII et PMLIV confèrent une résistance au Virus de la Stomatite Vésiculaire (VSV). L’effet antiviral de PMLIII n'est observé qu'à faible multiplicité d’infection (MOI) et est indépendant de la production d’IFN. Par contre, PMLIV exerce une puissante activité anti-VSV, y compris à forte MOI et s'exerce selon deux mécanismes distincts : (i) PMLIV inhibe la réplication du VSV par un mécanisme précoce indépendant de l’IFN, (ii) PMLIV augmente tardivement la production d’IFN-β via une plus forte activation d’IRF3 qui est due à la séquestration spécifique de Pin1 au sein des CN par PMLIV. Ces deux processus nécessitent la SUMOylation de PMLIV. Ces résultats montrent que PMLIV exerce une activité antivirale intrinsèque et est impliquée dans l’immunité innée en régulant positivement la voie de transduction conduisant à la synthèse d’IFN-β. / Interferons (IFNs) are a family of cytokines with antiproliferative and antiviral properties.They activate, via the Jak/Stat pathway, specific genes whose products are the mediators of the biological effects of IFNs. This is the case of PML (Promyelocytic leukemia), also known as TRIM19, which plays a central role in antiviral defense.PML belongs to the Tripartite Motif (TRIM) protein family, characterized by the presence of an N- terminal RBCC pattern, consisting of a RING domain, one or two B-boxes and a coiled-coil domain. PML was identified in acute promyelocytic leukemia, a disease caused by the chromosomal translocation t(15 ;17), which fuses the PML and RARA genes, leading to the synthesis of a chimeric protein PML-RARA . Arsenic trioxide (As2O3) targets the PML moiety of the oncogenic protein, resulting in its degradation and in the complete remission of patients.In healthy cells, PML transcripts derived from a single gene generate seven major isoforms of PML by alternative splicing, including six nuclear (PMLI to PMLVI) and one cytoplasmic (PMLVIIb). All share the same N-terminus but differ at their C-terminus, giving each isoform specific functions.PML is the organizer of a multi-protein structure called nuclear bodies (NBs) that are involved in various cellular processes such as apoptosis, protein degradation or antiviral defense.PML is covalently modified by SUMO at three lysine residues (K65, K160, K490) but also non-covalently via its SIM domain (for « SUMO Interacting Motif »). These modifications are required for the formation of functional NBs and the recruitment of partner proteins within them.The aim of my thesis was to study the differential role of the different PML isoforms in response to As2O3 and during viral infection.We have shown that the SIM PML SIM is necessary for its degradation in response to As2O3. This motif is present in all PML isoforms, except the nuclear PMLVI and the cytoplasmic PMLVIIb isoforms. The SIM of PML is not required for its SUMOylation and its interaction with RNF4 (the E3 ubiquitin ligase responsible for PML proteasome-dependent degradation). However, this motif is required for the ubiquitination of PML, the recruitment of proteasome components and the degradation of PML in response to As2O3.Concerning the antiviral properties of PML, the study that we conducted with all PML isoforms allowed us to show that only PMLIII and PMLIV confer resistance to Vesicular Stomatitis Virus (VSV). Whereas the antiviral activity of PMLIII is only observed at low multiplicity of infection (MOI) and is independent of IFN production, PMLIV has a potent anti-VSV activity, including at high MOI, which is mediated through two distinct mechanisms: (i) PMLIV inhibits the replication of VSV by an early and IFN-independent mechanism, (ii) PMLIV later increases the production of IFN-β via a stronger activation of IRF3, which is due to the specific sequestration of Pin1 by PMLIV within NBs. Both processes require the PMLIV SUMOylation. These results show that PMLIV has an intrinsic antiviral activity and is also involved in innate immunity by positively regulating the transduction pathway leading to IFN-β synthesis.
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Respiratory Syncytial Virus-infected Mesenchymal Stem Cells Regulate Immunity via Interferon-beta and Indoleamine-2,3-dioxygenaseCheung, Michael B. 30 June 2016 (has links)
Respiratory syncytial virus (RSV) is the most common cause of acute lower respiratory tract infection in young children worldwide, accounting for an estimated 33.8 million cases of respiratory disease, over 3 million of which require hospitalization, and between 66,000 and 199,000 deaths in this susceptible population. Additionally, severe RSV infection early in life is associated with an increased risk of wheeze and other airway disorders later in life. Despite this, there is currently no vaccine or economically reasonable prophylactic regimen to prevent infection. While disease is typically more severe in infancy RSV can infect throughout the lifespan repeatedly as the body does not develop protective immunity during primary or subsequent infection. The mechanisms behind this incomplete immunity are unclear.
RSV has been reported to infect numerous extra-epithelial cell types. Interestingly, viral infection in human mesenchymal stem cells (MSCs) has been reported, but the consequences are poorly understood. MSCs are an immune regulatory cell population present in nearly every organ including the nasal mucosa and the lung. They play a role in regulating immune responses and mediating tissue repair. In the following studies we sought to determine whether RSV infection of MSCs enhances their immune regulatory functions and contributes to RSV-associated lung disease.
RSV was shown to replicate in human MSCs by fluorescence microscopy, plaque assay, and expression of RSV transcripts. RSV-infected MSCs showed differentially altered expression of cytokines and chemokines such as IL-1β, IL-6, IL-8 and SDF-1 compared to normal human bronchial epithelial cells. Notably, RSV-infected MSCs exhibited significantly increased expression of IFN-β (~100-fold) and indoleamine-2,3-dioxygenase (IDO) (~70-fold) compared with mock-infected MSCs. IDO was identified in cytosolic protein of infected cells by Western blots and enzymatic activity was detected by tryptophan catabolism assay. Treatment of PBMCs with culture supernatants from RSV-infected MSCs reduced their proliferation in a dose dependent manner. This effect on PBMC activation was reversed by treatment of MSCs with the IDO inhibitors 1-methyltryptophan and vitamin K3 during RSV infection.
We also demonstrated the pathway leading to IDO expression in RSV infected MSCs. Neutralizing IFN-β prevented IDO expression and activity indicating its role as a viral response factor perhaps “high jacked” by the virus in immune escape. Treatment of MSCs with an endosomal TLR, but not a RIG-I, inhibitor prevented IFN-β and IDO expression. Additionally, TLR3/dsRNA complex inhibitor was able to block IFN-β stimulation, while a TLR7/8/9 inhibitory ODN did not, suggesting that endosomal TLR3 detection of RSV dsRNA was leading to IFN-β and IDO expression. Together, these findings indicate that RSV infection of MSCs triggers their immune regulatory function via TLR3 recognition of dsRNA, upregulating IFN-β expression and IDO activity, ultimately affecting immune cell proliferation. This finding may account for the lack of protective RSV immunity and consequent repeated infections throughout one's lifetime.
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The role of interferon Beta (IFN-β) in the pathogenesis of infection caused by streptococcus suis serotype 2Santinón, Agustina X. 04 1900 (has links)
No description available.
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Myší polyomavirus:Způsob translokace do buněčného jádra a rozpoznání virových genomů sensory vrozené imunity / Mouse polyomavirus:The way of virus translocation to the cell nucleus and sensing of viral genomes by sensors of innate immunitySoldatova, Irina January 2021 (has links)
To understand molecular mechanisms of individual steps of virus infection is a prerequisite for successful design of specific and effective antiviral drugs. Polyomaviruses, replicating in the cell nucleus, travel from plasma membrane to the endoplasmic reticulum (ER) in endosomes. However, it is not clear how they deliver their DNA genomes from ER to the nucleus. In this thesis, we found that partially disassembled virions of the Murine polyomavirus (MPyV) interact with importin β1 at around 6 hours post infection. Mutational disruption of the nuclear localization signal (NLS) of the major capsid protein, VP1, and/or common NLS sequence of the minor capsid proteins VP2 and VP3 did not affect the structure and composition of virions, but it resulted in decreased viral infectivity (up to 80%). Virions are thus released from ER to cytosol and translocate to the nucleus via nucleopores. Mutation analyses of NLSs of individual capsid proteins showed that MPyV virions can utilize VP1 and VP2/VP3 NLSs in concert. However, one functional NLS, either that of VP1 or VP2/3 seems to be sufficient for the delivery of VP1-VP2/3 complexes into the nucleus, although none of these proteins is delivered into the nucleus separately. Thus, the conformation of NLS regions given by the presence of all three capsid...
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