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Mutated Measles Virus Matrix and Fusion Protein Influence Viral Titer In Vitro and Neuro-Invasion in Lewis Rat Brain Slice CulturesBusch, Johannes, Chey, Soroth, Sieg, Michael, Vahlenkamp, Thomas W., Liebert, Uwe G. 09 May 2023 (has links)
Measles virus (MV) can cause severe acute diseases as well as long-lasting clinical deteriorations due to viral-induced immunosuppression and neuronal manifestation. How the virus enters the brain and manages to persist in neuronal tissue is not fully understood. Various mutations in the viral genes were found in MV strains isolated from patient brains. In this study, reverse genetics was used to introduce mutations in the fusion, matrix and polymerase genes of MV. The generated virus clones were characterized in cell culture and used to infect rat brain slice cultures. A mutation in the carboxy-terminal domain of the matrix protein (R293Q) promoted the production of progeny virions. This effect was observed in Vero cells irrespective of the expression of the signaling lymphocyte activation molecule (SLAM). Furthermore, a mutation in the fusion protein (I225M) induced syncytia formation on Vero cells in the absence of SLAM and promoted viral spread throughout the rat brain slices. In this study, a solid ex vivo model was established to elucidate the MV mutations contributing to neural manifestation.
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Organotypic brain explants reveal an interleukin-12 / interferon-γ / T-cell dependent clearance of measles virus infectionStubblefield Park, Samantha Renee January 2011 (has links)
No description available.
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Dinâmica populacional do sistema imune aplicada ao sarampo / Population dynamics of the immune system applied to measlesGalante, Elias Tayar 15 August 2018 (has links)
Orientador: Hyun Mo Yang / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Matematica, Estatistica e Computação Cientifica / Made available in DSpace on 2018-08-15T01:35:10Z (GMT). No. of bitstreams: 1
Galante_EliasTayar_M.pdf: 1751184 bytes, checksum: fa4bf1ac61a7a7ee70c6e12c3a60d504 (MD5)
Previous issue date: 2010 / Resumo: Neste trabalho realizamos um estudo da interação entre o vírus do sarampo e o sistema imunológico humano, do ponto de vista da dinâmica populacional. Sistemas dinâmicos, compostos por equações diferenciais ordinárias não lineares de primeira ordem, são usados para a modelagem dessa dinâmica populacional. Devido ao fato de a infecção pelo vírus do sarampo apresentar dois momentos distintos bem definidos, optamos pelo desenvolvimento de dois modelos matemáticos, um descrevendo a etapa inicial da infecção e outro descrevendo a segunda etapa ou frase sistêmica da infecção. Esses dois modelos são desenvolvidos nos dois primeiros capítulos. Obtivemos os pontos de equilíbrio trivial destes modelos e os classificamos quanto à estabilidade. Além disso, fazemos um estudo dos pontos de equilíbrio não trivial quanto à existência, unicidade e estabilidade. Apresentamos diversas simulações numéricas do comportamento de ambos os modelos, de acordo com certos conjuntos de parâmetros numéricos que respeitam os critérios de estabilidade. Nessas simulações podemos estudar variações de concentrações de vírus e de células conforme a resposta imunológica ou as taxas de infecção são mais expressivas ou não. No terceiro capítulo fazemos um estudo conjunto dos dois modelos, comparamos a eficiência da resposta imunológica celular com a humoral e tecemos algumas considerações sobre o sarampo relacionado à desnutrição. / Abstract: This work is a study of the interaction between the measles virus and the human immune system from the point of view of the population dynamics. Dynamical systems of first order non linear ordinary differential equations are used to model this population dynamics. Because of the fact that it is possible to observe two different and quite distinct moments in the infection by the measles virus, we chose to develop two different mathematical models in order to accurately describe the whole process of infection. The first model describes the early stage of the infection and the second model describes the second stage of the infection, the systemic phase. Both these models are developed and studied in the first two chapters. We have calculated the trivial equilibrium points of these models and we have studied their stability. More over, we have studied the non trivial equilibrium points and have determined its existence, uniqueness and stability. We show many graphics from numerical simulations of the behaviour of both models. In these simulations we have used a certain set of parameters which were chosen in accordance with the threshold condition (local stability criteria). In these graphics we can observe variations in the immune responses weaker or stronger. In the third chapter we have studied both models connected, we made a comparision between the cellular response and the humoral response effectiveness and, eventually, we made a few considerations about the relation between measles and malnutrition. / Mestrado / Biomatematica / Mestre em Matemática Aplicada
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Investigation of an Oncolytic MeV Cell-Cell Fusion Phenomenon Induced by an siRNABarkley, Russell 02 December 2020 (has links)
Oncolytic measles virus is a promising cancer therapeutic in clinical trials which
possesses multiple characteristics that are advantageous over traditional therapies.
Currently, clinical oncolytic measles virus vectors are unmodified or express reporter
transgenes that benefit its therapeutic efficacy. The next phase in its development will
see genetically engineered vectors encoding transgenes that enhance its antineoplastic effects. To this end, preclinical research has focused on studying novel transgenes which favour viral replication, cytotoxicity, and the anti-cancer immune response. We sought to encode artificial micoRNAs targeting RIG-I as a strategy to interfere with innate immunity. Silencing RIG-I with multiple siRNAs yielded one which promotes measles virus syncytia formation through a mechanism that appears to be independent of RIG-I. The mechanism caused by the siRNA leads to enhanced measles virus cell-cell fusion and has peculiar characteristics which are not fully understood.
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Mechanisms of Measles Virus-Induced Immune Suppression in the Cotton Rat ModelCarsillo, Mary Elizabeth 16 September 2009 (has links)
No description available.
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Measles virus causes immunogenic cell death in human melanomaDonnelly, O.G., Errington-Mais, F., Steele, L., Hadac, E., Jennings, V., Scott, K., Peach, H., Phillips, Roger M., Bond, J., Pandha, H.S., Harrington, K.J., Vile, R., Russell, S., Selby, P., Melcher, A.A. January 2013 (has links)
No / Oncolytic viruses (OV) are promising treatments for cancer, with several currently undergoing testing in randomised clinical trials. Measles virus (MV) has not yet been tested in models of human melanoma. This study demonstrates the efficacy of MV against human melanoma. It is increasingly recognised that an essential component of therapy with OV is the recruitment of host antitumour immune responses, both innate and adaptive. MV-mediated melanoma cell death is an inflammatory process, causing the release of inflammatory cytokines including type-1 interferons and the potent danger signal HMGB1. Here, using human in vitro models, we demonstrate that MV enhances innate antitumour activity, and that MV-mediated melanoma cell death is capable of stimulating a melanoma-specific adaptive immune response.
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Study of the role of measles virus receptor CD150 in viral immunopathogenesis and characterization of novel CD150 isoformRomanets, Olga 14 December 2012 (has links) (PDF)
Measles virus (MV) causes an acute childhood disease, associated in certain cases with the infection of the central nervous system (CNS). MV induces a profound immunosuppression, resulting in high infant mortality. The major cellular receptor for MV is CD150, which binds MV hemagglutinin (MV-H). As dendritic cell (DC) dysfunction is considered to be essential for the MV immunopathogenesis, we analyzed consequences of MV-H interaction with DCs. We developed an experimental model allowing us to analyze the direct CD150-MV-H interaction in the absence of infectious context. This interaction caused the downregulation of surface expression of CD80, CD83, CD86 and HLA-DR molecules and inhibition of IL-12 production in DCs. DCs also failed to activate T cell proliferation. The CD150-MV-H interaction in DCs and B cells decreased the phosphorylation of JNK1/2, but not ERK1/2 kinases, after subsequent CD150 ligation with anti-CD150 antibodies. Moreover, MV-H by itself induced Akt phosphorylation via CD150 in DCs and B cells. Engagement of CD150 by MV-H in mice transgenic for human CD150 decreased the inflammatory reaction, contact hypersensitivity response, confirming the immunosuppressive effect of CD150-MV-H interaction in vivo. Furthermore, our studies revealed the CD150 expression in CNS tumors and identified the novel CD150 isoform, containing an additional 83bp exon expressed in lymphoid cells, DCs and CNS tumors. Although its isoforms remain intracellular in tumor cells, CD150 may represent a new marker for human brain tumors. Novel mechanism of CD150-induced immunosuppression and new CD150 isoform identified in these studies shed new light on its immunoregulatory role and CD150 isoform diversity and open perspectives for their clinical applications.
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Ordre et désordre, bases structurales de la reconnaissance moléculaire chez les paramyxovirus / Structural Basis of Molecular Recognition in Intrinsically Disordered Viral ProteinsCommunie, Guillaume 24 October 2013 (has links)
Environ 40 pour cent du protéome humain est composé d'importantes régions dépliées. Ces protéines intrinsèquement désordonnées (PID) n'adoptent pas de structures secondaires et tertiaires stables mais échantillonnent un vaste paysage conformationnel. Malgré cela, elles sont aujourd'hui connues pour intervenir dans de nombreux processus biologiques ou pathologiques. À l'instar des eucaryotes, les virus -- surtout les virus à ARN -- ont eux aussi recours aux propriétés particulières des PID pour effectuer les interactions nécessaires à leur réplication. Les paramyxovirus, comme le virus de la rougeole, sont des virus à ARN simple brin de polarité négative et environ 10 pour cent de leur génome de 15 à 18 kilobases code pour des régions dépliées. Cette thèse détaille l'étude de deux protéines virales directement impliquées dans la réplication, la nucléoprotéine et la phosphoprotéine. Elles interagissent l'une avec l'autre et sont composées à la fois de régions dépliées et repliées. Des données à résolution atomique ont été obtenues en spectroscopie par Résonance Magnétique Nucléaire (RMN) en ce qui concerne les parties désordonnées, et en cristallographie pour ce qui est des parties repliées. Les résultats apportent un nouvel aperçu du rôle du désordre conformationnel dans la transcription et la réplication des paramyxovirus. / About 40 percent of the human proteome contains large disordered regions. These intrinsically disordered proteins (IDPs) do not adopt stable secondary and tertiary structures, but sample a large conformational space. In spite of that, they are now known to be involved in many physiological as well as pathological processes. Following the example of eukaryotes, viruses -- especially RNA viruses -- benefit from the particular features of IDPs in their replication machinery. Paramyxoviruses, that includes Measles virus, are single stranded, negative sense RNA viruses and about 10 percent of their 15 to 18 kilobase RNA genome is known to encode for disordered regions. This thesis focuses on the study of two different proteins of paramyxoviruses, namely the nucleoprotein and the phosphoprotein that are directly involved in the replication of the viral genome. They interact with each other and are composed of folded and disordered domains. Atomic resolution information is obtained about the structure and dynamics of these proteins using a combination of Nuclear Magnetic Resonance (NMR) spectroscopy measurements for the disordered parts and X-ray crystallography for the folded domains. The results provide novel insight into the role of conformational disorder in transcription and replication of paramyxoviruses.
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Study of the role of measles virus receptor CD150 in viral immunopathogenesis and characterization of novel CD150 isoform / Étude du rôle du récepteur du virus de la rougeole CD150 dans l’immunopathogénèse virale et caractérisation d’une nouvelle isoforme de CD150Romanets, Olga 14 December 2012 (has links)
Le virus de la rougeole (MV) provoque une maladie sévère chez les enfants qui induit une forte immunosuppression et peut dans certains cas infecter le système nerveux central (SNC). La protéine CD150, principal récepteur cellulaire du virus, permet l’entrée du MV en se liant à l’hémagglutinine (MV-H). L’altération fonctionnelle des cellules dendritiques (DC) étant considérée comme essentielle dans l’immunopathogénèse du MV, nous avons analysé les conséquences de l’interaction de MV-H avec les DC. Nous avons développé un modèle expérimental qui nous permet d’étudier l’interaction directe entre CD150 et MV-H hors contexte infectieux. Nos résultats montrent que cette interaction provoque une diminution de l’expression des molécules de surface CD80, CD83, CD86, et HLA-DR, de la production d’IL-12 par les DC, et de la capacité des DC à stimuler la prolifération des lymphocytes T. L’interaction CD150-MV-H a inhibé la phosphorylation des protéines kinases JNK1/2 dans les DC et les lymphocytes B (LB) induite par la stimulation de CD150 par un anticorps spécifique, mais pas celle des kinases ERK1/2. Par ailleurs MV-H seule induit la phosphorylation d’Akt via CD150 dans les DC et les LB. La liaison de CD150 par MV-H a réduit la réponse inflammatoire chez les souris transgéniques exprimant CD150 humain, ce qui confirme l’effet de l’interaction de CD150 et MV-H in vivo. Nos études ont révélé l’expression de CD150 dans les tumeurs du SNC et l’existence d’une nouvelle isoforme de CD150. Cette isoforme contient un exon supplémentaire de 83 pb et est exprimée dans les cellules lymphoïdes et les DC en plus des tumeurs du SNC. Bien que l’expression de CD150 soit uniquement intracellulaire dans les cellules tumorales, elle peut représenter un nouveau marqueur pour les tumeurs cérébrales humaines. Cette étude apporte un éclairage nouveau sur le rôle immunorégulateur de CD150 et sur la diversité de ses isoformes, et ouvre ainsi de nouvelles perspectives pour leurs applications thérapeutiques. / Measles virus (MV) causes an acute childhood disease, associated in certain cases with the infection of the central nervous system (CNS). MV induces a profound immunosuppression, resulting in high infant mortality. The major cellular receptor for MV is CD150, which binds MV hemagglutinin (MV-H). As dendritic cell (DC) dysfunction is considered to be essential for the MV immunopathogenesis, we analyzed consequences of MV-H interaction with DCs. We developed an experimental model allowing us to analyze the direct CD150-MV-H interaction in the absence of infectious context. This interaction caused the downregulation of surface expression of CD80, CD83, CD86 and HLA-DR molecules and inhibition of IL-12 production in DCs. DCs also failed to activate T cell proliferation. The CD150-MV-H interaction in DCs and B cells decreased the phosphorylation of JNK1/2, but not ERK1/2 kinases, after subsequent CD150 ligation with anti-CD150 antibodies. Moreover, MV-H by itself induced Akt phosphorylation via CD150 in DCs and B cells. Engagement of CD150 by MV-H in mice transgenic for human CD150 decreased the inflammatory reaction, contact hypersensitivity response, confirming the immunosuppressive effect of CD150-MV-H interaction in vivo. Furthermore, our studies revealed the CD150 expression in CNS tumors and identified the novel CD150 isoform, containing an additional 83bp exon expressed in lymphoid cells, DCs and CNS tumors. Although its isoforms remain intracellular in tumor cells, CD150 may represent a new marker for human brain tumors. Novel mechanism of CD150-induced immunosuppression and new CD150 isoform identified in these studies shed new light on its immunoregulatory role and CD150 isoform diversity and open perspectives for their clinical applications.
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Dual Promoters Improve the Rescue of Recombinant Measles Virus in Human CellsChey, Soroth, Palmer, Juliane Maria, Doerr, Laura, Liebert, Uwe Gerd 09 May 2023 (has links)
Reverse genetics is a technology that allows the production of a virus from its complementary DNA (cDNA). It is a powerful tool for analyzing viral genes, the development of novel vaccines, and gene delivery vectors. The standard reverse genetics protocols are laborious, time-consuming, and inefficient for negative-strand RNA viruses. A new reverse genetics platform was established, which increases the recovery efficiency of the measles virus (MV) in human 293-3-46 cells. The novel features compared with the standard system involving 293-3-46 cells comprise (a) dual promoters containing the RNA polymerase II promoter (CMV) and the bacteriophage T7 promoter placed in uni-direction on the same plasmid to enhance RNA transcription; (b) three G nucleotides added just after the T7 promoter to increase the T7 RNA polymerase activity; and (c) two ribozymes, the hairpin hammerhead ribozyme (HHRz), and the hepatitis delta virus ribozyme (HDVrz), were used to cleavage the exact termini of the antigenome RNA. Full-length antigenome cDNA of MV of the wild type IC323 strain or the vaccine AIK-C strain was inserted into the plasmid backbone. Both virus strains were easily rescued from their respective cloned cDNA. The rescue efficiency increased up to 80% compared with the use of the standard T7 rescue system. We assume that this system might be helpful in the rescue of other human mononegavirales.
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