Global ETD Search

21	Rôle de l'acétylation du facteur de transcription IRF3 Wissanji, Tasheen 08 1900 (has links) No description available. Réponse anti-virale Interféron de type I IRF3 Modification posttraductionnelle Acétylation Anti-viral response Type I interferon IRF3 Post-translationnal Acetylation
22	INVESTIGATING THE ROLE OF ESTRADIOL AND THE MUCOSAL MICROENVIRONMENT ON Th17 RESPONSES PRIMED BY DENDRITIC CELLS IN THE FEMALE GENITAL TRACT / ESTRADIOL INFLUENCES THE FUNCTION OF VAGINAL DENDRITIC CELLS Anipindi, Varun Chaitanya January 2016 (has links) Clinical and experimental studies have shown that estradiol (E2) can enhance protection against sexually transmitted infections such as HSV-2 and HIV-1. Antigen presenting cells (APCs) such as Dendritic cells (DCs) are critical for generating immune responses against these infections, and it is unclear whether unique factors present in the genital mucosa can influence immune responses by directly modulating the phenotype and function of local APCs. To address this, I hypothesized that sex hormones, such as E2 and innate factors in the local microenvironment can regulate the phenotype and function of vaginal APCs. The work summarized in this thesis addressed this central hypothesis. In the first section of the thesis, I examined whether vaginal APCs were distinct in their phenotype and function compared to those in other mucosal tissues or spleen. The results show that the vagina was enriched in CD11c+ CD11b+ MHCII− DCs. Functionally, vaginal tissue cells (TC) and CD11c+ DCs were more potent inducers of Th17 responses in co-cultures with CD4+ T cells, compared to lung, small intestine or spleen APCs. E2 was critical for the conditioning of vaginal DCs to prime these Th17 responses through an IL-1-dependent pathway, indicating that sex hormones such as E2 can directly influence the function of vaginal APCs. In the next section, I determined whether other co-factors in the genital microenvironment such as microflora and innate lymphocytes could also influence vaginal APC functions. We found that while microflora was not essential, IL-17 produced by innate lymphocytes was critical for the induction of IL-1 from DCs, and consequently for potentiating Th17 responses. Finally, I attempted to develop an in vivo mouse model where the effect of E2 on vaginal APCs could be examined in the context of genital HSV-2 infection. I tested a 7-day injectable E2 and a 21-day E2 pellet delivery model, and found that both regimes had limitations for examining E2-effects on anti-viral responses. Yet, subsequent to the work done in this thesis, we were able to confirm our observations of E2-conditioned Th17 responses in vivo in an intranasal immunization model utilizing E2 pellet delivery, and thereby addressed the mechanism underlying enhanced anti-viral protection following E2-treatment. In conclusion, this is the first study to show the effect of E2 on genital tract APCs and their ability to prime Th17 responses. It provides future avenues to examine whether modulation of this microenvironment can help optimize vaccine-induced immune responses against STIs. On a more fundamental level, it highlights the need to consider the inherent distinctions in APC populations among different mucosal tissues. / Dissertation / Doctor of Philosophy (PhD) sexually transmitted infections Th17 sex hormones estradiol HSV-2 Dendritic cells microflora mucosal immunity anti-viral responses antigen presenting cells microenvironment
23	Étude de la fonction et de la régulation homéostatique des lymphocytes T extrathymiques Blais, Marie-Eve January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal. Cellules T extrathymiques Extrathymic T cells Homéostasie Homeostasis Apoptose Apopotosis Cytokines Cytokines Cellules t régulatrices Regulatory T cells Prolifération homéostatique Homeostatic proliferation Thymus Thymus Réponse anti-virale Anti-viral response Cellules T mémoires Memory T cells Souris transgénique Transgenics
24	Étude de la fonction et de la régulation homéostatique des lymphocytes T extrathymiques Blais, Marie-Eve January 2008 (has links) Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal Cellules T extrathymiques Extrathymic T cells Homéostasie Homeostasis Apoptose Apopotosis Cytokines Cytokines Cellules t régulatrices Regulatory T cells Prolifération homéostatique Homeostatic proliferation Thymus Thymus Réponse anti-virale Anti-viral response Cellules T mémoires Memory T cells Souris transgénique Transgenics
25	La mégère apprivoisée : élaborer des stratégies pour la gestion de la résistance aux médicaments dans la grippe et l'infection par le virus de l'immunodéficience humaine / The taming of the shrew : developing strategies for the management of drug resistance in influenza and human immunodeficiency viroses Rath, Barbara 20 November 2012 (has links) Le développement de médicaments efficaces contre le virus de l'immunodéficience humaine (VIH) est l'une des plus grandes réussites dans l'histoire médicale récente: lorsque la thérapie combinée est devenu la norme des soins en 1996, une maladie mortelle a été progressivement transformée en une maladie chronique gérable. Les décennies suivantes ont été consacrées à l'élaboration des schémas thérapeutiques consolidés pour les adultes et les enfants, à la prévention de la transmission mère-enfant et à élargir l'accès à la thérapie antirétrovirale dans les pays en développement. La réussite d'un traitement antiviral de l'infection par le VIH est devenue un modèle pour l'élaboration de stratégies de traitement efficaces pour d'autres maladies virales, telles que les hépatites, les infections à herpesviridae, enteroviridae, et la grippe A et B. Cette thèse vise à tracer une ligne continue depuis : (1) de nouveaux modèles in vitro pour simuler un traitement combiné contre un VIH-1 multirésistant afin de promouvoir la sélection du régime le plus/ durable chez les patients en sauvetage thérapeutique, à (2) la meilleure approche e11 termes de coût-bénéfice pour la surveillance de la pharmacorésistance dans les cohortes de patients traités dans des milieux à faibles ressources, et enfin jusqu'à (3) une approche translationnelle vers la gestion du traitement de la grippe et la prédiction du développement- de virus résistants aux médicaments chez les enfants. Elle vise à fournir une synthèse des leçons apprises dans l'optimisation de stratégies de traitements antiviraux et de la prévention des résistances contre le VIH et le virus de fa grippe chez les adultes et les enfants. / The development or efficacious drugs against the human immunodeficiency virus is one of the greatest success stories in the recent medical history: when combination therapy became standard of care after the Vancouver Conference in 1996, a deadly disease was gradually turned into a manageable chronic condition. The following decades have been dedicated to developing consolidated treatment regimens for both adults and children, to the prevention of mother-to-child transmission and to expanding access to antiretroviral therapy (AR1) in developing countries. Subsequently, the success story of antiviral treatment of Hl V infection has become a model for tl1e development of successful treatment strategies for other viral diseases, such as hepatitis and infections with herpesviridae, enteroviridae and influenza A and B. This thesis aims to draw a continuous line from: (1) new in vitro models to simulate comhination therapy against multidrug-resistant HIV-1 promoting the selection of the most sustainable regimen in salvage patients, to (2) a cost-effective approach to monitoring drug resistance in treatment cohorts in low-resource settings, and finally to (3) a translational approach to managing influenza therapy and predicting the development of drug resistant influenza in children. The work presented herein aims to provide a comprehensive view of the lessons learned in optimizing antiviral treatment strategies against HIV and influenza virus in adults and children Virus de la grippe Médicaments anti-viraux Résistance aux médicaments Biostatistiques Pays en développement Santé Publique Pédiatrie Human immunodeficiency virus (HIV) Influenza Virus Anti-viral drugs Resistance to drugs Biostatistics Developing countries Public health Pediatrics 616.9
26	Host Gene Expression Profiling of Japanese Encephalitis Virus Infected cells : Identification of Novel Pro- and Anti-viral Genes Bhandari, Prakash January 2013 (has links) (PDF) Japanese encephalitis virus (JEV), a mosquito-borne flavivirus is the causative agent of Japanese encephalitis (JE). The disease affects mostly children and around 30000– 50000 cases of JE and up to 15000 deaths are reported annually. No anti-viral drugs have been discovered against JE so far, but advances in our knowledge of the molecular biology of flaviviruses is propelling flaviviral drug research at an expeditious pace. Since JEV has a small genome which encodes for only ten proteins, there is dearth of potential drug targets. Researchers are now focusing on cellular interactomes, a complex and dynamic molecular biosystem which identifies host proteins which interact with either viral proteins or viral genomes, leading to the generation of an astronomical number of potential drug targets involving common cellular pathways that are required for the life cycle of different viruses. Such studies can pave way for the development of ‘broad-spectrum’, ‘silver-bullet’ anti-viral drugs for the treatment of multiple viral diseases. The cellular interactomes can be studied by Genomics tools such as microarray. Systematic profiling of genes involved in virus infection by RNAi, transcriptome sequencing, microRNA profiling and yeast two-hybrid system has allowed us to assess global gene expression changes providing an unprecedented view on the host-side of the virus–host interactions. Advent of these tools has led to identification of plethora anti-viral genes. For example, over expression of IFN-stimulated gene15 (ISG15) results in inhibition of JEV leading to significant reduction of viral titers. Chemokine profiling of JEV-infected cells by microarray can provide possible therapeutic modalities that can mitigate the morbidity associated with JEV infection. Functional classification of interferon-stimulated genes (ISG) identified using innovative methods have been the stepping stone for identification of many anti-viral genes, among them are few Broadly acting effectors like IRF1, C6orf150, HPSE, RIG-I, MDA5 and IFITM3 and some more targeted antiviral specific like DDX60, IFI44L, IFI6, IFITM2, MAP3K14, MOV10, NAMPT, OASL, RTP4, TREX1 and UNC84B. In this study, we have identified a B16F10 murine melanoma cell line that is resistant to JEV infection. DNA microarray analysis of JEV-susceptible and resistant B16F10 cell lines gave us interesting insights into JEV-induced host gene expression changes. Real time PCR validation of microarray data indicates that a number of virus and interferon inducible genes are expressed constitutively at high levels in this JEV-resistant cell line. Further, several of the mouse genes induced by JEV in B16F10 cell line were also upregulated in JEV-infected mouse brain. To understand the significance of these host gene expression changes, we attempted to generate stable murine cell lines constitutively expressing select JEV-inducible genes and study the JEV infection pattern in these cell lines. One of the JEV-inducible genes encoding thymidylate kinase (Tyki), a mitochondrial protein involved in the sysnthesis of nucleoside diphosphates, when overexpressed in NIH3T3 cells confers resistance to JEV infection as evident from reduced JEV-induced cytopathic effects and significant reduction in viral titer. Since TYKI has two distinct domains: the N-terminal domain with unknown function and the C-terminal domain with the nucleoside monophosphate kinase function, suggest that TYKI may be a bifunctional protein with other biological functions in addition to its UMP-CMP kinase activity. In order to examine whether N-terminal domain is responsible for antiviral activity of the protein, a stable cell line constitutively expressing N-terminal domain of gene was made, but the overexpression of N-terminal domain didn't confer any antiviral immunity. Thus signifying importance of kinase activity in confering antiviral immunity. Our studies indicate for the first time that Tyki may have a role in host resistance to JEV and understanding the mechanism of action Tyki may pave way for novel anti-JEV therapy. Stable cell lines constitutively expressing other JEV-inducible genes (Atf3, Gimap3, Rtp4, Glipr2, Tmem140 and Garg49) couldn't be generated. Therefore, to study the effect of overexpression of these genes on JEV infection, expression vectors encoding these genes were transfected individually to human 293T cells by nucleofection, then infected with JEV and viral titres were examined by plaque assay. Nucleofection was opted as a method of choice since it is the only non-viral method, which transfects DNA directly enter the nucleus. In contrast, other commonly used non-viral transfection methods rely on cell division for the transfer of DNA into the nucleus. Nucleofection of vectors encoding different JEV-inducible genes followed by JEV infection and assay of viral titer led to identification of one more anti-viral gene and three pro-viral genes. Garg49, an interferon and JEV inducible mitochondrial gene was identified as antiviral gene. Further studies led to the identification of GARG49 as a mitochondrial protein. Three genes, Atf3, encoding a cAMP responsive element binding protein family transcription factor, Glipr2, encoding a Glioma related pathogenesis protein and Gimap3, encoding an outer mitochondrial membrane GTPase were identified as pro viral genes. Overexpression of Tmem140, encoding a transmembrane protein and Rtp4, encoding a golgi chaperone did not significantly affect JEV titer. Conclusions: . A JEV-resistant B16F10 murine melanoma cell line was identified and several JEV-inducible genes were found to be expressed constitutively at high levels in this cell line. .We demonstrate for the first time that Tyki/Ump-Cmpk2 encoding a mitochondrial nucleoside monophosphate kinase has an anti-JEV function and the C-terminal domain is essential for anti-viral activity. .Garg49/Ifit3 encodes an interferon and JEV-inducible mitochondrial protein and it has an anti-JEV function. . Activating transcription factor 3 (ATF3), GTPase, IMAP family member 3 (GIMAP3) and GLI pathogenesis-related 2 (GLIPR2) are pro-viral proteins which facilitate virus multiplication resulting in enhanced JEV titer. Japanese Encephalitis Virus (JEV) Virus-Host Interaction Japanese Encephalitis Virus Tyki Garg49 JEV Resistant Murine Melanoma Cells Flaviviruses JEV-induced Host-Gene Expression Pro-Viral Genes Anti-Viral Genes JEV Inducible Mouse Genes Biochemistry
27	Évaluation d’une nouvelle approche vaccinale basée sur l’électroporation in vivo d’ADN pour le traitement des hépatites B chroniques / Evaluation of a new vaccinal approach based on DNA delivery by in vivo electroporation for chronic hepatitis B therapy Khawaja, Ghada 23 March 2012 (has links) Malgré l’existence d’un vaccin préventif efficace, l’infection chronique par le virus de l’hépatite B (HBV) demeure un problème majeur de santé publique. La persistance de l’infection par HBV étant clairement associée à des réponses immunitaires insuffisantes, l’immunothérapie par le vaccin à base d’ADN nu, visant à stimuler les réponses humorales et cellulaires, apparaît comme particulièrement pertinente pour la thérapie des hépatites B chroniques. Toutefois, l’efficacité thérapeutique d’une telle stratégie reste limitée chez l’homme, d’où la nécessité d’optimiser cette approche vaccinale pour une utilisation ultérieure en clinique. Ainsi, l’objectif général de ce travail de thèse était d’explorer, avec le modèle du DHBV (« Duck Hepatitis B Virus »), étroitement apparenté au HBV humain, si l’administration du vaccin à ADN par électroporation (EP) pouvait davantage améliorer son efficacité prophylactique et thérapeutique. Nous avons montré, dans un 1er temps chez des canards naïfs, que l’administration du vaccin à ADN par EP permet de potentialiser le pouvoir neutralisant et d’élargir le répertoire épitopique de la réponse humorale dirigée contre la protéine d’enveloppe du DHBV, même avec des doses d’ADN relativement faibles. Dans un 2ème temps, nous avons montré chez des animaux chroniquement infectés par le DHBV, que l’administration par EP du vaccin à ADN ciblant les protéines structurales du DHBV et le DuIFN-γ améliore considérablement l’efficacité thérapeutique du vaccin, notamment au regard de la séroconversion et de la clairance virale. Les résultats ainsi obtenus confirment l’intérêt majeur de cette approche vaccinale pour la thérapie des hépatites B chroniques / Despite the existence of an effective prophylactic vaccine, chronic hepatitis B virus (HBV) infection remains a major public health problem. Since persistence of HBV infection is mostly associated with insufficient immune responses, therefore DNA vaccination capable of activating both humoral and cellular immune responses appears as a pertinent strategy for chronic hepatitis B therapy. However, the efficacy of such therapeutic approach remains limited in humans. Improvement of DNA vaccine efficacy is therefore needed for future therapeutic applications in clinic. The main objective of this thesis was to investigate in the duck hepatitis B virus (DHBV) model, whether the protective and therapeutic efficacy of DNA vaccine can be enhanced using EP-based delivery system. Firstly, we showed in naïve ducks that EP-based delivery was able to improve the dose efficiency of DNA vaccine and to maintain a highly neutralizing, multi-specific B-cell response even with relatively low DNA doses, suggesting that it may be an effective approach for chronic hepatitis B therapy at clinically feasible DNA dose. Secondly, we showed in chronic DHBV-carriers that in vivo EP is able to dramatically enhance the therapeutic potency of DNA vaccine targeting hepadnaviral proteins. Indeed, this approach was able to consistently restore humoral immune response and to sustainably decrease and even clear viral infection. Thus, these data strongly support the use of this approach for chronic hepatitis B therapy in humans Vaccin à ADN Électroporation HBV (Virus de l'Hépatite B) DHBV (Duck Hepatitis B Virus) ADNccc (AND Viral superenroulé) Réponses immunitaires anti-virales Neutralisation Épitopes B DNA vaccination Electroporation HBV (Hepatitis B Virus) DHBV (Duck Hepatitis B Virus) CccDNA (Covalently Closed Circular DNA) Anti-viral immune response Neutralization B cells epitopes 616.91
28	Functional characterization of the human adenovirus pVII protein and non-coding VA RNAI Inturi, Raviteja January 2017 (has links) Human adenovirus (HAdV) is a common pathogen causing a broad spectrum of diseases. HAdV encodes the pVII protein, which is involved in nuclear delivery, protection and expression of viral DNA. To suppress the cellular interferon (IFN) and RNA interference (RNAi) systems, HAdVs encode non-coding virus-associated (VA) RNAs. In this thesis we have investigated the functional significance of the pVII protein and VA RNAI in HAdV-5 infected cells. We report that the propeptide module is the destabilizing element targeting the precursor pVII protein for proteasomal degradation. We also found that the Cul3-based E3 ubiquitin ligase complex alter the precursor pVII protein stability via binding to the propeptide sequence. In addition, we show that inhibition of the Cul3 protein reduces HAdV-5 E1A gene expression. Collectively, our results suggest a novel function for the pVII propeptide module and involvement of Cul3 in viral E1A gene expression. Our studies show that the cellular E3 ubiquitin ligase MKRN1 is a novel pVII interacting protein in HAdV-5 infected cells. MKRN1 expression reduced the pVII protein accumulation in virus-infected cells and affected infectious virus formation. Surprisingly, the endogenous MKRN1 protein underwent proteasomal degradation during the prolonged HAdV-5 infection. Furthermore, the precursor pVII protein enhanced MKRN1 self-ubiquitination, suggesting the direct involvement of pVII in the initiation of MKRN1 degradation. Hence, we propose that the MKRN1 is a novel antiviral protein and that HAdV-5 infection counteracts its antiviral activity. In papers III and IV, we tested the ability of various plant and animal virus encoded RNAi/miRNA and IFN suppressor proteins to functionally substitute for the HAdV-5 VA RNAI. Our results revealed that the Vaccinia virus E3L protein was able to partially substitute for the HAdV-5 VA RNAI functions in virus-infected cells. Interestingly, the E3L protein rescued the translational defect but did not stimulate viral capsid mRNA accumulation observed with VA RNA. Additionally, we show that the HAdV-4 and HAdV-37 VA RNAI are more effective in virus replication compared to HAdV-5 and HAdV-12 VA RNAI. In paper IV, we employed a novel triplex-specific probing assay, based on the intercalating and cleaving agent benzoquinoquinaxline 1,10-phenanthroline (BQQ-OP), to unravel triplex structure formation in  VA RNAI. The BQQ-OP cleavage of HAdV-4 VA RNAI indicates that a potential  triplex is formed involving the highly conserved stem 4 of the central domain and side  stem 7. Further, the integrity of HAdV-4 VA RNAI stem 7 contributes to the virus growth in vivo. Adenovirus VA RNA protein VII Ubiquitination proteasome anti-viral Cell and Molecular Biology Cell- och molekylärbiologi

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