Global ETD Search

21	Investigating the role of host-pathogen interactions in Epstein- Barr Virus (EBV) associated cancers Srishti Chakravorty (13876877) 30 September 2022 (has links) <p> </p> <p>Epstein-Barr virus (EBV) is a complex oncogenic symbiont. The molecular mechanisms governing EBV carcinogenesis remain elusive and the functional interactions between virus and host cells are incompletely defined. Some of the known mechanisms include viral integration into the host genome, expression and mutation(s) of viral genes and the host response to the virus. Despite decades of research there is a lack of effective treatment options for EBV-positive cancer patients underscoring an urgent need to further investigate the mechanisms underlying tumorigenesis as well as explore and develop personalized treatment strategies for patients with EBV-positive cancers. In Chapter 1, I introduce Epstein-Barr Virus (EBV), the two phases of EBV lifecycle and an overview of certain EBV-associated carcinomas. I will also discuss the underlying mechanisms and few current therapeutic strategies against EBV infection. Next, I will discuss some of the preclinical model systems and high-throughput computation techniques that are commonly used by researchers in the field of EBV. </p> <p>In chapter 2, we have systematically analyzed RNA-sequencing from >1000 patients with 15 different cancer types, comparing virus and host factors of EBV+ to EBV- tissues to reveal novel insights into EBV-positive tumors. First, we observed that EBV preferentially integrates at highly accessible regions of the cancer genome with significant enrichment in super-enhancer architecture. Second, we determined that the expression of twelve EBV transcripts, including LMP1 and LMP2, correlated inversely with EBV reactivation signature. Over-expression of these genes significantly suppressed viral reactivation, consistent with a ‘Virostatic’ function. Third, we identified hundreds of novel frequent missense and nonsense variations in Virostatic genes in cancer samples, and that the variant genes failed to regulate their viral and cellular targets in cancer. Lastly, we were able to dichotomously classify EBV-positive tumors based on patterns of host interferon signature genes and immune checkpoint markers, such as PD-L1 and IDO1. </p> <p>In chapter 3, we probed the lifecycle of EBV on a cell-by-cell basis using single cell RNA sequencing (scRNA-seq) data from six EBV-immortalized lymphoblastoid cell lines (LCL). While the majority of LCLs comprised cells containing EBV in the latent phase of its life cycle, we identified two additional clusters that had distinct expression of both host and viral genes. Both clusters were high expressors of EBV Latent Membrane Protein-1 (LMP1) but differed in their expression of other EBV lytic genes, including glycoprotein gene GP350. We further probed into the transcriptional landscape of these clusters to identify potential regulators which will be discussed in further detail in the chapter. Importantly, I was able to demonstrate enhancing HIF1-a signaling by using Pevonedistat, a compound that stabilized HIF1-a can preferentially induce the transcriptional program specific to one of the three identified clusters. </p> <p>In Chapter 4, I describe some of my recent work. In this project, we have used an intuitive <em>in-silico </em>drug prediction approach to rapidly screen and identify FDA-approved or clinically available compounds that can be repurposed to induce lytic cycle in different EBV+ tumors. Using this strategy, we identified Ciclopirox, an antifungal drug, as a potent inducer of lytic cycle in EBV+ epithelial cancers. We used EBV+ GC cells to determine the effect of Ciclopirox on EBV reactivation as well as identify the underlying mechanisms. In summary, we discovered that reactivation of EBV lytic cycle by Ciclopirox is mediated by multiple pathways, two of the major ones being the HIF1-a and NF-kB pathways. Although, Ciclopirox treatment enhanced the killing effect of antiviral, further investigation is needed to effectively deliver this drug <em>in vivo.</em> Throughout this chapter, I have discussed findings that needs further investigation and proposed necessary experiments. Finally, in Chapter 5 I have summarized my work and described how our work can provide novel insights that can help delineate some of the complexities of host-pathogen interactions in EBV-associated malignancies. </p> Translational and applied bioinformatics Cancer cell biology Cancer EBV NGS Host-pathogen interactions in silico drug prediction EBV reactivation Lytic induction therapy EBV cancers
22	Temporal Regulation of LMP1 and Apoptosis Resistance After Primary EBV Infection Price, Alexander Matthew January 2016 (has links) <p>Epstein-Barr virus (EBV) is a ubiquitous human pathogen that establishes a lifelong latent infection in over ninety percent of all adult humans worldwide. While typically benign, EBV has been causally associated with a number of human malignancies in the settings of immune suppression, genetic, and/or environmental factors. While a highly successful pathogen based on prevalence, the ability of the virus to immortalize human B cells (a stage of infection thought to be critical for the establishment of latency) is quite poor. We hypothesize that the interactions between the virus and the human host early after infection are ultimately important for the outcome of viral latency establishment. To answer this question we broadly profiled primary human B cells at both early and late times after EBV infection to assay both host mRNA expression and the host-driven response to apoptotic stimuli. We found that EBV infection induces host gene expression signatures early after infection that are functionally distinct from the gene expression program late after infection. These studies also led to the novel discovery that viral gene expression is controlled differently early after infection, including the delayed expression of a viral protein that is critical for the establishment of latency. Furthermore, we have also shown that EBV can use a single viral protein to alter and repress host apoptotic sensitivity in the face of an anti-viral apoptotic response.</p> / Dissertation Virology Apoptosis EBV Epstein-Barr virus LMP1 Transcription
23	Evaluation par PCR de l'activité antivirale des inhibiteurs de l'ADN polymérase du Virus d'Epstein-Barr Ballout, Mirvat 15 December 2005 (has links) (PDF) Un système d'évaluation in vitro de l'activité de médicaments anti-EBV a été mis au point en utilisant la PCR/RT-PCR quantitative en temps réel. Trois composés appartenant à différentes classes antivirales ont été testés : un analogue nucléosidique, le ganciclovir (GCV), un analogue nucléotidique, le cidofovir (HPMPC), et un analogue du pyrophosphate, le foscarnet (PFA). Après 7 jours de traitement des cellules P3HR-1 productrices de virions, les concentrations inhibant de 50 % la réplication de l'ADN viral sont respectivement de 0.28 µg/mL, 0.29 µg/mL et 13.6 µg/mL pour le GCV, le HPMPC et le PFA. L'expression de l'ARNm de la glycoprotéine tardive gp350/220 est réduite de 79 à 89 % après 4 jours. Nous avons aussi démontré la spécificité de l'effet antiviral en mesurant les taux d'ADN (b-globine) ou d'ARN (hPBGD) cellulaires. En conclusion, notre système permet l'évaluation de l'effet antiviral contre l'EBV de façon quantitative, simple et précise. [SDV:BC] Life Sciences/Cellular Biology EBV PCR antiviral traitement maladie
24	The Influence of Host Genetics on JCV and EBV Antibody Levels in Multiple Sclerosis Patients and Controls Strid, Elin January 2012 (has links) Multiple sclerosis (MS) is a chronic inflammatory disease of the central nervous system (CNS), characterized by lesions formed due to demyelination. MS is a complex disease thought to be triggered by environmental factors in genetically predisposed individuals. The strongest associated susceptibility allele is HLA-DRB1*1501. Environmental factors include smoking, latitude and previous infection of Epstein-Barr virus (EBV), a common herpes virus. There is no cure for MS, but several inhibitor and symptomatic drugs. Tysabri® (natalizumab) is the most effective drug, but it may lead to progressive multifocal leukoencephalopathy (PML), a rare but often fatal disease caused by reactivation of JC virus. The aim of this thesis was to replicate previous findings from a genome-wide association study and to find host genetic factors influencing JCV seropositivity and EBNA1 IgG titers in Swedish MS patients and healthy controls. Samples from the EIMS and IMSE studies were genotyped by TaqMan® OpenArray™ PCR, an end-point SNP genotyping analysis. 1143 cases and 556 healthy controls were genotyped. Due to poor call rates, genotype data from an Immunochip study was added. A total of 3408 samples (1664 cases and 1744 controls) were analyzed. EBNA1 IgG antibodies were previously measured as a detection of EBV infection and increased MS risk, and JCV IgG antibodies were measured to find patients potentially at risk for PML. One significant result was found, gene 105 (p = 0.01674, OR 0.68, CI 95% 0.49-0.93), with a protective effect in MS. More significant results might have been found with better loading of the plate, or with a different genotyping method. Host genetics multiple sclerosis EBV JCV natalizumab OpenArray genotyping
25	Effect of Sodium Salicylate, Cisplatin and 5-Fluorouracil in LMP1-Overexpressed Nasopharyngeal Carcinomas Cell Lines Tsai, Hsien-chu 21 June 2012 (has links) Nasopharyngeal carcinomas (NPC) is highly induced by Epstein-Barr virus (EBV). EBV infection encoded latent membrane protein 1 (LMP1) is expressed in latent stage II and III of EBV infection nasopharyngeal cells. LMP1 was reported to be associated with increased tumorigenesis, through the activation of nuclear factor-£eB (NF-£eB). In this study, LMP1 overexpressing NPC cell line (TW04) was used for assays of cell proliferation, apoptosis and migration under drug (Sodium Salicylate, Cisplatin and 5-Fluorouracil) treatment. Sodium Salicylate is one of non-steroidal anti-inflammatory (NSAID) drug, which inhibits the downstream of NF-£eB pathway, e.g., COX-1. Cisplatin and 5-Fluorouracil are traditional chemotherapy durgs used in many cancers. Our result shows that overexpression of LMP1 affects cell proliferation, apoptosis , invasion and migration ability. It indicates that LMP1-overexpression is an important marker for NPC therapy. NPC EBV LMP1 Sodium Salicylate 5-Fluorouracil Cisplatin
26	The application of Australian-developed performance and genetic technology to the Chinese beef industry Park, Nigel January 2003 (has links) In terms of numbers and volume of meat produced, the Chinese beef industry is one of the largest in the world. Development of the industry has only occurred within the last thirty years, and despite extensive cross-breeding programs with imported breeds, performance of Chinese cattle is low, and the industry is still subject to traditional farming methods. This study looks at the Australian-developed genetic evaluation system BREEDPLAN, which is regarded worldwide as one of the best systems for assisting with selection of beef cattle for increased performance by evaluating genetics and identifying superior animals, and asks if BREEDPLAN can be successfully applied to the Chinese beef industry. Issues discussed include the complementarity of BREEDPLAN to existing Chinese breeding programs and the benefits of BREEDPLAN if introduced, as well as opportunities for Australians to provide consultancy services to facilitate introduction. The marketing of Australian genetic material in China, and cross-cultural marketing issues are also considered. Field research was conducted in China using itinerant interviews and observational research, together with unstructured, informal interviews and discussions with Australian beef industry experts. It is found that breed improvement programs in China are controlled by the Ministry of Agriculture, and management practises within the government-run herds make them eminently suitable for the application of BREEDPLAN. The objective measurements of BREEDPLAN would provide observable genetic gain, resulting in increased industry productivity and profitability. In addition, it is found that a need exists within the Chinese beef industry for consultants not only with expertise and knowledge about BREEDPLAN, but also with an understanding of Chinese language and culture, which would be an advantage for dealing with cross-cultural difficulties. Market opportunities for Australian genetic material are considerable, but not unlimited, and further research is required to assess the size of the market. It is recommended that immediate steps be taken to introduce BREEDPLAN to the Chinese beef industry. genetic technology beef China BREEDPLAN estimated breeding value (EBV)
27	Transcriptome Analysis Of Lymphoma Associated Viruses And Analysis Of Viral Noncoding Rnas January 2014 (has links) No description available. Virome EBV School of Medicine Pathology and Laboratory Medicine Ph.D
28	The Ubiquitin Sensor and Adaptor Protein p62 Mediates Signal Transduction of a Viral Oncogenic Pathway Wang, Ling, Howell, Mary E., Sparks-Wallace, Ayrianna, Zhao, Juan, Hensley, Culton R., Nicksic, Camri A., Horne, Shanna R., Mohr, Kaylea B., Moorman, Jonathan P., Yao, Zhi Q., Ning, Shunbin 01 October 2021 (has links) The Epstein-Barr virus (EBV) protein LMP1 serves as a paradigm that engages complicated ubiquitination-mediated mechanisms to activate multiple transcription factors. p62 is a ubiquitin sensor and a signal-transducing adaptor that has multiple functions in diverse contexts. However, the interaction between p62 and oncogenic viruses is poorly understood. We recently reported a crucial role for p62 in oncovirus-mediated oxidative stress by acting as a selective autophagy receptor. In this following pursuit, we further discovered that p62 is upregulated in EBV type 3 compared to type 1 latency, with a significant contribution from NF-kB and AP1 activities downstream of LMP1 signaling. In turn, p62 participates in LMP1 signal transduction through its interaction with TRAF6, promoting TRAF6 ubiquitination and activation. As expected, short hairpin RNA (shRNA)-mediated knockdown (KD) of p62 transcripts reduces LMP1-TRAF6 interaction and TRAF6 ubiquitination, as well as p65 nuclear translocation, which was assessed by Amnis imaging flow cytometry. Strikingly, LMP1-stimulated NF-kB, AP1, and Akt activities are all markedly reduced in p622/2 mouse embryo fibroblasts (MEFs) and in EBV-negative Burkitt’s lymphoma (BL) cell lines with CRISPR-mediated knockout (KO) of the p62-encoding gene. However, EBV-positive BL cell lines (type 3 latency) with CRISPR-mediated KO of the p62-encoding gene failed to survive. In consequence, shRNA-mediated p62 KD impairs the ability of LMP1 to regulate its target gene expression, promotes etoposide-induced apoptosis, and reduces the proliferation of lymphoblastic cell lines (LCLs). These important findings have revealed a previously unrecognized novel role for p62 in EBV latency and oncogenesis, which advances our understanding of the mechanism underlying virus-mediated oncogenesis. IMPORTANCE As a ubiquitin sensor and a signal-transducing adaptor, p62 is crucial for NF-kB activation, which involves the ubiquitin machinery, in diverse contexts. However, whether p62 is required for EBV LMP1 activation of NF-kB is an open question. In this study, we provide evidence that p62 is upregulated in EBV type 3 latency and, in turn, p62 mediates LMP1 signal transduction to NF-kB, AP1, and Akt by promoting TRAF6 ubiquitination and activation. In consequence, p62 deficiency negatively regulates LMP1-mediated gene expression, promotes etoposide-induced apoptosis, and reduces the proliferation of LCLs. These important findings identified p62 as a novel signaling component of the key viral oncogenic signaling pathway. EBV herpesviruses LMP1 P62 P62 ubiquitination viral oncogenesis Internal Medicine
29	Identifying and Targeting Immune Escape Mechanisms in Epstein-Barr Virus-Driven Lymphoproliferative Disease Patton, John Thomas, Jr. 14 September 2016 (has links) No description available. Immunology Cellular Biology Virology EBV Immune modulation Lymphoma Silvestrol
30	Libération extra-cellulaire de microARN et de complexes nucléo-protéiques par les cellules infectées par EBV : rôle des exosomes et d'autres transporteurs. Gourzones, Claire 03 November 2011 (has links) (PDF) En pathologie tumorale, l'étude du micro-environnement tumoral doit prendre en compte différents modes de communication cellulaire : contacts directs entre membranes plasmiques, émission et réception de cytokines et enfin émission et internalisation d'objets biologiques plus complexes comme les microvésicules et les exosomes qui peuvent être assimilés à de véritables organites extra-cellulaires. Le virus d'Epstein-Barr (EBV) participe à l'oncogenèse de plusieurs affections malignes humaines d'origine épithéliale (carcinomes nasopharyngés ou NPC) ou lymphocytaire (lymphomes post-transplantation). Dans ces tumeurs, les cellules malignes qui sont infectées de façon latente par EBV libèrent des exosomes et des microvésicules qui contiennent des protéines et des acides nucléiques d'origine virale. L'étude de ces éléments doit permettre de mieux comprendre les interactions hôte-tumeur et de mettre en évidence de nouveaux biomarqueurs utiles pour le diagnostic précoce et la surveillance de la maladie sous traitement. Le premier objectif de ma thèse consistait à étudier la sécrétion par les cellules malignes d'une famille de microARN viraux appelés miR-BART et leur diffusion dans le sang périphérique chez les sujets porteurs de tumeurs associées à EBV. Pour la première fois j'ai mis en évidence une sécrétion d'exosomes porteurs de miR-BART par les cellules de NPC en culture in vitro. J'ai également montré que les miR-BART, particulièrement miR-BART7, sont détectables dans le plasma de sujets porteurs de NPC. Contrairement à ce qui se passe in vitro les miR-BART plasmatiques ne sont pas transportés par des exosomes. Des données obtenues chez la souris montrent qu'ils peuvent être transportés par des complexes extra-cellulaires que l'on peut précipiter au moyen d'anticorps anti-ago2. Nous cherchons à confirmer ces données sur des échantillons de plasma provenant de patients porteurs de NPC. Ces données pourront guider à l'avenir l'utilisation des miR-BART circulants comme source de biomarqueurs.Le deuxième volet de ma thèse avait pour but d'étudier les modifications du protéome des exosomes induites par une oncoprotéine du virus d'Epstein-Barr appelée LMP1 (latent membrane protein 1). J'ai montré que la LMP1, lorsqu'elle est exprimée dans les cellules lymphocytaires ou épithéliales, infectées ou non par EBV, induit la libération de la protéine PARP1 dans le milieu extra-cellulaire. Cette PARP1 extra-cellulaire n'est pas associée aux exosomes ni aux microvésicules mais à des nano-objets non-vésiculaires contenant notamment des histones et de l'ADN. Nous avons désignés ces objets sous le terme de complexes ADN-protéines extra-cellulaires. Nous ne savons presque rien de la biogenèse de ces complexes ; nous pensons qu'ils ne proviennent pas uniquement de cellules en apoptose. En revanche, des expériences préliminaires suggèrent que la présence de PARP1 dans ces complexes coïncide avec une activation permanente de la PARP1 induite dans les cellules productrices par l'expression de l'oncoprotéine LMP1. Cette hypothèse est en cours de vérification grâce à des expériences menées sur des lignées cellulaires exprimant différentes formes sauvages ou mutées de la LMP1. Ces données sur l'activation de la PARP1 et sur sa sécrétion induite par la LMP1 auront des retombées intéressantes pour notre compréhension des mécanismes d'oncogenèse et d'auto-immunité liés à l'infection par le virus d'Epstein-Barr. EBV MicroARN Ebv-miR-BART7 Carcinomes naso-pharyngés Exosomes LMP1 Biomarqueurs Complexes nucléo-protéiques PARP1

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