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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Negative Regulation of Type I Interferon Induction in Dendritic Cells

Liu, Yi January 2011 (has links)
No description available.
2

Type I Interferon Activation of Natural Killer (NK) Cells by Cytomegalovirus (CMV) and Their Interaction with Dendritic (DC) and NKT Cells.

Oulad Abdelati, Howaida A. January 2013 (has links)
No description available.
3

Proteolysis of MDA5 and IPS-1 is not required for inhibition of the type I IFN response by poliovirus

Kotla, Swathi, Gustin, Kurt E. January 2015 (has links)
BACKGROUND: The type I interferon (IFN) response is a critical component of the innate immune response to infection by RNA viruses and is initiated via recognition of viral nucleic acids by RIG-like receptors (RLR). Engagement of these receptors in the cytoplasm initiates a signal transduction pathway leading to activation of the transcription factors NF-κB, ATF-2 and IRF-3 that coordinately upregulate transcription of type I IFN genes, such as that encoding IFN-β. In this study the impact of poliovirus infection on the type I interferon response has been examined. METHODS: The type I IFN response was assessed by measuring IFN-β mRNA levels using qRT-PCR and normalizing to levels of β-actin mRNA. The status of host factors involved in activation of the type I IFN response was examined by immunoblot, immunofluorescence microcopy and qRT-PCR. RESULTS: The results show that poliovirus infection results in induction of very low levels of IFN-β mRNA despite clear activation of NF-κB and ATF-2. In contrast, analysis of IRF-3 revealed no transcriptional induction of an IRF-3-responsive promoter or homodimerization of IRF-3 indicating it is not activated in poliovirus-infected cells. Exposure of poliovirus-infected cells to poly(I:C) results in lower levels of IFN-β mRNA synthesis and IRF-3 activation compared to mock-infected cells. Analysis of MDA-5 and IPS-1 revealed that these components of the RLR pathway were largely intact at times when the type I IFN response was suppressed. CONCLUSIONS: Collectively, these results demonstrate that poliovirus infection actively suppresses the host type I interferon response by blocking activation of IRF-3 and suggests that this is not mediated by cleavage of MDA-5 or IPS-1.
4

Epigenetic and Gene Expression Signatures in Systemic Inflammatory Autoimmune Diseases

Imgenberg-Kreuz, Juliana January 2017 (has links)
Autoimmune diseases are clinical manifestations of a loss-of-tolerance of the immune system against the body’s own substances and healthy tissues. Primary Sjögren’s syndrome (pSS) and systemic lupus erythematosus (SLE) are two chronic inflammatory autoimmune diseases characterized by autoantibody production and an activated type I interferon system. Although the precise mechanisms leading to autoimmune processes are not well defined, recent studies suggest that aberrant DNA methylation and gene expression patterns may play a central role in the pathogenesis of these disorders. The aim of this thesis was to investigate DNA methylation and gene expression in pSS and SLE on a genome-wide scale to advance our understanding of how these factors contribute to the diseases and to identify potential biomarkers and novel treatment targets. In study I, differential DNA methylation was analyzed in multiple tissues from pSS patients and healthy controls. We identified thousands of CpG sites with perturbed methylation; the most prominent finding was a profound hypomethylation at regulatory regions of type I interferon induced genes in pSS. In study II, a cases-case study comparing DNA methylation in pSS patients with high fatigue to patients with low fatigue, we found methylation patterns associated to the degree of fatigue. In study III, RNA-sequencing was applied to investigate the transcriptome of B cells in pSS in comparison to controls. Increased expression of type I and type II interferon regulated genes in pSS was observed, indicating ongoing immune activation in B cells. In study IV, the impact of DNA methylation on disease susceptibility and phenotypic variability in SLE was investigated. We identified DNA methylation patterns associated to disease susceptibility, SLE manifestations and different treatments. In addition, we mapped methylation quantitative trait loci and observed evidence for genetic regulation of DNA methylation in SLE.   In conclusion, the results presented in this thesis provide new insights into the molecular mechanisms underlying autoimmunity in pSS and SLE. The studies confirm the central role of the interferon system in pSS and SLE and further suggest novel genes and mechanisms to be involved in the pathogenesis these autoimmune diseases.
5

Caracterização fenotípica e funcional de IFN-DCs derivadas de indivíduos infectados pelo HIV-1. / Immunophenotypic and functional characterization of IFN-DC derived HIV-1 infected patients.

Santillo, Bruna Tereso 20 August 2015 (has links)
A imunoterapia baseada em MoDC constitui uma estratégia para tratamento de indivíduos HIV+. Protocolos para obtenção de MoDC em geral utilizam IL-4 e GM-CSF (IL4-DC). Alguns estudos utilizam as IFN-DC (IFN-α + GM-CSF), que exibem um fenótipo combinado de DC mielóide, DC plasmocitóide (pDC) e célula NK. Esse perfil misto pode aperfeiçoar a imunoterapia para pacientes HIV+. Para tanto, monócitos de pacientes HIV+ foram cultivados com GM-CSF e IL-4 ou IFN-α por 5 dias e estimuladas por 48 horas com pulso de HIV inativado por AT-2 e/ou coquetel de citocinas pró-inflamatórias. Avaliamos a expressão de moléculas de superfície de IFN-DC e ativação de linfócitos T por citometria de fluxo; produção de citocinas IL-12 e IL-10 por ELISA. IFN-DC apresentaram morfologia e fenótipo basais ativados e características de pDC e célula NK, diferente das IL4-DC. As IFN-DC foram capazes de produzir IL-12, estimular a proliferação e produção de IFN-γ de linfócitos TCD4 e CD8, porém similares às IL4-DCs. IFN-DC são capazes de estimular resposta de linfócitos T tanto quanto IL4-DC. / Immunotherapy based on MDDCs is a strategy for treating HIV-infected patients. Alternatively to the conventional protocol for DC differentiation based on IL-4 and GM-CSF (IL4-DC) some studies suggest the use of IFN-DC (IFN-α + GM-CSF). These cells exhibit a combined phenotype of myeloid DC, plasmacytoid DC (pDC) and NK. Considering the mixed profile of IFN-DCs alternative protocols can bring novel elements for immunotherapy. Monocytes isolated from HIV-infected patients were cultured in the presence of GM-CSF and IL-4 or IFN-α. On day 5 DCs were pulsed with AT-2-inactivated HIV and stimulated for 48 hours with a cocktail of proinflammatory cytokines. We assessed IFN-DC surface markers expression and T cell activation by flow cytometry; IL-10 and IL-12 production by ELISA. IFN-DC showed activated morphological and phenotypic features during basal state of maturity and exhibited features of pDC and NK different from IL4-DC. The IFN-DC like IL4-DC were able to produce IL-12 and stimulated T cells. So, the IFN-DC were able to stimulate the T cells as well as IL4-DCs.
6

MECHANISMS OF TYPE-I IFN INHIBITION: EQUINE HERPESVIRUS-1 ESCAPE FROM THE ANTIVIRAL EFFECT OF TYPE-1 INTERFERON RESPONSE IN HOST CELL

Oladunni, Fatai S. 01 January 2019 (has links)
Equine herpesvirus-1 (EHV-1) is one of the most important and prevalent viral pathogens of horses causing a major threat to the equine industry throughout most of the world. EHV-1 primarily causes respiratory disease but viral spread to distant organs enables the development of more severe sequelae; abortion and neurologic disease. In order to produce disease, EHV-1 has to overcome the innate barrier of the type-I interferon (IFN) system in host cells. However, the underlying mechanisms employed by EHV-1 to circumvent the type-I IFN response in host cells are not well understood. In this project study, using molecular techniques, we explored how EHV-1 is able to escape the type-I IFN response in host cells during infection. We also investigated whether EHV-4, a closely related but less pathogenic virus, has similar effects on type-I IFN as a clue to understanding how widespread IFN suppressive function is found among equine alphaherpesviruses. Our data showed that inhibition of the type-I IFN response in host cells is not a function of neuropathogenicity of EHV-1 strains. However, a reduced type-I IFN response correlated with pathogenicity as EHV-4, unlike EHV-1, was unable to down-regulate the type-I IFN response in equine endothelial cells (EECs). Investigation of the mechanisms employed by EHV-1 to suppress type-I IFN revealed that the virus sequentially prevented outside-in signaling events that lead to type-I IFN production. Specifically, EHV-1 blocked the expression of Toll-like receptors (TLR) 3 and TLR4 at 6 hours post-infection (hpi) and 12 hpi. EHV-1 also prevented the transcription of IRF7 and IRF9 at different time-points during infection. The virus also perturbed the JAK-STAT signaling pathway by negatively regulating the cellular levels of TYK2 and phosphorylation-mediated activation of STAT2 molecules. Immunofluorescence data revealed that during infection, EHV-1 was able to sequester STAT2 molecules from nuclear translocation. This may be a limiting step preventing the formation of interferon- stimulated gene factor 3 (ISGF3) whose nuclear translocation is required to transactivate interferon-stimulated genes (ISGs) including IRF7. Further investigation showed that unlike EHV-1, EHV-4 only interfered with phosphorylation-mediated activated STAT1 and STAT2 molecules at 3 and 6 hpi. EHV-4 was unable to block TLR3/4 and IRF7/9 mRNA expression at any time-point. Intriguingly, while viral late gene of EHV-1 mediates inhibition of STAT phosphorylation, our data showed that for EHV-4, a virus late gene did not mediate the inhibition of STAT phosphorylation. The findings from this study help illuminate how EHV-1 strategically interferes with limiting steps required for type-I IFN response in host cells to promote pathology. Our data also strengthen the hypothesis that the ability to shut off host factors required for type-I IFN production might be directly related to the degree of pathogenicity of the EHV subtypes.
7

MODULATION OF TYPE-I INTERFERON MEDIATED IMMUNE RESPONSE: A NOVEL INNATE IMMUNE EVASION STRATEGY OF EQUINE HERPESVIRUS 1

Sarkar, Sanjay 01 January 2014 (has links)
Equine herpesvirus-1 (EHV-1) is one of the major viral pathogens causing respiratory disease, abortion, perinatal mortality and neurologic disease among horses resulting in significant economic losses to the equine industry. The virus can also remain latent in the horses and recrudesce at any time. Type-I interferons (IFNs) act as a first line of defense against many viral infections. In this study we investigated the type-I IFN response against the neuropathogenic T953 strain of EHV-1 in equine endothelial cells (EECs). The results showed that after a transient induction of IFN-β mRNA as well as protein at an early time (3h) post infection (p.i.), T953 strain of EHV-1 suppressed further induction of IFN-β at later times (12h onwards). Studies were done to confirm that the suppression of type-I IFN induction at later time points was not due to the normal IFN-β induction kinetics, it was rather because of the active interference by the virus. Investigation of the mechanisms by which T953 interferes with IFN-β production revealed that the virus degraded the endogenous level of the transcription factor, interferon regulatory factor 3 (IRF-3) and also down-regulated the activation of IRF-3 followed by its accumulation in the nucleus. However, T953 infection caused degradation of nuclear factor κB (NF-κB) inhibitory protein IκBα and also induced p50 subunit to translocate into nucleus from cytoplasm suggesting activation of NF-κB signaling. This also indicated that inhibition in the type-I IFN production was probably not due to the inhibition of NF-κB. The results of these studies also indicated that T953 virus was resistant to the biological effect of the recombinant equine IFN-α in vitro. Investigation of the reason of this resistance showed that T953 virus interfered with the cellular JAK-STAT signaling mechanism by which type-I IFN exerts its antiviral effect. Moreover, the studies revealed that downstream of the JAK-STAT signaling, T953 virus also inhibited the expression of cellular antiviral proteins including interferon stimulated gene 56 (ISG56) and viperin. Altogether, these data indicate that the T953 strain of EHV-1 interfered with the host cell innate immune responses by modulating type-I IFN mediated immune responses at multiple levels in vitro.
8

DNA Sequence Variants in Human Autoimmune Diseases

Wang, Chuan January 2012 (has links)
Human autoimmune diseases are hallmarked by inappropriate loss-of-tolerance and self-attacking response of the immune system. Studies included in this thesis are focusing on the implication and functional impact of genetic factors in three autoimmune diseases rheumatoid arthritis (RA), asthma, and systemic lupus erythematosus (SLE). Using genetic association studies, we found in study I and II that sequence variants of the interferon regulatory factor 5 (IRF5) gene were associated with RA and asthma, and the associations were more pronounced in certain disease subtypes. Distinct association patterns or risk alleles of the IRF5 gene variants were revealed in different diseases, indicating that IRF5 contributes to disease manifestations in a dose-dependent manner. In study III, we found that seven out of eight genetic risk loci for SLE, which were originally identified in East Asian populations, also conferred disease risk with the same risk alleles and comparable magnitudes of effect sizes in Caucasians. Remarkable differences in risk allele frequencies were observed for all associated loci across ethnicities, which seems to be the major source of genetic heterogeneity for SLE. In study IV we explored an exhaustive spectrum of sequence variants in the genes inhibitor of kappa light polypeptide gene enhancer in B-cells kinase epsilon (IKBKE) and interferon induced with helicase C domain 1 (IFIH1) by gene resequencing, and identified nine variants in IKBKE and three variants in IFIH1 as genetic risk factors for SLE. One of the associated variants may influence splicing of IKBKE mRNA. In study V we provided genome-wide transcriptional regulatory profiles for IRF5 and signal transducer and activator of transcription 4 (STAT4) using chromatin immunoprecipitation-sequencing (ChIP-seq). The target genes of IRF5 and STAT4 were found to play active roles in pathways related with inflammatory response, and their expression patterns were characteristic for SLE patients. We also identified potential cooperative transcription factors for IRF5 and STAT4, and disease-associated sequence variants which may affect the regulatory function of IRF5 and STAT4. In conclusion, this thesis illuminates the contribution of several genetic risk factors to susceptibility of human autoimmune diseases, which facilitates our understanding of the genetic basis of their pathogenesis.
9

Caracterização fenotípica e funcional de IFN-DCs derivadas de indivíduos infectados pelo HIV-1. / Immunophenotypic and functional characterization of IFN-DC derived HIV-1 infected patients.

Bruna Tereso Santillo 20 August 2015 (has links)
A imunoterapia baseada em MoDC constitui uma estratégia para tratamento de indivíduos HIV+. Protocolos para obtenção de MoDC em geral utilizam IL-4 e GM-CSF (IL4-DC). Alguns estudos utilizam as IFN-DC (IFN-α + GM-CSF), que exibem um fenótipo combinado de DC mielóide, DC plasmocitóide (pDC) e célula NK. Esse perfil misto pode aperfeiçoar a imunoterapia para pacientes HIV+. Para tanto, monócitos de pacientes HIV+ foram cultivados com GM-CSF e IL-4 ou IFN-α por 5 dias e estimuladas por 48 horas com pulso de HIV inativado por AT-2 e/ou coquetel de citocinas pró-inflamatórias. Avaliamos a expressão de moléculas de superfície de IFN-DC e ativação de linfócitos T por citometria de fluxo; produção de citocinas IL-12 e IL-10 por ELISA. IFN-DC apresentaram morfologia e fenótipo basais ativados e características de pDC e célula NK, diferente das IL4-DC. As IFN-DC foram capazes de produzir IL-12, estimular a proliferação e produção de IFN-γ de linfócitos TCD4 e CD8, porém similares às IL4-DCs. IFN-DC são capazes de estimular resposta de linfócitos T tanto quanto IL4-DC. / Immunotherapy based on MDDCs is a strategy for treating HIV-infected patients. Alternatively to the conventional protocol for DC differentiation based on IL-4 and GM-CSF (IL4-DC) some studies suggest the use of IFN-DC (IFN-α + GM-CSF). These cells exhibit a combined phenotype of myeloid DC, plasmacytoid DC (pDC) and NK. Considering the mixed profile of IFN-DCs alternative protocols can bring novel elements for immunotherapy. Monocytes isolated from HIV-infected patients were cultured in the presence of GM-CSF and IL-4 or IFN-α. On day 5 DCs were pulsed with AT-2-inactivated HIV and stimulated for 48 hours with a cocktail of proinflammatory cytokines. We assessed IFN-DC surface markers expression and T cell activation by flow cytometry; IL-10 and IL-12 production by ELISA. IFN-DC showed activated morphological and phenotypic features during basal state of maturity and exhibited features of pDC and NK different from IL4-DC. The IFN-DC like IL4-DC were able to produce IL-12 and stimulated T cells. So, the IFN-DC were able to stimulate the T cells as well as IL4-DCs.
10

Oncolytic Viruses as a Potential Approach to Eliminate Cells That Constitute the Latent HIV Reservoir

Ranganath, Nischal 03 April 2018 (has links)
HIV infection represents a major health and socioeconomic challenge worldwide. Despite significant advances in therapy, a cure for HIV continues to be elusive. The design of novel curative strategies will require targeting and elimination of cells that constitute the latent HIV-1 reservoir. However, such an approach is impeded by the inability to distinguish latently HIV-infected cells from uninfected cells. The type-I interferon (IFN-I) response is an integral antiviral defense mechanism, but is impaired at multiple levels during productive HIV infection. Interestingly, similar global impairments in IFN-I signaling have been observed in various human cancers. This led to the development of IFN-sensitive oncolytic viruses, including the recombinant Vesicular Stomatitis Virus (VSV 51) and Maraba virus (MG1), as virotherapy designed to treat various cancers. Based on this, it was hypothesized that IFN-I signaling is impaired in latently HIV-infected cells (as observed in productively infected cells) and that VSV 51 and MG1 may be able to exploit such intracellular defects to target and eliminate latently HIV-infected cells, while sparing healthy cells. First, using cell line models of HIV-1 latency, intracellular defects in IFN-I responses, including impaired IFN / production and expression of IFNAR1, MHC-I, ISG15, and PKR, were demonstrated to represent an important feature of latently HIV-infected cells. Consistent with this, the latently HIV-infected cell lines were observed to have a greater sensitivity to VSV 51 and MG1 infection, and MG1-mediated killing, than the HIV-uninfected parental cells. Next, the ability of oncolytic viruses to kill latently HIV-infected human primary cells was demonstrated using an in vitro resting CD4+ T cell model of latency. Interestingly, while both VSV 51 and MG1 infection resulted in a significant reduction in inducible p24 expression, a dose-dependent decrease in integrated HIV-1 DNA was only observed following MG1 infection. In keeping with this, MG1 infection of memory CD4+ T cells from HIV-1 infected individuals on HAART also resulted in a significant decrease in inducible HIV-1 gag RNA expression. By targeting an intracellular pathway that is impaired in latently HIV-infected cells, the findings presented in this dissertation highlight a novel, proof-of-concept approach to eliminate the latent HIV-1 reservoir. Given that VSV 51 and MG1 are currently being studied in cancer clinical trials, there is significant potential to translate this work to in vivo studies.

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