Global ETD Search

21	Investigating the Anti-viral Property of Verotoxin and its Receptor Gb3 in Preventing Primary HIV-1 Infection Shi, Peilin 20 December 2011 (has links) Verotoxin produced by Enterohemorrhagic E. coli is comprised of a catalytic A subunit and a receptor Gb3 binding B subunit pentamer. VT causes protein synthesis inhibition by ribosomal inactivation in Gb3 positive cells via receptor mediated endocytosis and retrograde transport to the ER. We propose that verotoxin is a novel inhibitor for HIV-1 infection. Experiments conducted using VT treated Jurkat-C T cells and PHA/IL-2 activated human PBMCs reveal the anti-HIV-1 property of VT is receptor Gb3 independent since the catalytic A subunit alone is sufficient for inhibition. Possible mechanism of action involves mild inhibition of protein synthesis and cell proliferation. Recent findings in our lab suggest Gb3 is a natural resistance factor for HIV-1 infection, which was further investigated by selecting a Gb3 low subpopulation in THP-1 cells using VT treatment. Selected THP-1 cells were completely resistant to HIV-1 infection, however decreased surface CXCR4 expression may be a cause. HIV-1 Verotoxin glycosphingolipid Gb3 0379 0720 0307
22	Investigating the Anti-viral Property of Verotoxin and its Receptor Gb3 in Preventing Primary HIV-1 Infection Shi, Peilin 20 December 2011 (has links) Verotoxin produced by Enterohemorrhagic E. coli is comprised of a catalytic A subunit and a receptor Gb3 binding B subunit pentamer. VT causes protein synthesis inhibition by ribosomal inactivation in Gb3 positive cells via receptor mediated endocytosis and retrograde transport to the ER. We propose that verotoxin is a novel inhibitor for HIV-1 infection. Experiments conducted using VT treated Jurkat-C T cells and PHA/IL-2 activated human PBMCs reveal the anti-HIV-1 property of VT is receptor Gb3 independent since the catalytic A subunit alone is sufficient for inhibition. Possible mechanism of action involves mild inhibition of protein synthesis and cell proliferation. Recent findings in our lab suggest Gb3 is a natural resistance factor for HIV-1 infection, which was further investigated by selecting a Gb3 low subpopulation in THP-1 cells using VT treatment. Selected THP-1 cells were completely resistant to HIV-1 infection, however decreased surface CXCR4 expression may be a cause. HIV-1 Verotoxin glycosphingolipid Gb3 0379 0720 0307
23	Studies on host factors that regulate the replication of positive strand RNA viruses Patton, John B. January 1900 (has links) Doctor of Philosophy / Department of Diagnostic Medicine/Pathobiology / Kyeong-Ok Chang / Positive sense RNA viruses include a diverse group of pathogens that cause a wide array of diseases that can range from sub-clinical to lethal. These viruses infect humans and mammals as well as a variety of other hosts. For their successful replication, viruses interact closely with host cells from the binding to the receptor to the exit as complete viral progenies. During the events, viruses are dependent on host factors for receptor bindings, genome synthesis, and trafficking of viral genome and proteins. Thus there have been major efforts on the studies of understanding the virus-host interactions in the field of virology. In my PhD program, I have studied the host factors that regulate the replication of viruses using porcine reproductive and respiratory syndrome virus (PRRSV) and hepatitis C virus (HCV). I found that modulation of either the viral receptor or cellular signaling pathways had pronounced effects in the replication of PRRSV or HCV respectively. Using PRRSV, I found that the modulation of the level of the putative receptor CD163 on cells with cytokines significantly influence virus replication, suggesting the importance of cytokine presence in environments to determine the replication and pathogenicity of PRRSV via receptor expression in vivo. With HCV, I found that the enhancement of the virus replication occurs through the activation of the epidermal growth factor receptor/extracellular signal-regulated kinase pathway by bile acids which are abundant in the liver where the virus targets in vivo. Furthermore, I found that the bile acid-mediated signaling pathway significantly inhibited the antiviral activities against HCV. These results indicate the importance of environmental factors such as bile acids and signaling pathways in the replication and pathogenicity of HCV in vivo. Hepatitis C virus CD163 ERK pathway Virology (0720)
24	The role of apoptotic factors in Sindbis virus infection and replication in the mosquito vector Aedes aegypti O'Neill, Katelyn Leigh January 1900 (has links) Doctor of Philosophy / Department of Division of Biology / Rollie J. Clem / Mosquitoes are carriers of a variety of harmful human pathogens, including viruses. In order to be successfully transmitted, a virus must evade mosquito immune responses. In this work, the innate immune role of apoptosis in mosquito-virus interactions was examined utilizing the disease vector Aedes aegypti and Sindbis virus. Ae. aegypti is the main vector for yellow fever and dengue virus, which result in over 100 million infections per year. Sindbis virus (Togaviridae) can be transmitted to vertebrates by Ae. aegypti in the laboratory. Sindbis is also well characterized molecularly, making it a good model system for understanding virus-vector interactions. Sindbis MRE-16 recombinant virus clones were utilized to express either an antiapoptotic or pro-apoptotic gene during virus replication. Mosquitoes were infected with recombinant virus clones during a blood meal or by intrathoracic injection. Midgut tissue and whole body samples were analyzed for virus infection and dissemination. Virus was also quantified in saliva and mosquito survival was assayed. Decreased infection in the midgut and delayed virus replication were observed in mosquitoes that were infected with virus expressing a pro-apoptotic gene. Infection with this virus clone also resulted in less virus in the saliva and reduced survival of infected mosquitoes. In addition, negative selection against pro-apoptotic gene expression during virus replication was observed. Collectively, these data suggest that apoptosis can serve as an antiviral defense in Ae. aegypti and may potentially be exploited to control virus transmission. An additional study included in this dissertation focused on zebrafish development and migration of somitic precursors from the tailbud. The tailbud consists of a population of stem cells at the posterior tip of the embryonic tail. The exit of these stem cells from the tailbud is required for the formation of tail somites. A novel double mutant was identified that lacked the t-box transcription factor spadetail and the BMP inhibitor chordin. Double mutants completely lacked somites and had an enlarged tailbud due to accumulation of stem cells that were unable to exit the tailbud. This study indicates the importance of BMP inhibition and spadetail expression in the proper exit of muscle precursors from the tailbud. Sindbis Aedes aegypti Apoptosis Zebrafish Tailbud Developmental Biology (0758) Molecular Biology (0307) Virology (0720)
25	Studies on entry events during calicivirus replication Shivanna, Vinay January 1900 (has links) Doctor of Philosophy / Department of Diagnostic Medicine and Pathobiology / Kyeong-Ok Chang / Caliciviruses are important pathogens of humans and animals. Noroviruses are major causes of foodborne gastroenteritis cases, but their research is hindered due to the inability to grow human noroviruses in cell culture. Detailed studies on entry events of caliciviruses are lacking and may be crucial for development of cell culture models. We examined the entry events of caliciviruses using porcine enteric calicivirus (PEC), feline calicivirus (FCV) and murine norovirus-1 (MNV-1). PEC replication in LLC-PK cells requires bile acid in the medium, but the mechanism is not well understood. Our studies showed that bile acids are required in the early stage of virus replication, and while internalization of PEC is not dependent of them, they are required for endosomal escape and successful replication. Further examination on virus entry, we demonstrated that endosomal acidification and cathepsin L activity are essential in the replication of PEC, FCV and MNV-1. The results showed that inhibition of endosomal acidification or cathepsin L activity led to retention of viruses in the endosomes. Also we demonstrated that recombinant cathepsin L cleaved structural protein of PEC, FCV or MNV-1, which suggests that the enzyme may facilitate uncoating viruses in endosomes. In addition to bile acids, we found that a cold shock treatment during virus entry supported PEC replication by facilitating the endosomal escape. While PEC alone did not induce ceramide formation, bile acids or cold shock treatment induce ceramide formation on endosomes through activation acid sphingomyelinase (ASM), and this event was crucial for virus replication because inhibition of ASM blocked ceramide formation and significantly reduced PEC replication. Incubation of FCV or MNV-1 with cells led to ceramide formation during virus entry, and inhibition of ASM also significantly reduced their replication. Inhibition of ASM led to endosomal retention of PEC, FCV or MNV-1 during virus entry, which may be the reason for the reduction of viral replication. These studies revealed the important and common events during calicivirus entry for successful replication, including virus endosomal escape, cathepsin L activity and ASM/ceramide formation. This detailed information may provide clues for understanding the replication of fastidious caliciviruses and for potential therapeutic targets. Calicivirus Bile acid Endosomal escape Cathepsin Endosomal acidification Acid sphingomyelinase Virology (0720)
26	Development of a multiplex fluorescent microsphere immunoassay for diagnosis of the porcine disease complex Ransburgh, Russell January 1900 (has links) Master of Science / Department of Diagnostic Medicine/Pathobiology / Ying Fang / The Porcine Disease Complex (PDC) results in major economic problems for swine producers. PDC outbreaks result in increased mortality, decreased feed efficiency, higher cull rates, prolonged days to market and increased treatment costs. This disease involves the interaction and participation of many multifactorial etiologies including both bacterial and viral organisms playing a role in disease initiation and progression. The most common viral pathogens associated with the PDC include porcine reproductive and respiratory syndrome virus (PRRSV), porcine circovirus (PCV2) and swine influenza virus (swIV). The recent outbreak of porcine epidemic diarrhea virus (PEDV) in the US swine herd has made the PDC even more complicated. In aid of the prevention and control of the PDC, veterinarians and producers require fast and efficient diagnostic tests for controlling the disease. In this study, we have generated recombinant nucleocapsid antigens to these viruses for use in a Luminex™ technology-based fluorescent microsphere immunoassay (FMIA). Utilizing these recombinant nucleocapsid antigens, the FMIA was developed to simultaneously detect antibodies in serum from animals infected with PEDV, PRRSV, SwIV and PCV2. The FMIA was developed based on testing experimentally derived standard positive and negative control sera, and the diagnostic specificity and sensitivity were compared to that generated from the classical enzyme-linked immunosorbent assay (ELISA) or hemagglutination inhibition (HI) test. Based on an evaluation of 4147 serum samples with known serostatus, the multiplex FMIAs reached greater than 97.5% sensitivity and 92.3 % specificity. Results showed that multiplexing did not affect the diagnostic sensitivity or specificity of each individual assay. This work provides a platform for the development of multiplex assays for detecting various swine pathogens simultaneously and aids in preventing and controlling the PDC. Multiplex Fluorescent microsphere immunoassay Porcine disease complex Luminex Veterinary Medicine (0778) Virology (0720)
27	Predicting Treatment Response and the Role of the ISG15/USP18 Ubiquitin-like Signaling Pathway in Hepatitis C Viral Infection Chen, Limin 14 February 2011 (has links) Hepatitis C Virus (HCV) infects 170 million people worldwide. The current treatment regimen, which is combination therapy with pegylated interferon (PegIFN) and Ribavirin (Rib), cures only 50% of the patients infected with the most prevalent HCV genotype. Therefore, there is a pressing need to understand the molecular mechanism of interferon resistance and to develop a prognostic tool to predict who will respond to treatment before initiation of therapy. It has been firmly established that the virus-host interaction plays an important role in determining treatment outcomes. My thesis investigated the host factors that are involved in interferon resistance with an aim to provide insights into the molecular mechanism of IFN resistance. cDNA microarray analysis identified 18 differentially expressed hepatic genes from pretreatment liver tissues of responders (Rs) and non-responders (NRs). Based on the differential expression levels of these 18 genes, a prognostic tool was developed to predict who will respond to therapy, with a positive predicting value (PPV) of 96%. Most of these 18 genes are interferon stimulated genes (ISGs) and they are more highly expressed in NR livers, indicating that preactivation of interferon signaling in the pre-treatment liver tissues contributes to NR. 3 out of the 18 genes are involved in an ubiquitin-like ISG15/USP18 signaling pathway that plays an important role in interferon response. Over-expression of USP18 and ISG15 in the pretreatment liver tissues of NR promotes HCV production and blunts interferon anti-HCV activity. There exists a distinct cell-type specific ISG activation in the pretreatment liver tissues of Rs and NRs. Up-regulation of the two ISGs that I tested (ISG15 and MxA) was found mainly in hepatocytes in NRs while ISG activation was preferentially observed in macrophages in Rs. Taking all these data together, pre-activation of interferon signaling and cell-type specific gene activation in the pretreatment liver tissues of patients infected with HCV are associated with treatment non-response. HCV exploits the host interferon system to favour its persistence by enhanced replication /secretion stimulated by a few ISGs (ISG15, USP18) in response to IFN. The developed prognostic tool can be used to stratify patients for treatment and the novel insights of the molecular mechanism of IFN resistance in HCV patients offer potential drug targets for future development. Hepatitis C Virus ISG15/USP18 gene expression profiling treatment response prediction 0369 0720
28	L’étude de l’impact des protéines non structurales NS1 et NS2 du virus respiratoire syncitial sur la réponse immunitaire innée Yoboua, Fabrice Aman 04 1900 (has links) Le virus respiratoire syncytial (RSV) est un virus à ARN de polarité négative. Les études démontrent que toute la population sera infectée par ce virus au moins deux fois avant l’âge de 3 ans. Le RSV peut provoquer plusieurs pathologies respiratoires telles que la bronchiolite aiguë et la pneumonie. Les infections sévères corrèlent avec le développement de l’asthme. Lors d’une infection virale, les particules du RSV sont détectées par le senseur RIG-I qui induit l’activation des facteurs de transcription NF-κB et IRF-3. Respectivement, les facteurs de transcription activeront les réponses inflammatoire et antivirale. Au coeur des pathologies induites par le RSV se trouve une réponse immunitaire mal adaptée. Plus précisément, par l’entremise de NF-κB, le RSV provoque une production exagérée de cytokines et chimiokines qui induisent une réponse inflammatoire démesurée provoquant du dommage tissulaire. Paradoxalement, le RSV est capable d’échapper à la réponse antivirale. Ces deux phénomènes sont contrôlés par l’entremise des protéines non structurales NS1 et NS2. Le mécanisme délimitant le mode d’action de NS1 et NS2 sur la réponse antivirale reste à être déterminé. Avec pour objectif d’élucider comment NS1 et NS2 inhibent la réponse antivirale, nous avons investigué le mécanisme de reconnaissance de l’hôte vis-à-vis de RSV. Nous démontrerons, pour la première fois, que le senseur cytosolique MDA5 est impliqué dans la réponse antivirale contre le RSV. Nous présenterons des résultats préliminaires qui suggèrent que le rôle de MDA5 est non redondant à RIG-I. À l’aide d’ARN interférant dirigé contre RIG-I et de transfection de MDA5, nous démontrerons que MDA5 ne contribue pas à la phosphorylation d’IRF-3, mais plutôt qu’elle régit la stabilité du facteur de transcription. Nous démontrerons aussi que, contrairement à l’hypothèse actuelle sur le fonctionnement de NS1 et NS2, l’inhibition de ces derniers ne provoque pas une augmentation de la cytokine antivirale IFN−β. Cependant, l’expression ectopique de NS1 et NS2 réduit l’activité du promoteur de l’IFN-β et de la protéine cytoplasmic antivirale ISG56 lorsqu’elle est mesurée par essai luciférase. / Respiratory Syncytial Virus (RSV) is a RNA virus with negative polarity. RSV infections are the most common cause of hospitalization among infants. Among populations at risk, infection of RSV can be quite severe. RSV infections can cause bronchiolitis, pneumonia, while severe infections are linked to the development of asthma. Early in the infectious cycle of RSV, the cytosolic sensor RIG-I captures viral particles, and activates the immune response by engaging the transcription factors IRF-3 and NF-κB. At the heart of RSV mediated pathologies is a skewed immune response. More precisely, RSV over stimulates the release of proinflammatory chemokines and cytokines. Intriguingly, while RSV is able to stimulate the production of proinflammatory cytokines and chemokines, RSV under stimulates the antiviral response. The ability of RSV to evade the antiviral response is thought to be mediated by its non-structural proteins: NS1 and NS2. However, the mechanism by which NS1 and NS2 enable RSV to evade the antiviral response remains to be determined. In this memoir we investigated, how RSV is recognized by the innate immune response in airway epithelial cells. With this information we hope to improve our understanding of how NS1 and NS2 allow RSV to circumvent the antiviral response. We show for the first time that cytosolic sensor MDA5 plays a role in the recognition of RSV particles. Using a combination of interfering RNA directed against RIG-I, and transfection of MDA5, we show that MDA5 does not contribute to the phosphorylation of IRF-3. According to the data presented, we suggest that MDA5’s role in the immune response is to prevent the degradation of IRF-3. Contrary to previous research, we show that the inhibition of the nonstructural protein does not increase the production of the antiviral cytokine IFN-β. However, the ectopic expression of NS1 and NS2 does lead to a reduction of the promoter activity of IFN-β and the antiviral protein ISG56 when measured by luciferase assay. This research highlights the importance of MDA5 as a potential therapeutic target in the development of a cure for RSV. Mda5 Rig-I RSV NS1 NS2
29	Études sur la dérégulation des cytokines et des cellules Natural Killer chez les patients infectés par le VIH-1 Iannello, Alexandre 09 1900 (has links) La prolifération, la différenciation ainsi que les fonctions des cellules du système immunitaire sont contrôlées en partie par les cytokines. Lors de l’infection par le VIH-1, les défauts observés dans les fonctions, la maintenance, ainsi que la consistance des cellules du système immunitaire sont en large partie attribués à une production altérée des cytokines et à un manque d’efficacité au niveau de leurs effets biologiques. Durant ces études, nous nous sommes intéréssés à la régulation et aux fonctions de deux cytokines qui sont l’IL-18 et l’IL-21. Nous avons observé une corrélation inversée significative entre les concentrations sériques d’IL-18 et le nombre des cellules NK chez les patients infectés par le VIH-1. Nos expériences in vitro ont démontré que cette cytokine induit l’apoptose des cellules NK primaires et que cette mort peut être inhibée par des anticorps neutralisants spécifiques pour FasL et TNF-α. Cette mort cellulaire est due à l’expression de FasL sur les cellules NK et à la production de TNF-α par ces cellules. L’IL-18 augmente aussi la susceptibilité à la mort des cellules NK par un stimulus pro-apoptotique, en diminuant l’expression de la protéine anti-apoptotique Bcl-XL. Nous démontrons aussi que, contrairement à l’IL-18, les niveaux d’IL-18BP sont plus faibles dans les sérum de patients infectés. Ceci résulte sur une production non coordonnée de ces deux facteurs, aboutissant à des niveaux élevés d’IL-18 libre et biologiquement active chez les patients infectés. L’infection de macrophages in vitro induit la production d’IL-18 et réduit celle d’IL-18BP. De plus, l’IL-10 et le TGF-β, dont les concentrations sont élevées chez les patients infectés, réduisent la production d’IL-18BP par les macrophages in vitro. Finalement, nous démontrons que l’IL-18 augmente la réplication du VIH-1 dans les lymphocytes T CD4+ infectés. Les niveaux élevés d’IL-18 libres et biologiquement actives chez les patients infectés contribuent donc à l’immuno-pathogénèse induite par le VIH-1 en perturbant l’homéostasie des cellules NK ainsi qu’en augmentant la réplication du virus chez les patients. Ces études suggèrent donc la neutralisation des effets néfastes de l’IL-18 en utilisant son inhibiteur naturel soit de l’IL-18BP exogène. Ceci permettrait de moduler l’activité de l’IL-18 in vivo à des niveaux souhaitables. L’IL-21 joue un rôle clef dans le contrôle des infections virales chroniques. Lors de ces études, nous avons déterminé la dynamique de la production d’IL-21 lors de l’infection par le VIH-1 et sa conséquence sur la survie des cellules T CD4+ et la fréquence des cellules T CD8+ spécifiques au VIH-1. Nous avons démontré que sa production est compromise tôt au cours de l’infection et que les concentrations d’IL-21 corrèlent avec le compte de cellules T CD4+ chez les personnes infectées. Nos études ont démontré que le traitement antirétroviral restaure partiellement la production d’IL-21. De plus, l’infection par le VIH-1 de cellules T CD4+ humaines inhibe sa production en réduisant l’expression du facteur de transcription c-Maf. Nous avons aussi démontré que la fréquence des cellules T CD4+ spécifiques au VIH-1 qui produisent de l’IL-21 est réduite chez les patients virémiques. Selon nos résultats, l’IL-21 empêche l’apoptose spontanée des cellules T CD4+ de patients infectés et l’absence d’IL-21 réduit la fréquence des cellules T CD8+ spécifiques au VIH-1 chez ces patients. Nos résultats démontrent que l'IL-21R est exprimé de façon égale sur tous les sous-types de cellules NK chez les donneurs sains et chez les patients infectés. L’IL-21 active les protéines STAT-3, MAPK et Akt afin d'augmenter les fonctions effectrices des cellules NK. L'activation de STAT-3 joue un rôle clef dans ces fonctions avec ou sans un traitement avec de l'IL-21. L'IL-21 augmente l'expression des protéines anti-apoptotiques Bcl-2 et Bcl-XL, augmente la viabilité des cellules NK, mais ne possède aucun effet sur leur prolifération. Nous démontrons de plus que l'IL-21 augmente l'ADCC, les fonctions sécrétrices et cytotoxiques ainsi que la viabilité des cellules NK provenant de patients chroniquement infectés par le VIH-1. De plus, cette cytokine semble présenter ces effets sans augmenter en contrepartie la réplication du VIH-1. Elle permet donc d'inhiber la réplication virale lors de co-cultures autologues de cellules NK avec des cellules T CD4+ infectées d'une manière dépendante à l'expression de perforine et à l'utilisation de la protéine LFA-1. Les niveaux d’IL-21 pourraient donc servir de marqueurs biologiques pour accompagner les informations sur le taux de cellules T CD4+ circulantes en nous donnant des informations sur l’état de fonctionnalité de ce compartiment cellulaire. De plus, ces résultats suggèrent l’utilisation de cette cytokine en tant qu’agent immunothérapeutique pour restaurer les niveaux normaux d’IL-21 et augmenter la réponse antivirale chez les patients infectés par le VIH-1. / The proliferation, differentiation, function and maintenance of immune cells is controlled in large part by cytokines. HIV-induced dysfunctions of the antiviral immunity is in part related to defects in the cytokine network, as manifested by altered cytokine secretion and responsiveness to these cytokines. In these studies, we investigated the regulation and the functions of two cytokines, IL-18 and IL-21, during HIV-1 infection. In our studies, we observed an inverse correlation between IL-18 concentrations and absolute numbers of various subsets of NK cells in infected persons. IL-18 caused increased death of a human NK cell line, as well as of primary human NK cells in vitro. The IL-18-mediated cell death was dependent upon Fas-FasL interactions and TNF- secretion. IL-18 induced the expression of TNF-, induced the expression of FasL on NK cells, increased the transcription from the human FasL promoter, reduced the expression of Bcl-XL in NK cells, and increased their sensitivity to FasL-mediated cell death. In contrast to IL-18 levels, IL-18BP levels decreased in the serum of HIV-infected patients. This decrease resulted in enhanced levels of free IL-18 in the serum of such patients. The infection increased production of IL-18 but decreased that of IL-18BP in monocyte-derived macrophages (MDM). Furthermore, IL-10 and TGF-β, two cytokines for which concentrations are increased in HIV-infected persons, also decreased production of IL-18BP by human MDM. Finally, recombinant human IL-18 enhanced HIV-1 replication in human CD4+ T cells. The uncoordinated production of these two cytokines represents an imbalance between these two soluble factors in HIV-infected patients. Our study shows that enhanced IL-18 bioactivity in HIV-infected patients may contribute to the pathogenesis of AIDS by disrupting NK cell homoeostasis and increasing viral replication. This uncoordinated production of IL-18 and IL-18BP contribute to IL-18-induced immunopathology and pathogenesis in HIV-infected AIDS patients. Therefore, these studies suggest that the neutralization of IL-18 may represent an appropriate and useful immunotherapeutic strategy in these patients. It may delay AIDS progression and improve the immune status of infected persons. The best way to achieve this goal may be using exogenous interleukin-18 binding protein. IL-21 is a relatively newly discovered immune enhancing cytokine, which plays an essential role in controlling chronic viral infections. Therefore, we sought to determine the dynamics of the cytokine production and its potential consequences on the viability of CD4+ T cells in HIV-infected persons. We show here that the cytokine production is compromised early in the course of the infection. The serum cytokine concentrations correlated with CD4+ T cell counts in the infected persons. Among different groups of HIV-infected persons, only Elite Controllers maintain normal production of the cytokine. The HAART partially restores production of this cytokine. Interestingly, HIV-1 infection of human PBMC as well as of purified CD4+ T cells inhibits the production of the cytokine by decreasing the expression of c-Maf, a transcription factor involved in the activation of the cytokine gene, in the virus-infected cells but not in uninfected bystander cells. We also show that the frequencies of IL-21 producing HIV-specific antigen experienced CD4+ T cells are decreased in HIV-infected viremic patients. Furthermore, we show that recombinant human IL-21 acts as pro-survival factor and prevents enhanced spontaneous apoptosis of ex vivo cultured CD4+ T cells from HIV-infected patients and that increased serum levels of the cytokine are associated with higher frequencies as well as with better functions of HIV-specific CTL in HIV-infected individuals. We show that the cytokine receptors are expressed equally on all NK cell subsets. We demonstrate that the cytokine activates STAT-3, MAPK and Akt to enhance NK cell functions. IL-21 increases expression of anti-apoptotic proteins Bcl-2 and Bcl-XL, and enhances viability of NK cells, but has no effect on their proliferation. We further show that the cytokine enhances HIV-specific ADCC, secretory and cytotoxic functions as well as viability of NK cells from HIV-infected persons. Furthermore, it exerts its biological effects on NK cells with minimal enhancement of HIV-1 replication, and the cytokine-activated NK cells inhibit viral replication in co-cultured HIV-infected autologous CD4+ T cells in a perforin- and LFA-1-dependent manner. These studies suggest that serum IL-21 concentrations may serve as useful biomarker to accompany CD4+ T cell counts for monitoring HIV-1 disease progression and the fitness of the antiviral immunity. Furthermore, the cytokine may be considered for immunotherapy in HIV-infected patients in order to restore the physiological levels of the cytokine and promote their antiviral immunity. Cytokines VIH-1 SIDA Natural Killer IL-18 IL-21
30	Rôle différentiel des cellules épithéliales intestinales et pulmonaires dans le recrutement des cellules Th17 vers les sites de réplication du virus de l'immunodéficience humaine de type 1 Touil, Hanane 11 1900 (has links) L’infection à VIH-1 est associée à une forte déplétion des lymphocytes T CD4+ à polarisation Th17 au niveau des tissus lymphoïdes associés aux muqueuses intestinales (GALT, gut-associated lymphoid tissues). Ceci conduit à la translocation microbienne, qui est une cause d’activation immunitaire chronique et de progression de la maladie. Les cellules épithéliales (CE) jouent un rôle critique dans le maintien de l’intégrité et de l’homéostasie au niveau des muqueuses intestinales via le recrutement des cellules de l’immunité innée (e.g., neutrophiles) et adaptative (e.g., cellules Th17). Les neutrophiles produisent des molécules antivirales (e.g., défensines-) et ont la capacité de limiter la réplication virale au niveau des muqueuses. Les cellules Th17 jouent un double rôle lors de l’infection à VIH. Elles contribuent d’une part à la défense contre différents pathogènes opportunistes en augmentant, via la production d’IL-17, la capacité des CE à attirer les cellules Th17 et les neutrophiles. D’autre part, les cellules Th17 jouent un rôle délétère en tant que cibles de réplication virale et sources de cytokines pro-inflammatoires. La fréquence des cellules Th17 est diminuée dans les GALT mais pas dans les poumons des patients infectés par le VIH, suggérant qu’il existe des mécanismes différents par lesquels les cellules Th17 sont recrutées vers ces sites anatomiques. Nous avons testé l’hypothèse selon laquelle le VIH interfère avec la capacité des CE intestinales et non pas pulmonaires à produire des chimiokines (CK) responsables de l’attraction des cellules Th17 et des neutrophiles. Nous avons démontré que les CE intestinales et pulmonaires produisent des CK spécifiques pour les cellules Th17 (CCL20) et les neutrophiles (CXCL8) en réponse à des stimuli pro-inflammatoires tels que l’IL-1 et le TNF-. Le TNF- agit en synergie avec l’IL-17, un « signal de danger » récemment identifié, et augmente la capacité des CE intestinales mais pas pulmonaires à produire la chimiokine CCL20. Cette synergie s’explique par l’augmentation préférentielle de l’expression du récepteur à l’IL-17 à la surface des CE intestinales suite à la stimulation par le TNF-. L’exposition au VIH n’affecte pas la production de CCL20 et de CXCL8 par les CE intestinales, mais altère la capacité des CE alvéolaires à produire ces chimiokines en accord avec la permissivité sélective de ces dernières à l’infection par le VIH. En conclusion, nos résultats démontrent que (i) le VIH n’interfère pas directement avec la capacité des CE intestinales à recruter des cellules Th17 et des neutrophils et que (ii) la production de CCL20 par ces cellules est dépendantes de la synergie entre le TNF- et l’IL-17. Ainsi, la déplétion des cellules Th17 et la pénurie en IL-17 dans les GALT des sujets infectés pourrait causer de façon préférentielle des altérations fonctionnelles au niveau des CE intestinales, se traduisant par l’altération du recrutement des cellules Th17 en réponse au CCL20. / The HIV-1 infection is associated with a severe loss of CD4+ T-cells with Th17 polarization from the gut-associated lymphoid tissues (GALT). These alterations lead to microbial translocation, which is a cause of chronic immune activation and disease progression in HIV-infected subjects. Epithelial cells (EC) play a critical role in maintaining mucosal integrity and homeostasis in the GALT by mechanisms including recruitment of innate (e.g., neutrophils) and adaptive immunity cells (e.g., Th17 cells). Neutrophils produce antiviral molecules (e.g., -defensins) that may limit HIV replication at mucosal sites. Th17 cells play a dual role in HIV pathogenesis. Th17 cells contribute to the defence against different opportunistic pathogens by increasing the ability of epithelial cells to attract neutrophils in an IL-17-dependent manner. On the other hand, Th17 cells play a deleterious role in HIV pathogenesis as they are sites of productive viral replication and a source of pro-inflammatory cytokines. The frequency of Th17 cells is decreased in the GALT but not in the lungs of HIV-infected individuals, suggesting distinct mechanisms of Th17 recruitment in these anatomic sites in the context of HIV pathogenesis. In this manuscript we tested the hypothesis that HIV differentially interfere with the ability of intestinal but not pulmonary EC to produce chemokines that attract Th17 cells and neutrophils. We demonstrated that both intestinal and pulmonary EC produce chemokines that specifically attract Th17 cells (CCL20) and neutrophils (CXCL8) upon stimulation with the pro-inflammatory cytokines IL-1 and TNF- . TNF-α acted in synergy with IL-17, a recently identified « danger signal », and increases the capacity of intestinal but not pulmonary EC to produce CCL20. This synergistic effect can be explained by the preferential upregulation of IL-17 receptor expression on intestinal EC upon TNF- stimulation. The exposure of intestinal EC to HIV did not affect their ability to produce CCL20 and CXCL8; however, exposure to HIV altered the production of these chemokines by alveolar EC, consistent with their selective permissiveness to infection. In conclusion, our results demonstrate that (i) HIV does not interfere directly with the ability of intestinal EC to attract Th17 cells and neutrophils and that (ii) the ability of intestinal EC to recruit the Th17 cells via CCL20 production is selectively dependent on the synergy between TNF- and IL-17. Thus, the depletion of Th17 cells and the shortage in IL-17 in the GALT of HIV-infected subjects may preferentially lead to functional alterations of the intestinal barrier resulting by the alteration of Th17 recruitment in response to CCL20. Infection a VIH Cellules Th17 HIV Infection Th17 cells

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