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Adenovirus species B interactions with CD46Gustafsson, Dan January 2012 (has links)
Adenoviruses (Ad) are double-stranded (ds) DNA, non-enveloped viruses. There are seven species (A-G) of human Ads with 52 knownserotypes to date. Human Ads cause a broad range of pathologies, ranging from upper respiratory tract infections to persistent urinary tract infections. The main determinant for Ads tropism in vitro is the protruding, antenna-like, fiber protein. The fiberknob is responsible for the main interaction with the attachment receptor of the host cell. Most Ad species use the coxsackie- adenovirus receptor (CAR) as their main attachment receptor. Most species B Ads, however use CD46. CD46 is a cell surface complement regulatory protein, which is expressed on all nucleated cells in humans. Species B Ads exhibit a low seroprevalenc in the human population, making these Ads promising vector candidates for gene therapy. We have studied human Ad species B members, serotypes 7 and 11 (Ad7 and Ad11), as well as their interaction with CD46. Our first experiments showed that all species B Ads use CD46 as their main attachment receptor, with the exception of Ad3 and Ad7. Second, we performed mutational studies of recombinant Ad11p fiberknobs. These studies showed that arginine 279 in the Ad 11 fiberknob is necessary for CD46 binding. Finally we studied the effect of Ad11 binding to CD46. The results indicate that CD46 is rapidly downregulated on the cell surface after Ad11 binding. These results may provide a further understanding of the basic biology and pathology of species B Ads and may also be useful in construction of gene therapy vectors based on species B Ads.
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Investigation into the regulation of CD46 function in T cellsHay, Joanne January 2017 (has links)
CD46 is a ubiquitously expressed transmembrane protein in humans with a role in immune homeostasis. Originally identified as a complement regulator, CD46 has since been regarded a receptor for several pathogens and most recently, described as a T cell costimulatory molecule. Its coligation with CD3 and consequent cleavage from the T cell surface serves as a costimulatory stimulus for T cell activation. In addition, in the presence of IL-2, CD46 induces Tr1 cell differentiation which is characterised by low IFN-γ and high IL-10 secretion. CD3/CD46-induced Tr1 differentiation is defective in patients with MS, rheumatoid arthritis and asthma, highlighting the need to investigate the mechanisms involved in the regulation of the CD46 pathway. CD46 is a highly glycosylated protein with three N-glycosylation sites in the short consensus repeats and multiple O-glycosylation sites in the STP region. Previous data from the lab have shown that CD3 activation causes a change in CD46 glycosylation. Herein, I convey that this change is more pronounced in memory than naive CD4+ T cells and is mainly due to changes in CD46 O-glycosylation. Furthermore, these changes are required for the T cell responses triggered by CD46 costimulation including T cell activation and Tr1 differentiation. Interestingly, CD46 is recruited to the immunological synapse formed between a T cell and an antigen presenting cell and I illustrate that the STP region is needed for this also. These data suggest that the glycosylation status of CD46 regulates its function. In MS, vitamin D deficiency is considered to be a significant risk factor and many patients take vitamin D supplement to help manage their condition. Herein, I report that treatment of healthy and MS CD4+ T cells with vitamin D does not prevent T cell activation but it decreases adhesion molecule expression. Moreover, vitamin D supplementation in MS enhances CD46 cleavage. Therefore, vitamin D also plays a role in the regulation of the CD46 pathway and it would be interesting to investigate whether vitamin D affects CD46 glycosylation. During my MSc, I showed that a recombinant protein derived from adenovirus serotype 35 (which naturally binds CD46) known as Ad35K++ controls the CD46 pathway in CD4+ T cells. Lymphoma cells treated with Ad35K++ in combination with monoclonal antibody therapy rituximab have demonstrated increased sensitivity to rituximab and prove that virus-derived recombinant proteins that target CD46 have therapeutic potential. Considering the key role of CD46 as a T cell costimulatory molecule, I have investigated the effects of Ad35K++ on the CD46 pathway following its use in vivo and confirm CD46 is still cleaved from the cell surface and the cells still become activated. Overall these results provide insight into the mechanisms involved in the regulation of the CD46 pathway and highlight how it can be manipulated for therapeutic use.
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Macrophage programming and host responses to bacterial infectionWang, Xiao January 2016 (has links)
Macrophages are dynamic, plastic, and heterogeneous immune cells that play an important role in host immune defense against bacterial infection. Various bacterial pathogens, such as Neisseria meningitidis and Mycobacterium tuberculosis, can modulate host immune responses by interfering with macrophage differentiation and polarization. The focus of this thesis was to understand the role of macrophages in the pathogenesis of bacteria-induced diseases, which has important implications in the search for novel therapeutic strategies to control those infectious diseases. In Paper I, we found that NhhA, a conserved meningococcal outer membrane protein, can activate macrophages through both Toll-like receptor 4 (TLR4)-dependent and -independent pathways. In Paper II, we demonstrated that NhhA activates monocytes through TLR2 and triggers autocrine IL-10 and TNF production through the ERK and JNK pathways, which skew monocyte differentiation into CD200Rhi macrophages. These immune homeostatic macrophages are associated with nasopharyngeal carriage of meningococci. In Paper III, we examined the role of human CD46, a ubiquitous transmembrane protein, in regulating macrophage apoptosis, differentiation, and functional polarization. We revealed that macrophages expressing CD46 exhibit an M1 phenotype and are prone to generate proinflammatory cytokines, such as IL-6, TNF, and IL-12, upon lipopolysaccharide challenge or meningococcal infection. The important role of these macrophages in the development of septic shock was further confirmed by in vivo studies using a CD46 transgenic mouse disease model. M. tuberculosis, a gram-positive bacterium, remains an important cause of death in developing countries. In Paper IV, we reported that murine macrophages expressing human CD46 exhibit enhanced viability and bactericidal capacity and are prone to form granulomas following chronic mycobacterial infection. Increased understanding of host factor roles in the physiopathology of tuberculosis is critical for the design of effective vaccines and new drugs. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 3: Manuscript. Paper 4: Manuscript.</p>
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Receptor Interactions Between Pathogenic Bacteria and Host CellsLövkvist, Lena January 2007 (has links)
<p>This thesis focuses on host and pathogen specific interactions during invasive disease. We have investigated the role and impact of different virulence factors of <i>Neisseria gonorrhoeae, N. meningitidis</i> and <i>Streptococcus pyogenes</i> on host epithelial cells and <i>in vivo</i>. </p><p><i>N. gonorrhoeae</i> cause the sexually transmitted disease gonorrhoea and <i>N. meningitidis</i> is the most common cause of bacterial meningitis and may be leathal to the host within hours of infection. The neisserial type IV pili were shown to have an important impact on host cells for the induction of pro-inflammatory and other cellular defence transcriptional responses. Furthermore, <i>N. meningitidis</i> generally induced an earlier response compared to <i>N. gonorrhoeae</i>, probably as a result of the meningococcal capsule. The role of <i>N. meningitidis</i> serogroup B lipooliogsaccharide was investigated during invasive disease. Bacterial invasion of host cells and blood survival as well as virulence in vivo was dependent on the integrity of the LOS structure. </p><p><i>S. pyogenes</i> may cause a variety of diseases ranging from uncomplicated diseases such as 'strep-throat' to more severe invasive diseases such as necrotizing fasciitis and streptococcal toxic shock syndrome. <i>S. pyogenes</i> ScpC protease degrade interleukin 8 during necrotizing fasciitis. We investigated the role of ScpC in systemic disease and observed enhanced virulence by bacteria unable to degrade IL-8. Following an intravenous infection of mice pro-inflammatory cytokines and complement activation was induced by the ScpC negative mutant compared to the wild-type and correlated with higher bacteremia. These data indicate that the precense of the ScpC protease has an important impact on the host for the outcome of streptococcal sepsis. Another phagocytic escape mechanism of <i>S. pyogenes</i> is their ability to coat themselves with host proteins. We observed that released complement control protein, CD46, bound to the streptococcal cell surface. CD46 has been shown to interact with the streptococcal M protein and have now been found to bind to the surface of the bacteria in a growth phase dependent manner. We observed a more aggressive disease development in CD46 transgenic mice after an intravenous infection with an M6 serotype, resulting in higher mortality of CD46 transgenic mice compared with control mice. These data indicate that CD46 may confer a protection to the streptococci during early stage of systemic infection and contributes to the understanding of immune evsion of <i>S. pyogenes</i>.</p>
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Receptor Interactions Between Pathogenic Bacteria and Host CellsLövkvist, Lena January 2007 (has links)
This thesis focuses on host and pathogen specific interactions during invasive disease. We have investigated the role and impact of different virulence factors of Neisseria gonorrhoeae, N. meningitidis and Streptococcus pyogenes on host epithelial cells and in vivo. N. gonorrhoeae cause the sexually transmitted disease gonorrhoea and N. meningitidis is the most common cause of bacterial meningitis and may be leathal to the host within hours of infection. The neisserial type IV pili were shown to have an important impact on host cells for the induction of pro-inflammatory and other cellular defence transcriptional responses. Furthermore, N. meningitidis generally induced an earlier response compared to N. gonorrhoeae, probably as a result of the meningococcal capsule. The role of N. meningitidis serogroup B lipooliogsaccharide was investigated during invasive disease. Bacterial invasion of host cells and blood survival as well as virulence in vivo was dependent on the integrity of the LOS structure. S. pyogenes may cause a variety of diseases ranging from uncomplicated diseases such as 'strep-throat' to more severe invasive diseases such as necrotizing fasciitis and streptococcal toxic shock syndrome. S. pyogenes ScpC protease degrade interleukin 8 during necrotizing fasciitis. We investigated the role of ScpC in systemic disease and observed enhanced virulence by bacteria unable to degrade IL-8. Following an intravenous infection of mice pro-inflammatory cytokines and complement activation was induced by the ScpC negative mutant compared to the wild-type and correlated with higher bacteremia. These data indicate that the precense of the ScpC protease has an important impact on the host for the outcome of streptococcal sepsis. Another phagocytic escape mechanism of S. pyogenes is their ability to coat themselves with host proteins. We observed that released complement control protein, CD46, bound to the streptococcal cell surface. CD46 has been shown to interact with the streptococcal M protein and have now been found to bind to the surface of the bacteria in a growth phase dependent manner. We observed a more aggressive disease development in CD46 transgenic mice after an intravenous infection with an M6 serotype, resulting in higher mortality of CD46 transgenic mice compared with control mice. These data indicate that CD46 may confer a protection to the streptococci during early stage of systemic infection and contributes to the understanding of immune evsion of S. pyogenes.
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Human adenoviruses : new bioassays for antiviral screening and CD46 interactionAndersson, Emma January 2010 (has links)
Adenoviruses are common pathogens all over the world. The majority of the population has at some point been infected with an adenovirus. Although severe disease can occur in otherwise healthy individuals an adenovirus infection is most commonly self limited in these cases. For immunocompromised individuals however, adenoviruses can be life-threatening pathogens capable of causing disseminated disease and multiple organ failure. Still there is no approved drug specific for treatment of adenovirus infections. We have addressed this using a unique whole cell viral replication reporter gene assay to screen small organic molecules for anti-adenoviral effect. This RCAd11pGFP-vector based assay allowed screening without any preconceived idea of the mechanism for adenovirus inhibition. As a result of the screening campaign 2-[[2-(benzoylamino)benzoyl]amino]-benzoic acid turned out to be a potent inhibitor of adenoviral replication. To establish a structure-activity relationship a number of analogs were synthesized and evaluated for their anti-adenoviral effect. The carboxylic acid moiety of the molecule was important for efficient inhibition of adenovirus replication. There are 54 adenovirus types characterized today and these are divided into seven species, A-G. The receptors used by species B and other adenoviruses are not fully characterized. CD46 is a complement regulatory molecule suggested to be used by all species B types and some species D types but this is not established. We have designed a new bioassay for assessment of the interaction between adenoviruses and CD46 and investigated the CD46-binding capacity of adenovirus types indicated to interact with CD46. We concluded that Ad11p, Ad34, Ad35, and Ad50 clearly bind CD46 specifically, whereas Ad3p, Ad7p, Ad14, and Ad37 do not. CD46 is expressed on all human nucleated cells and serves as a receptor for a number of different bacteria and viruses. Downregulation of CD46 on the cell surface occurs upon binding by some of these pathogens. We show that early in infection Ad11p virions downregulate CD46 upon binding to a much higher extent than the complement regulatory molecules CD55 and CD59. These findings may lead to a better understanding of the pathogenesis of adenoviruses in general and species B adenoviruses in particular and hopefully we have discovered a molecule that can be the basis for development of new anti-adenoviral drugs.
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Processing and glycosylation of CD46 regulate : its expression and T cell responsesNí Choileáin, Siobhán January 2013 (has links)
CD46 is a ubiquitously expressed transmembrane molecule and has an important role in the innate and adaptive immune system. CD46 was originally identified as a complement receptor that protects cells from autologous attack. However, CD46’s immunological profile is ever expanding and more recently it was identified as a T cell costimulatory molecule. Notably, in the presence of IL-2, CD46 can induce a Tr1-like phenotype that is characterized by the secretion of large amounts of the potent anti-inflammatory cytokine, IL-10. Defects in CD46- induced IL-10 secretion have been identified in multiple sclerosis, asthma and rheumatoid arthritis. Despite CD46’s promiscuous nature in immune responses there is little known about its underlying processing and signalling pathways. Herein, I report that CD46 expression and processing are important for regulating T cell anti-inflammatory responses and activation. Cyt1 but not Cyt2 promotes an increased ratio IL-10+ cells compared to cells that secrete both Il-10 and IFNγ. Upon CD46 costimulation, proteolytic cleavage of CD46 occurs at the surface and intracellularly with the subsequent release of a functional intracellular domain (ICD). As a result of alternative splicing, there are two main cytoplasmic isoforms of CD46, both of which release ICDs, Cyt1 and Cyt2. It is shown that the smaller Cyt1 ICD fragment facilitates T cell activation, whereas, Cyt2 promotes T cell activation when expressed in an uncleaved form. As the expression and cleavage of CD46 is important for regulating T cell function, I went on to identify factors that can regulate CD46 cleavage. Herein, it is demonstrated that T cell activation by the T cell receptor (TCR) acts as a major regulator of CD46 cleavage and expression, emphasizing the inherent role of CD46 in T cell activation. TCR stimulation also modulates CD46 glycosylation, which may effect CD46 expression and T cell phenotype. Importantly, I have identified a dysregulated expression of CD46 in a preliminary cohort of RRMS patients. It will be interesting to examine if aberrant CD46 glycosylation or cleavage accounts for its altered expression levels and impaired IL-10 secretion in RRMS patients.
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Proteinové interakční sítě mezi cytoskeletem a membránou ve spermii / Cytoskeleton-membrane protein interaction network in spermAdamová, Zuzana January 2019 (has links)
In order to fertilize the egg, sperm cell undergoes several subsequent maturation processes. The final one called acrosome reaction is an exocytosis of acrosome vesicle, which is filled with lytic enzymes. Acrosome reaction is crucial for penetration of the sperm cell through the egg surroundings, especially zona pellucida, as well as for reorganization of a membrane protein composition on its surface. This rearrangement leads to the exposure of proteins essential for fertilization, mainly for gamete recognition, binding and fusion in specific compartments of the sperm head. One of such protein is CD46, which is located in the acrosomal membrane of an intact sperm and after acosomal exocytosis it relocates to the equatorial segment of a sperm head, which is known to be the initial site of interaction of sperm with the egg plasma membrane. The relocation of CD46 is disrupted by inhibition of actin, which reorganization within sperm head is known to play a role in onset of acrosome reaction, however, the precise mechanism of CD46 interaction with actin in sperm is unknown. In this thesis, ezrin - a crosslinker of membrane proteins and actin - has been studied in context of CD46 and its relocation across the sperm head. Analysis of the immunofluorescent detection of ezrin revealed its mutual...
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Développement d'un modèle murin transgénique d'infection par l'herpèsvirus 6A et étude des mécanismes d'induction de la neuroinflammation / Development of a transgenic murine model for human herpesvirus 6A infection and study of the mechanisms of induction of neuroinflammationReynaud, Joséphine 31 May 2013 (has links)
L’herpèsvirus humain (HHV) 6 est un betaherpèsvirus largement répandu, associé à plusieurs maladies neuroinflammatoires, telles que des encéphalites ou la sclérose en plaques (SEP). Cependant, les mécanismes impliqués dans la neuropathologie induite par les deux espèces d’HHV-6, HHV-6A et HHV-B, sont peu connus. De plus, l’absence de modèle d’infection chez le petit animal a ralenti l’étude de la pathogénèse virale. Dans ce contexte, nous avons développé un modèle d’infection par HHV-6 chez des souris transgéniques, qui expriment la protéine CD46 humaine, identifiée comme récepteur cellulaire pour HHV-6. Nous avons pu démontrer une persistance de l’ADN viral d’HHV-6A, mais pas d’HHV-6B, dans le cerveau de souris transgéniques pendant plusieurs mois. De plus nos résultats montrent qu’HHV-6A induit la sécrétion de chimiokines pro-inflammatoires par les cellules neurales murines et provoque l’infiltration de cellules immunitaires dans le cerveau de souris infectées. Enfin, HHV-6A, mais pas HHV-6B, pourrait induire des réponses cellulaires chez les cellules murines via le récepteur de l’immunité innée TLR9 (toll-like receptor 9). En collaboration avec une équipe de Grenoble, nous avons ensuite montré que l’infection par HHV-6A induit l’expression de rétrovirus endogènes humains (HERV) dans des cellules mononuclées et des lignées neurales humaines. Ces HERV, en particulier leurs protéines d’enveloppe qui présentent des propriétés pro-inflammatoires, sont associés à diverses maladies autoimmunes dont la SEP. HHV-6A pourrait donc participer au développement de pathologies inflammatoires via l’induction de ces HERV. L’ensemble de ces travaux supporte ainsi l’existence d’un lien entre l’infection par HHV-6A et la neuroinflammation, et apporte de nouvelles pistes quant aux mécanismes potentiellement impliqués. / Human herpesvirus (HHV) 6 is a widely spread betaherpesvirus, which has been associated to several neuroinflammatory diseases, such as encephalitis or multiple sclerosis (MS). However, the mechanisms explaining the neuropathology induced by the two species of HHV-6, HHV-6A and HHV-6B, remain to be elucidated. Moreover, the lack of small animal model for HHV-6 infection has considerably hampered the study of viral pathogenesis. In this context, we have generated several lines of mice expressing the human CD46 protein, identified as a cellular receptor for HHV-6, and characterized the infection. We demonstrated that DNA of HHV-6A, but not HHV-6B, can persist in the brain of CD46 transgenic mice for several months after intracranial injection. Moreover our results show that HHV-6A induces chemokine secretion by in vitro cultured murine brain cells and provokes leucocyte infiltration in the brain of infected mice. Finally, HHV-6A, but not HHV-6B, could activate cellular responses in murine cells through binding to toll-like receptor 9. In collaboration with the team of P. Marche in Grenoble, we then showed that HHV-6A and HHV-6B infection induce the expression of envelope genes from human endogenous retrovirus W (HERV-W) in human blood mononucleated cells and human neural cell lines. Envelope proteins of HERV-W are known to exhibit strong pro-inflammatory properties and were associated to various autoimmune diseases, including multiple sclerosis. HHV-6A and HHV-6B could therefore participate in the development of inflammatory disorders via the activation of these HERV genes. Altogether this work supports the hypothesis of a link between HHV-6 infection neuroinflammation and opens new perspectives in the study of the mechanisms potentially involved.
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Dynamika akrozomální reakce při vnitrodruhové kompetici spermií hlodavců. / Dynamics of acrosome reaction during intra-specific sperm competition in rodents.Veselá, Kateřina January 2012 (has links)
Dynamics of acrosome reaction during intra-specific sperm competition in rodents Sperm acrosome integrity is disturbed in promiscuous species field mice (Apodemus) and more than half of the spermatozoa undergoing spontaneous acrosome reaction (AR) before binding to the zona pellucida. In Muridae it is documented a generally high rate of spontaneous AR, and the percentage increases in promiscuous species up to 60 % in 60 min capacitation in vitro. The acrosome integrity positively corellates with presence of CD46 protein which absence in wood mouse is fenotypicaly same as in CD46 knock-out mouse leading to accelerated spontaneous AR. It is necessary to clarify whether for mouse sperm it is essential the primary binding of intact sperm to zona pellucida of the egg or whether it is preferred secondary sperm binding after spontaneous AR. In this context, the question is whether there is a relocalization of the key fusion protein IZUMO in sperm during spontaneous AR. IZUMO relocalization was monitored by immunofluorescence at specific times of capacitation in vitro during spontaneous and induced AR. IZUMO relocalization as closely connected to actin cytoskeleton, and β1 integrins. Dynamics and localization of β1 integrin during spontaneous and induced AR was also detected by immunofluorescence. Our results...
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