Global ETD Search

481	Mycobacterial infection: Immune evasion, host susceptibility and immunological markers of diagnostic importance Arko-Mensah, John January 2008 (has links) <p>IIn the first study, we investigated the functional implications of prolonged TLR signalling on IFN-γ mediated killing of mycobacteria by murine macrophages <i>in vitro</i>. TLR2, but not TLR4 ligation interfered with IFN-γ mediated killing of mycobacteria in macrophages. In terms of mechanisms, neither TNF nor nitric oxide (NO) production was significantly affected, and the refractoriness induced could be reversed with increasing amounts of IFN-γ In the second study, we aimed to identify immunological markers of diagnostic importance in both the respiratory tract and serum during pulmonary mycobacterial infection in mice. We found that increased levels of immunological markers in the respiratory tract, but not serum, correlated better with active mycobacterial infection in the lungs, suggesting that the immune response in the respiratory tract is more reflective of the infection status and pathology than the systemic response. Finally, we investigated the level and nature of immune responses to pulmonary mycobacterial infection in BALB/c and C57BL/6 mice, two mouse strains known to exhibit different susceptibilities to infection with several intracellular pathogens, including mycobacteria. We showed that increased susceptibility of BALB/c mice to early mycobacterial infection was associated with reduced Th1 immune responses, and increased sTNFR secretion in the lung. Moreover, BALB/c mice recruited fewer monocytes/macrophages to the lung, and although IFN-γ stimulation of infected bone marrow derived macrophages in both mouse strains resulted in induction of antimycobacterial activity, BALB/c mice had a reduced capacity to kill ingested bacteria. The work presented in this thesis provide further insight into the mechanisms involved in the host-pathogen interaction; from persistence, to the immunological processes induced by the pathogen, to susceptibility of the host to infection.</p> Mycobacteria Mice Toll-like receptors interferon gamma immunological markers lung respiratory tract susceptibility Immunology Immunologi
482	Aspects of interferon alpha signalling in hematopoetic cells Carlsson, Lennart January 2004 (has links) <p>The type I interferons (IFN) are a family of cytokines with pleiothropic activities that include inhibition of viral replication, cell proliferation and activation of the immune system. These properties give the IFNs important physiological and pathological roles in infection and cancer and have led to their therapeutic use for many clinical conditions. In humans, the type I IFNs consist of 12 different IFNa subtypes as well as single IFNb, w and k subtypes. They all compete for binding to a common receptor, consisting of two subunits, IFNAR1 and IFNAR2. In almost all cell types proliferation is inhibited by IFNs as a consequence of the antiviral properties. However, previous studies on human peripheral B-lymphocytes have shown increased survival as well as proliferation upon IFN treatment. </p><p>We established a purification system for extraction of B-lymphocytes from buffy-coat, utilizing density centrifugation in combination with anti-CD19 magnetic beads. In an attempt to identify the molecular mechanisms of increased survival, the expression and/or activation pattern of different signaling proteins were analysed by Western blot. It was previously reported that phosphatidylinositol 3’-kinase (PI3K) physically interacts with the IFNAR complex, via adaptor proteins. Activated PI3K indirectly activates Akt/PKB, a kinase involved in a pathway leading to both survival and proliferation signals. We were able to show a novel signaling pathway - IFN treatment activated Akt/PKB as well as a downstream effector, one member of the Forkhead family (FKHR) was inactivated by phosphorylation and as a consequence p27/Kip1 expression was downregulated. Activation of this pathway resulted in increased survival as measured by TUNEL assay, an effect efficiently counteracted by the the synthetic PI3K inhibitor, LY294002. </p><p>In additional experiments we investigated the molecular mechanisms of proliferation. Activation of B-cells was ensured by using limiting concentrations of anti-IgM antibodies, mimicing natural activation. Using thymidine incorporation, we discovered that IFN treatment increased the sensitivity to anti-IgM stimulation. As a consequence, more cells proliferated as measured by CFSE staining. However, on its own, IFN was unable to induce proliferation. IFN turned out to be as efficient as IL-2, a classical B-lymphocyte growth factor. In order to distinguish proliferation from increased survival, Rb phoshorylation was analysed by Western blot. Phosphorylation induced by anti-IgM was further enhanced by IFN. As we determined earlier, p27/Kip1 expression was downregulated, releasing the cell cycle block. However, p21/Cip1 expression was upregulated but almost exclusively localised to the cytoplasm, therefore unable to perform the classical growth inhibitory functions. We conclude that type I interferons contribute to increased survival as well as proliferation of human primary B-lymphocytes. </p><p>The IFN receptor subunits was studied in a human myeloma cell line (U266), using a variant of which that are totally resistant towards the anti-proliferative properties of IFN. The reason for resistance in clinical situations is seldom elucidated, but is often believed to be due to development of antibodies against interferon. The resistant cells were unable to bind radio-labelled IFN, and through Southern Blot we could determine that the IFNAR1 gene was not functional. Also the IFNAR2 gene was affected, since Northern blot and sequencing detected an aberrant transcript not present in the wild type cells. Karyotyping showed that the cells had 3-4 copies of chromosome 21, but Southern blot did not detect any cytoplasmic region of IFNAR2. The IFN receptors are close to each other on the genome, and a deletion affecting one receptor gene is likely to affect the other as well. We conclude that the IFN resistance in U266Res cells is due to lack of functional receptor subunits.</p> Molecular biology interferon human B-lymphocyte survival proliferation myeloma Molekylärbiologi Molecular biology Molekylärbiologi
483	Aspects of interferon alpha signalling in hematopoetic cells Carlsson, Lennart January 2004 (has links) The type I interferons (IFN) are a family of cytokines with pleiothropic activities that include inhibition of viral replication, cell proliferation and activation of the immune system. These properties give the IFNs important physiological and pathological roles in infection and cancer and have led to their therapeutic use for many clinical conditions. In humans, the type I IFNs consist of 12 different IFNa subtypes as well as single IFNb, w and k subtypes. They all compete for binding to a common receptor, consisting of two subunits, IFNAR1 and IFNAR2. In almost all cell types proliferation is inhibited by IFNs as a consequence of the antiviral properties. However, previous studies on human peripheral B-lymphocytes have shown increased survival as well as proliferation upon IFN treatment. We established a purification system for extraction of B-lymphocytes from buffy-coat, utilizing density centrifugation in combination with anti-CD19 magnetic beads. In an attempt to identify the molecular mechanisms of increased survival, the expression and/or activation pattern of different signaling proteins were analysed by Western blot. It was previously reported that phosphatidylinositol 3’-kinase (PI3K) physically interacts with the IFNAR complex, via adaptor proteins. Activated PI3K indirectly activates Akt/PKB, a kinase involved in a pathway leading to both survival and proliferation signals. We were able to show a novel signaling pathway - IFN treatment activated Akt/PKB as well as a downstream effector, one member of the Forkhead family (FKHR) was inactivated by phosphorylation and as a consequence p27/Kip1 expression was downregulated. Activation of this pathway resulted in increased survival as measured by TUNEL assay, an effect efficiently counteracted by the the synthetic PI3K inhibitor, LY294002. In additional experiments we investigated the molecular mechanisms of proliferation. Activation of B-cells was ensured by using limiting concentrations of anti-IgM antibodies, mimicing natural activation. Using thymidine incorporation, we discovered that IFN treatment increased the sensitivity to anti-IgM stimulation. As a consequence, more cells proliferated as measured by CFSE staining. However, on its own, IFN was unable to induce proliferation. IFN turned out to be as efficient as IL-2, a classical B-lymphocyte growth factor. In order to distinguish proliferation from increased survival, Rb phoshorylation was analysed by Western blot. Phosphorylation induced by anti-IgM was further enhanced by IFN. As we determined earlier, p27/Kip1 expression was downregulated, releasing the cell cycle block. However, p21/Cip1 expression was upregulated but almost exclusively localised to the cytoplasm, therefore unable to perform the classical growth inhibitory functions. We conclude that type I interferons contribute to increased survival as well as proliferation of human primary B-lymphocytes. The IFN receptor subunits was studied in a human myeloma cell line (U266), using a variant of which that are totally resistant towards the anti-proliferative properties of IFN. The reason for resistance in clinical situations is seldom elucidated, but is often believed to be due to development of antibodies against interferon. The resistant cells were unable to bind radio-labelled IFN, and through Southern Blot we could determine that the IFNAR1 gene was not functional. Also the IFNAR2 gene was affected, since Northern blot and sequencing detected an aberrant transcript not present in the wild type cells. Karyotyping showed that the cells had 3-4 copies of chromosome 21, but Southern blot did not detect any cytoplasmic region of IFNAR2. The IFN receptors are close to each other on the genome, and a deletion affecting one receptor gene is likely to affect the other as well. We conclude that the IFN resistance in U266Res cells is due to lack of functional receptor subunits. Molecular biology interferon human B-lymphocyte survival proliferation myeloma Molekylärbiologi Molecular biology Molekylärbiologi
484	Mycobacterial infection: Immune evasion, host susceptibility and immunological markers of diagnostic importance Arko-Mensah, John January 2008 (has links) IIn the first study, we investigated the functional implications of prolonged TLR signalling on IFN-γ mediated killing of mycobacteria by murine macrophages in vitro. TLR2, but not TLR4 ligation interfered with IFN-γ mediated killing of mycobacteria in macrophages. In terms of mechanisms, neither TNF nor nitric oxide (NO) production was significantly affected, and the refractoriness induced could be reversed with increasing amounts of IFN-γ In the second study, we aimed to identify immunological markers of diagnostic importance in both the respiratory tract and serum during pulmonary mycobacterial infection in mice. We found that increased levels of immunological markers in the respiratory tract, but not serum, correlated better with active mycobacterial infection in the lungs, suggesting that the immune response in the respiratory tract is more reflective of the infection status and pathology than the systemic response. Finally, we investigated the level and nature of immune responses to pulmonary mycobacterial infection in BALB/c and C57BL/6 mice, two mouse strains known to exhibit different susceptibilities to infection with several intracellular pathogens, including mycobacteria. We showed that increased susceptibility of BALB/c mice to early mycobacterial infection was associated with reduced Th1 immune responses, and increased sTNFR secretion in the lung. Moreover, BALB/c mice recruited fewer monocytes/macrophages to the lung, and although IFN-γ stimulation of infected bone marrow derived macrophages in both mouse strains resulted in induction of antimycobacterial activity, BALB/c mice had a reduced capacity to kill ingested bacteria. The work presented in this thesis provide further insight into the mechanisms involved in the host-pathogen interaction; from persistence, to the immunological processes induced by the pathogen, to susceptibility of the host to infection. Mycobacteria Mice Toll-like receptors interferon gamma immunological markers lung respiratory tract susceptibility Immunology Immunologi
485	Gene Therapy with Interferon Alpha and the Angiogenic Inhibitor, Vasostatin, in Neuroendocrine Tumors of the Digestive System Liu, Minghui January 2007 (has links) IFN-α has been applied in medical treatment of various neuroendocrine (NE) tumors, either alone or combination with somatostatin analogues. They can improve clinical symptoms in 50-70% of patients but a significant tumor reduction is only observed in 5-15% patients. Vasostatin (vaso) is believed to be an angiogenic inhibitor. The aim of this study is to evaluate the feasibility to use IFN-α and vasostatin gene therapy in NE tumors. We constructed plasmid vectors carrying human IFN-α2 (hIFN-α2) gene and human vasostatin gene, which were transfected into BON I cell to obtain stable gene-expressing cell lines. We found that in animal tumor model and cell experiments gene transfer of vasostatin caused a faster cell growth and tumor development via down-regulation of the tumor suppressor gene and p27. Cell adhesion, spreading, migration and invasion ability were increased in vaso-expressing BON I cells. Transfecting chicken vinculin could reverse the malignant behavior and restored expression of tumor suppressor genes. Moreover, vinculin knockdown could result in a faster cell growth and an increased colony formation. Condition medium taken from hIFN-α2-expressing BON I cells showed significant antiproliferative effects both on the NE tumor cells, BON I and LCC18, and the endothelial cells, PAE. It also suppressed cell adhesion and cell invasion and inhibited angiogenesis on CAM assay. Mice implanted with a mixture of WT BON cells and hIFN-α2-expressing BON cells (1:1) demonstrated significantly lower tumor incidence and longer tumor doubling time. Furthermore, long-acting IFN-α2b (PEGIntron®) demonstrated a better anti-tumor effect in contrast with IFN-α2b (IntronA®). Intratumoral injection of hIFN-α2 plasmids significantly inhibited NE tumor growth and caused tumor regression. We concluded that gene transfer of vasostatin into BON I cells might cause an enhanced malignant tumor behavior. Therefore, vasostatin therapy can not be recommended for patients with NE tumors. Vinculin might play an important role in NE tumor development and growth regulation. Gene therapy by using plasmid DNA carrying hIFN-α2 gene is feasible and promising in NE tumors. Internal medicine neuroendocrine tumor interferon-α vasostatin vinculin tumor suppressor gene nude mice gene therapy Invärtesmedicin
486	Uncovering novel genetic etiologies of childhood herpes simplex encephalitis : hypothesis-based candidate gene approach Herman, Melina 06 December 2012 (has links) (PDF) L'encéphalite herpétique (EH), causée par l'herpès simplex virus-1 (HSV-1), peut résulter de défauts monogéniques de l'immunité médiée par TLR3. L'induction d'interférons (IFNs)-α/β ou -λ via TLR3 est cruciale à la protection après infection primaire avec HSV-1 dans le système nerveux central (SNC). Nous décrivons deux enfants avec l'EH portant différentes mutations hétérozygotes (D50A et G159A) dans TBK1, encodant TANK-Binding Kinase 1, une kinase aux carrefours de multiples voies de signalisation induisant des IFNs. Les deux allèles mutants de TBK1 sont perte-de-fonction par des mécanismes différents: instabilité de la protéine (D50A) ou perte d'activité kinase (G159A). Ces allèles sont associés à un trait autosomal dominant (AD) par des mécanismes différents: haplotype-insuffisance (D50A) ou dominance négative (G159A). Un défaut de réponses à poly(I:C) par TLR3 est observable dans les fibroblastes hétérozygotes pour G159A, et non pour D50A TBK1. Néanmoins, la réplication virale et la mortalité cellulaire après infection par deux virus dépendants de TLR3 (HSV-1 et VSV) étaient élevées dans les fibroblastes des deux patients. Ces phénotypes peuvent être sauvés par IFN-α2b. De plus, la production d'IFNs en réponse à des agonistes et virus indépendants de TLR3 est maintenue dans les PBMCs et fibroblastes des patients. Le phénotype cellulaire restreint, partiel représente ainsi le phénotype clinique de ces patients, limité à l'EH. Ces données identifient la déficience partielle AD de TBK1 comme une nouvelle étiologie génétique de l'EH de l'enfance, et indiquent que TBK1 est essentiel pour le contrôle de HSV-1 dans le SNC, médié par TLR3 et dépendant des IFNs [SDV:GEN] Life Sciences/Genetics Immunity TLR3 TBK1 Herpes Simplex Encephalitis Interferon HSV-1
487	Potentiating the Oncolytic Efficacy of Poxviruses Komar, Monica 26 July 2012 (has links) Several wild-type poxviruses have emerged as potential oncolytic viruses (OVs), including orf virus (OrfV), and vaccinia virus (VV). Oncolytic VVs have been modified to include attenuating mutations that enhance their tumour selective nature, but these mutations also reduce overall viral fitness in cancer cells. Previous studies have shown that a VV (Western Reserve) with its E3L gene replaced with the E3L homologue from, OrfV (designated VV-E3LOrfV), maintained its ability to infect cells in vitro, but was attenuated compared to its parental VV in vivo. Our goal was to determine the safety and oncolytic potential VV-E3LOrfV, compared to wild type VV and other attenuated recombinants. VV-E3LOrfV, was unable to replicate to the same titers and was sensitive to IFN compared to its parental virus and other attenuated VVs in normal human fibroblast cells. The virus was also less pathogenic when administered in vivo. Viral replication, spread and cell killing, as measures of oncolytic potential in vitro, along with in vivo efficacy, were also observed.. The Parapoxvirus, OrfV has been shown to have a unique immune-stimulation profile, inducing a number of pro-inflammatory cytokines, as well as potently recruiting and activating a number of immune cells. Despite this unique profile, OrfV is limited in its ability to replicate and spread in human cancer cells. Various strategies were employed to enhance the oncolytic efficacy of wild-type OrfV. A transient transfection/infection screen was created to determine if any of the VV host-range genes (C7L, K1L, E3L or K3L) would augment OrfV oncolysis. Combination therapy, including the use of microtubule targeting agents, Viral Sensitizer (VSe) compounds and the addition of soluble VV B18R gene product were employed to see if they also enhance OrfV efficacy. Unfortunately, none of the strategies mentioned were able to enhance OrfV. Poxvirus Vaccinia virus Orf Virus Interferon Host-range genes Cancer Oncolytic virus Combination therapy E3L
488	PARTICULARITES DE L'INFECTION VHC ET DE LA THERAPEUTIQUE ANTI-VHC CHEZ LES PATIENTS CO-INFECTES VIH/VHC Bani Sadr, Firouzé 03 September 2007 (has links) (PDF) En 1998, le traitement de la co-infection VHC rarement discuté avant l'ère des HAART, compte tenu d'une réponse médiocre à la monothérapie par IFNα et d'un pronostic de vie lié au VIH estimé en moyenne à 10 ans, fût reconsidéré. C'est ainsi que débuta en 2000, l'essai RIBAVIC HC02, essai randomisé et multicentrique comparant l'association de la ribavirine 800 mg/j à l'Interféron 3 MUI x3/semaine ou au PEG-α-2b Interféron 1,5 μg/kg/semaine pendant 48 semaines. Une cohorte des patients inclus dans l'essai RIBAVIC (cohorte RIBAVIC EP10) débuta en 2001 pour évaluer le devenir à long terme de ces patients. L'essai RIBAVIC et la cohorte RIBAVIC ont apporté les enseignements suivants : - la cinétique de la charge virale VHC peut différer selon la nature du traitement antirétroviral. - la prévalence et les facteurs de risque de la stéatose sont similaires à ceux observés dans la population mono-infectée VHC - le taux de réponse virologique soutenue est inférieur chez les patients co-infectés (27%) comparé aux patients mono-infectés VHC (50%) - le taux de non réponse virologique (diminution de la charge virale VHC inférieure à 2 log à S12) sous traitement par pegIFN plus ribavirine est plus élevé (33%) comparé aux patients monoinfectés VHC (14%). L'interaction entre la ribavirine et l'abacavir pourrait être un facteur de risque. - l'indétectabilité de l'ARN VHC dès S4 est prédictive de la réponse à long terme (valeur prédictive positive 97%) et la décroissance de la charge virale VHC est significativement plus lente chez les patients rechuteurs comparée aux patients répondeurs long terme à S2 et à S4 - Au cours du traitement anti-VHC :1- le risque d'anémie est élevé et majoré par la coprescription de zidovudine et de ribavirine ; 2- l'amaigrissement est fréquent et sévère et peut être révélateur d'une toxicité mitochondriale ; 3- le risque bactérien n'est pas lié au taux des polynucléaires neutrophiles mais à la fibrose hépatique ; 4- le risque de toxicité mitochondriale, d'aggravation de la fibrose et de décompensation hépatique est majoré par l'interaction entre la didanosine et la ribavirine - une réponse virologique soutenue est associée à un bénéfice histologique et clinique. Co-infection VIH/VHC Peg-interferon ribavirine
489	Innate Immune Transcription Activator Interferon Regulatory Factor-3 (IRF3) Contributes to Maladaptive Remodeling Post-myocardial Infarction de Couto, Geoffrey 19 March 2013 (has links) Cardiovascular disease, and myocardial infarction (MI) in particular, remains a major burden in the developed world today. In fact, the remodeling process, which follows the initial ischemic episode of MI, is a major determinant of heart failure. Although several key mechanistic pathways involving cell growth and death have been identified, there is limited knowledge surrounding the role of the innate immune response as a positive or negative regulator of cardiac remodeling. Recent data strongly support a role for key regulatory components within the toll-like receptor (TLR) family as potent modulators of cardiac remodeling post-MI. It has been demonstrated that targeted gene knockdown of TLR4, as well as downstream adaptor proteins and kinases, significantly improve cardiac function and overall survival. While the well-known NF-κB transcriptional factor that is downstream to TLR4 signaling has been linked to remodeling, there has been no evidence thus far describing a role of the parallel interferon regulatory factor-3 (IRF3) signaling cascade in any facet of this process. Several key findings suggest that IRFs contribute to both cell growth and apoptosis, thus providing an appealing, and novel target for interrogation. In this thesis I describe how IRF3 contributes to maladaptive remodeling post-MI. In my first set of experiments, I demonstrate that IRF3 is acutely upregulated within the cardiomyocyte following MI and that this response contributes to excessive apoptosis post-MI. A targeted deletion of the IRF3 gene enhances cardiac function, decreases infarct size, and improves survival following MI. In the second set of experiments I demonstrate that IRF3 attenuates angiogenesis at the ischemic border zone by upregulating the expression of thrombospondins. I have shown that IRF3 deficiency, which liberates endogenous anti-angiogenic signals, promotes angiogenesis following ischemic injury. These data suggest that IRF3 is a potent regulator of cardiac remodeling and may be an effective therapeutic target to ameliorate maladaptive cardiac repair post-MI. Myocardial Infarction Cardiac Remodeling Interferon Regulatory Factor-3 Innate Immunity 0719
490	A Novel Approach for Detection of Several Tuberculosis Markers Using Diffractive Optics Kim, Nari 30 May 2011 (has links) Tuberculosis (TB) is an important disease worldwide. Currently, one-third of the world’s population is infected with TB, and it is a leading cause of death among people living with HIV. Immediate but also accurate diagnosis is required for disease control, yet available diagnostics cannot do both simultaneously. Therefore, designing a technique that can diagnose the disease correctly in the shortest possible time is in great demand in order to stop its spread. Diffraction-based sensing is a novel technique for measuring of biomolecular interaction that has potential for disease diagnosis. In this study, diffraction-based sensing successfully demonstrated its usefulness for diagnostics of TB using recombinant TB antigen, or by detection of interferon-γ that is produced from white blood cells when the immune system activates. The feasibility of the technology was also evaluated in terms of providing real time observation, reducing diagnostic duration, and increasing sensitivity of detection. tuberculosis diffraction-based sensing interferon-γ ELISA dotLab biotin conjugation TB diagnostics HRP conjugation 0486

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