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Poly (I: C) Therapy Decreases Cerebral Ischaemia/Reperfusion Injury via TLR3-Mediated Prevention of Fas/FADD InteractionZhang, Xia, Ha, Tuanzhu, Lu, Chen, Lam, Fred, Liu, Li, Schweitzer, John, Kalbfleisch, John, Kao, Race L., Williams, David L., Li, Chuanfu 01 January 2015 (has links)
Journal of Cellular and Molecular Medicine published by John Wiley & Sons Ltd and Foundation for Cellular and Molecular Medicine. Toll-like receptor (TLR)-mediated signalling plays a role in cerebral ischaemia/reperfusion (I/R) injury. Modulation of TLRs has been reported to protect against cerebral I/R injury. This study examined whether modulation of TLR3 with poly (I:C) will induce protection against cerebral I/R injury. Mice were treated with or without Poly (I:C) (n = 8/group) 1 hr prior to cerebral ischaemia (60 min.) followed by reperfusion (24 hrs). Poly (I:C) pre-treatment significantly reduced the infarct volume by 57.2% compared with untreated I/R mice. Therapeutic administration of Poly (I:C), administered 30 min. after cerebral ischaemia, markedly decreased infarct volume by 34.9%. However, Poly (I:C)-induced protection was lost in TLR3 knockout mice. In poly (I:C)-treated mice, there was less neuronal damage in the hippocampus compared with untreated I/R mice. Poly (I:C) treatment induced IRF3 phosphorylation, but it inhibited NF-κB activation in the brain. Poly (I:C) also decreased I/R-induced apoptosis by attenuation of Fas/FasL-mediated apoptotic signalling. In addition, Poly (I:C) treatment decreased microglial cell caspase-3 activity. In vitro data showed that Poly (I:C) prevented hypoxia/reoxygenation (H/R)-induced interaction between Fas and FADD as well as caspase-3 and -8 activation in microglial cells. Importantly, Poly (I:C) treatment induced co-association between TLR3 and Fas. Our data suggest that Poly (I:C) decreases in cerebral I/R injury via TLR3 which associates with Fas, thereby preventing the interaction of Fas and FADD, as well as microglial cell caspase-3 and -8 activities. We conclude that TLR3 modulation by Poly (I:C) could be a potential approach for protection against ischaemic stroke.
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Étude de la fonction anti-apoptotique de la sous-unité R1 de la ribonucléotide réductase des virus de l’herpès simplexDufour, Florent 08 1900 (has links)
L’élimination des cellules infectées par apoptose constitue un mécanisme de défense antivirale. Les virus de l’herpès simplex (HSV) de type 1 et 2 encodent des facteurs qui inhibent l’apoptose induite par la réponse antivirale. La sous-unité R1 de la ribonucléotide réductase d’HSV-2 (ICP10) possède une fonction anti-apoptotique qui protège les cellules épithéliales de l’apoptose induite par les récepteurs de mort en agissant en amont ou au niveau de l’activation de la procaspase-8. Puisqu’une infection avec un mutant HSV-1 déficient pour la R1 diminue la résistance des cellules infectées vis à vis du TNFα, il a été suggéré que la R1 d’HSV-1 (ICP6) pourrait posséder une fonction anti-apoptotique. Le but principal de cette thèse est d’étudier le mécanisme et le potentiel de la fonction anti-apoptotique de la R1 d’HSV-1 et de la R1 d'HSV-2.
Dans une première étude, nous avons investigué le mécanisme de la fonction anti-apoptotique de la R1 d’HSV en utilisant le TNFα et le FasL, deux inducteurs des récepteurs de mort impliqués dans la réponse immune anti-HSV. Cette étude a permis d’obtenir trois principaux résultats concernant la fonction anti-apoptotique de la R1 d’HSV. Premièrement, la R1 d’HSV-1 inhibe l’apoptose induite par le TNFα et par le FasL aussi efficacement que la R1 d’HSV-2. Deuxièmement, la R1 d’HSV-1 est essentielle à l’inhibition de l’apoptose induite par le FasL. Troisièmement, la R1 d’HSV interagit constitutivement avec la procaspase-8 d’une manière qui inhibe la dimérisation et donc l’activation de la caspase-8. Ces résultats suggèrent qu’en plus d’inhiber l’apoptose induite par les récepteurs de mort la R1 d’HSV peut prévenir l’activation de la caspase-8 induite par d’autres stimuli pro-apoptotiques. Les ARN double-brins (ARNdb) constituant un intermédiaire de la transcription du génome des HSV et activant l’apoptose par une voie dépendante de la caspase-8, nous avons testé dans une seconde étude l’impact de la R1 d’HSV sur l’apoptose induite par l’acide polyriboinosinique : polyribocytidylique (poly(I:C)), un analogue synthétique des ARNdb. Ces travaux ont montré qu’une infection avec les HSV protège les cellules épithéliales de l’apoptose induite par le poly(I:C). La R1 d’HSV-1 joue un rôle majeur dans l’inhibition de l’activation de la caspase-8 induite par le poly(I:C). La R1 d’HSV interagit non seulement avec la procaspase-8 mais aussi avec RIP1 (receptor interacting protein 1). En interagissant avec RIP1, la R1 d’HSV-2 inhibe l’interaction entre RIP1 et TRIF (Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β), l’adaptateur du Toll-like receptor 3 qui est un détecteur d’ARNdb , laquelle est essentielle pour signaler l’apoptose induite par le poly(I:C) extracellulaire et la surexpression de TRIF.
Ces travaux démontrent la capacité de la R1 d’HSV à inhiber l’apoptose induite par divers stimuli et ils ont permis de déterminer le mécanisme de l’activité anti-apoptotique de la R1 d’HSV. Très tôt durant l’infection, cFLIP, un inhibiteur cellulaire de la caspase-8, est dégradé alors que la R1 d’HSV s’accumule de manière concomitante. En interagissant avec la procapsase-8 et RIP1, la R1 d’HSV se comporte comme un inhibiteur viral de l’activation de la procaspase-8 inhibant l’apoptose induite par les récepteurs de mort et les détecteurs aux ARNdb. / Elimination of infected cells by apoptosis constitutes an ancestral mechanism of host defense against viral infection. Herpes simplex viruses (HSVs) encode several viral factors to counteract the apoptotic antiviral response. Among them, the R1 subunit of HSV type-2 ribonucleotide reductase (HSV-2 R1, also named ICP10), protects cells by interrupting death receptor-mediated signaling at, or upstream of, caspase-8 activation. Since protection against tumor necrosis factor alpha (TNFα)-induced apoptosis is decreased un cells infected with an HSV type-1 R1 null mutant, it has been proposed that HSV-1 R1 (ICP6) could also possess an antiapoptotic activity. The fundamental goal of this thesis is to better understand the mechanism and the potential of the HSV R1s antiapoptotic activity.
In a first study, we investigated the mechanism of the antiapoptotic activity of HSV R1s by using TNFα and Fas ligand (FasL), two death-receptor inducers involved in anti-HSVs immune response. From this work, we report three main findings on the antiapoptotic activity of HSV R1s. First, HSV-1 R1 like HSV-2 R1 has the ability to protect cells against TNFα- and FasL-induced apoptosis. Second, HSV-1 R1 contributes in protecting infected cells against FasL. Third, HSV R1s and procaspase-8 interact in a way that inhibits the dimerization/activation of caspase-8. These results suggest that in addition to counteracting death receptor-induced apoptosis, HSV R1s could inhibit apoptosis induced by other signals that trigger caspase-8 activation during HSV infection. Double-stranded RNA (dsRNA) are viral intermediates notably produced by HSVs and have been shown to induce apoptosis via caspase-8 activation. We tested in a second study whether HSV R1s have the ability to counteract apoptosis triggered by polyriboinosinic : polyribocytidylic acid (poly(I:C)), a synthetic analog of dsRNA that triggers caspase-8 activation. We showed that HSVs infection protect epithelial cells from apoptosis induced by poly(I:C). We established that HSV-1 R1 is essential for the protection of HSV-1-infected cells against poly(I:C)-induced caspase-8 activation. HSV R1s interact not only with procaspase-8 but also with the receptor interacting protein 1 (RIP1). The interaction between RIP1 and HSV-2 R1 inhibits the binding of RIP1 to the Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β (TRIF), the adaptor of Toll-like receptor 3 that is an extracellular dsRNA sensor, which is required to activate caspase-8 following extracellular poly(I:C) stimulation and TRIF overexpression. Thus, HSV R1s have the ability to inhibit poly(I:C)-induced apoptosis at several levels by preventing caspase-8 dimerization/activation and TRIF RIP1 interaction.
This work sheds light on the ability of HSV R1s to manipulate apoptosis. Early during the lytic cycle, protein levels of the cellular inhibitors of caspase-8 as cFLIP drop but HSV R1s accumulate concomitantly and act as a viral inhibitor of apoptosis by binding to procaspase-8 and RIP1 in a way that impairs caspase-8 activation by death-receptors and dsRNA detectors stimulation.
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Étude de la fonction anti-apoptotique de la sous-unité R1 de la ribonucléotide réductase des virus de l’herpès simplexDufour, Florent 08 1900 (has links)
L’élimination des cellules infectées par apoptose constitue un mécanisme de défense antivirale. Les virus de l’herpès simplex (HSV) de type 1 et 2 encodent des facteurs qui inhibent l’apoptose induite par la réponse antivirale. La sous-unité R1 de la ribonucléotide réductase d’HSV-2 (ICP10) possède une fonction anti-apoptotique qui protège les cellules épithéliales de l’apoptose induite par les récepteurs de mort en agissant en amont ou au niveau de l’activation de la procaspase-8. Puisqu’une infection avec un mutant HSV-1 déficient pour la R1 diminue la résistance des cellules infectées vis à vis du TNFα, il a été suggéré que la R1 d’HSV-1 (ICP6) pourrait posséder une fonction anti-apoptotique. Le but principal de cette thèse est d’étudier le mécanisme et le potentiel de la fonction anti-apoptotique de la R1 d’HSV-1 et de la R1 d'HSV-2.
Dans une première étude, nous avons investigué le mécanisme de la fonction anti-apoptotique de la R1 d’HSV en utilisant le TNFα et le FasL, deux inducteurs des récepteurs de mort impliqués dans la réponse immune anti-HSV. Cette étude a permis d’obtenir trois principaux résultats concernant la fonction anti-apoptotique de la R1 d’HSV. Premièrement, la R1 d’HSV-1 inhibe l’apoptose induite par le TNFα et par le FasL aussi efficacement que la R1 d’HSV-2. Deuxièmement, la R1 d’HSV-1 est essentielle à l’inhibition de l’apoptose induite par le FasL. Troisièmement, la R1 d’HSV interagit constitutivement avec la procaspase-8 d’une manière qui inhibe la dimérisation et donc l’activation de la caspase-8. Ces résultats suggèrent qu’en plus d’inhiber l’apoptose induite par les récepteurs de mort la R1 d’HSV peut prévenir l’activation de la caspase-8 induite par d’autres stimuli pro-apoptotiques. Les ARN double-brins (ARNdb) constituant un intermédiaire de la transcription du génome des HSV et activant l’apoptose par une voie dépendante de la caspase-8, nous avons testé dans une seconde étude l’impact de la R1 d’HSV sur l’apoptose induite par l’acide polyriboinosinique : polyribocytidylique (poly(I:C)), un analogue synthétique des ARNdb. Ces travaux ont montré qu’une infection avec les HSV protège les cellules épithéliales de l’apoptose induite par le poly(I:C). La R1 d’HSV-1 joue un rôle majeur dans l’inhibition de l’activation de la caspase-8 induite par le poly(I:C). La R1 d’HSV interagit non seulement avec la procaspase-8 mais aussi avec RIP1 (receptor interacting protein 1). En interagissant avec RIP1, la R1 d’HSV-2 inhibe l’interaction entre RIP1 et TRIF (Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β), l’adaptateur du Toll-like receptor 3 qui est un détecteur d’ARNdb , laquelle est essentielle pour signaler l’apoptose induite par le poly(I:C) extracellulaire et la surexpression de TRIF.
Ces travaux démontrent la capacité de la R1 d’HSV à inhiber l’apoptose induite par divers stimuli et ils ont permis de déterminer le mécanisme de l’activité anti-apoptotique de la R1 d’HSV. Très tôt durant l’infection, cFLIP, un inhibiteur cellulaire de la caspase-8, est dégradé alors que la R1 d’HSV s’accumule de manière concomitante. En interagissant avec la procapsase-8 et RIP1, la R1 d’HSV se comporte comme un inhibiteur viral de l’activation de la procaspase-8 inhibant l’apoptose induite par les récepteurs de mort et les détecteurs aux ARNdb. / Elimination of infected cells by apoptosis constitutes an ancestral mechanism of host defense against viral infection. Herpes simplex viruses (HSVs) encode several viral factors to counteract the apoptotic antiviral response. Among them, the R1 subunit of HSV type-2 ribonucleotide reductase (HSV-2 R1, also named ICP10), protects cells by interrupting death receptor-mediated signaling at, or upstream of, caspase-8 activation. Since protection against tumor necrosis factor alpha (TNFα)-induced apoptosis is decreased un cells infected with an HSV type-1 R1 null mutant, it has been proposed that HSV-1 R1 (ICP6) could also possess an antiapoptotic activity. The fundamental goal of this thesis is to better understand the mechanism and the potential of the HSV R1s antiapoptotic activity.
In a first study, we investigated the mechanism of the antiapoptotic activity of HSV R1s by using TNFα and Fas ligand (FasL), two death-receptor inducers involved in anti-HSVs immune response. From this work, we report three main findings on the antiapoptotic activity of HSV R1s. First, HSV-1 R1 like HSV-2 R1 has the ability to protect cells against TNFα- and FasL-induced apoptosis. Second, HSV-1 R1 contributes in protecting infected cells against FasL. Third, HSV R1s and procaspase-8 interact in a way that inhibits the dimerization/activation of caspase-8. These results suggest that in addition to counteracting death receptor-induced apoptosis, HSV R1s could inhibit apoptosis induced by other signals that trigger caspase-8 activation during HSV infection. Double-stranded RNA (dsRNA) are viral intermediates notably produced by HSVs and have been shown to induce apoptosis via caspase-8 activation. We tested in a second study whether HSV R1s have the ability to counteract apoptosis triggered by polyriboinosinic : polyribocytidylic acid (poly(I:C)), a synthetic analog of dsRNA that triggers caspase-8 activation. We showed that HSVs infection protect epithelial cells from apoptosis induced by poly(I:C). We established that HSV-1 R1 is essential for the protection of HSV-1-infected cells against poly(I:C)-induced caspase-8 activation. HSV R1s interact not only with procaspase-8 but also with the receptor interacting protein 1 (RIP1). The interaction between RIP1 and HSV-2 R1 inhibits the binding of RIP1 to the Toll/interleukine-1 receptor-domain-containing adapter-inducing interferon β (TRIF), the adaptor of Toll-like receptor 3 that is an extracellular dsRNA sensor, which is required to activate caspase-8 following extracellular poly(I:C) stimulation and TRIF overexpression. Thus, HSV R1s have the ability to inhibit poly(I:C)-induced apoptosis at several levels by preventing caspase-8 dimerization/activation and TRIF RIP1 interaction.
This work sheds light on the ability of HSV R1s to manipulate apoptosis. Early during the lytic cycle, protein levels of the cellular inhibitors of caspase-8 as cFLIP drop but HSV R1s accumulate concomitantly and act as a viral inhibitor of apoptosis by binding to procaspase-8 and RIP1 in a way that impairs caspase-8 activation by death-receptors and dsRNA detectors stimulation.
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Mechanisms triggering the recruitment of mast cell progenitors to the lung and regulation of mast cell degranulationZarnegar, Behdad January 2016 (has links)
Mast cells stem from the bone marrow and migrate via the blood as mast cell progenitors. Upon arrival in peripheral tissues, they develop into mast cells. These rare immune cells have numerous granules that contain large amounts of pro-inflammatory mediators. Mast cells accumulate at certain sites in the asthmatic lung, and once activated they release mediators that are thought to induce symptoms. In mouse models of allergic airway inflammation, the increase in lung mast cells in asthma can be mimicked and is mainly caused by the recruitment of mast cell progenitors to the lung. However, whether other types of lung inflammation stimulate the recruitment of mast cell progenitors to the lung was unknown until now. Here, using a murine model of influenza A virus infection, this type of virus was demonstrated to trigger an extensive recruitment of mast cell progenitors to the lung, most likely through the induction of VCAM-1 expression in the lung endothelium. Thereafter, some influenza-induced mast cell progenitors developed into an intermediate mast cell stage before they matured into mast cells. However, upon the resolution of inflammation, the mast cells that accumulated in the lung upon influenza infection were gradually lost. Because the recruitment of mast cell progenitors started early after influenza infection, the role of innate immune signals in inducing the recruitment of mast cell progenitors was addressed. The intranasal administration of either Poly I:C or IL-33 was sufficient to induce an increase in lung mast cell progenitors in a TLR3- or ST2-dependent fashion. However, the influenza-induced recruitment of mast cell progenitors to the lung occurred independently of TLR3 and ST2. VAAT/SLC10A4 is a member of the solute carrier family of proteins that is expressed in nerve cells and mast cells. In this study, murine VAAT was localized to mast cell granules and regulated the IgE/antigen-mediated release of granule-associated mediators and ATP. However, the absence of VAAT did not affect IgE/antigen-mediated de novo synthesis of cytokines and lipid mediators. Additionally, mice lacking VAAT had attenuated passive cutaneous anaphylaxis reactions and scratched less frequently in response to compound 48/80 injections, suggesting that VAAT regulates reactions for which mast cells are implicated in vivo.
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GADD34 : Lien moléculaire entre la détection des pathogènes et les voies intégrées de réponses au stress / GADD34 : Linking pathogen detection with the integrated stress response pathwaysLadeira costa claudio, Nuno filipe 05 June 2012 (has links)
Les cellules dendritiques (DCs) sont les plus efficaces cellules présentatrices d'antigène. La détection de motifs pathogènes, tel que lipopolysaccharides bactériens et ARNs double-brins (ARNdb) viraux, par les DCs provoque leur maturation et induit de nombreux changements morphologiques et biochimiques permettant aux DCs d'acquérir leurs puissants fonctions activatrices des cellules T. Dans ce travail, les réponses des DCs à l'ARNdb ont été analysées. Nous avons montré que, en réponse à au poly I:C, un analogue synthétique des ARNdb, les DCs montent une réponse de stress intégré spécifique au cours de laquelle le facteur de transcription ATF4 et le cofacteur de la phosphatase 1, GADD34, sont exprimés. Les DCs activées par le poly I:C présentent un profil de transcrits similaire à ce qui est produit au cours d'une ‘unfolded protein response'. GADD34 est important pour contrebalancer la phosphorylation du facteur d'initiation de la synthèse protéique eIF2α par la kinase PKR au cours de l'activation des DCs. Contrairement aux fibroblastes embryonnaires murins, les DCs résistent à l'inhibition de la synthèse des protéines induite en réponse à la stimulation avec poly I:C. Néanmoins, l'expression de GADD34 n'a pas un impact majeur sur la synthèse protéique globale. Par contre, GADD34 a été démontré être absolument nécessaire à la production d'interféron du type I et d'IL-6 par les fibroblastes et les DCs en réponse à l'ARNdb. Cette observation a des implications importantes en liant la détection des pathogènes avec les voies intégrés de réponse au stress. / Dendritic cells (DCs) are the most important antigen presenting cells. In response to inflammatory stimulation, DCs display a distinct pattern of differentiation that exhibits specific mechanisms to control the immune response. In this work the responses to dsRNA were analyzed. We have shown that in response to a mimic of dsRNA, polyriboinosinic:polyribocytidylic acid (poly I:C), DCs mount a specific integrated stress response during which the transcription factor ATF4 and the growth arrest and DNA damage-inducible protein 34 (GADD34), a phosphatase 1 (PP1) cofactor, are expressed. GADD34 is important to counteract phosphorylation of eIF2α by PKR. In contrast to murine embryonic fibroblasts (MEFs), DCs resist to protein synthesis inhibition induced in response to cytosolic dsRNA. Nevertheless, GADD34 expression does not have a major impact on global protein synthesis. Importantly, GADD34 was shown to be absolutely required for type I-IFN and IL-6 production by MEFs and DCs in response to dsRNA. This observation has important implications in linking pathogen detection with the integrated stress response pathways. The importance of this link is further underlined by the extreme susceptibility of GADD34-deficient fibroblasts and neonate mice to Chikungunya virus infection.
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Epithélium bronchique de l'enfant asthmatique sévère / Bronchial epithelium in severe asthmatic childrenBourée, Ania 07 November 2016 (has links)
L’asthme sévère de l’enfant est une pathologie respiratoire chronique dont le traitement est difficile. L’épithélium bronchique à l’interface de l’organisme et de l’environnement, est un pivot central dans la maladie asthmatique. Le but de ce travail a donc été d’étudier l’épithélium bronchique de l’enfant asthmatique sévère.Dans un premier temps, j’ai développé un modèle de reproduction d’épithélium bronchique in vitro obtenu à partir de cellules épithéliales bronchiques issues de biopsies bronchiques d’enfants asthmatiques sévères. J’ai comparé ces épithélia obtenus chez l’enfant à ceux obtenus chez l’adulte. Nous avons spécifiquement étudié un marqueur inflammatoire important dans l’asthme sévère, le TSLP. J'ai montré 2 isoformes de TSLP ayant un rôle contraire, anti inflammatoire et proinflammatoire. Dans un deuxième temps, j’ai mis au point un modèle d’exacerbation d’asthme viro-induite. J’ai utilisé le modèle de culture et soumis les cellules à une stimulation Poly I:C. Les différentes cytokines sécrétées lors d’une exacerbation asthmatique virale ont été retrouvées augmentées dans notre modèle : CXCL8, CXCL10, CCL2, CXCL9 et RANTES. Enfin, j’ai étudié le propionate de fluticasone dans le modèle d’exacerbation asthmatique. Nous avons montré que l’effet de la fluticasone est différent entre les cellules épithéliales bronchiques issues de témoins et celles issues d’asthme sévère. Le modèle de stimulation viro-induite a permis d’étudier l’effet des corticoïdes inhalés sur l’épithélium bronchique et va permettre d’étudier les voies mécanistiques en jeu dans les exacerbations viro-induites, de tester d’autres molécules et proposer d’autres pistes thérapeutiques. / Severe childhood asthma is a chronic respiratory disease difficult to control despite treatment. Bronchial epithelium, at the interface between the body and the environment, is a central pivot in the asthmatic disease. The aim of this study was to examine the bronchial epithelium of severe asthmatic children. Initially, I developed a bronchial epithelium in vitro reproduction model obtained from bronchial epithelial cells from bronchial biopsies of severe asthmatic children. I compared these epithelia obtained in children with those obtained in adults. We specifically studied an important inflammatory marker in severe asthma,TSLP. I have highlighted the presence of two isoforms of TSLP which have an opposite role, anti-inflammatory for the short form and the long form for proinflammatory.Secondly, I developed an asthma exacerbation model of virus-induced. I used the culture model and challenged bronchial cells with poly I:C to. Different cytokines secreted upon viral asthma exacerbation were found increased in our model: CXCL8, CXCL 10, CCL2, RANTES and CXCL9.Finally, I have studied fluticasone propionate in the exacerbation asthmatic model. I studied cells from asthmatic and from non asthmatic children. Interestingly, we have shown that the effect of fluticasone is different between bronchial epithelial cells from non asthmatic children and those from severe asthma.The model of virus-induced stimulation was used to study the effect of inhaled corticosteroids on bronchial epithelium and will allow studying the mechanistic pathways involved in virus-induced exacerbations, testing other molecules and propose other therapeutic approaches.
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The Effects of a Novel Inhibitor of Tumor Necrosis Factor (TNF) Alpha on Prepulse Inhibition and Microglial Activation in Two Distinct Rodent Models of SchizophreniaShelton, Heath W., Gabbita, S. P., Gill, W. D., Burgess, Katherine C., Whicker, Wyatt S., Brown, Russell W. 21 May 2021 (has links)
Increased neuroinflammation has been shown in individuals diagnosed with schizophrenia (SCHZ). This study evaluated a novel immune modulator (PD2024) that targets the pro-inflammatory cytokine tumor necrosis factor-alpha (TNFα) to alleviate sensorimotor gating deficits and microglial activation employing two different rodent models of SCHZ. In Experiment 1, rats were neonatally treated with saline or the dopamine D2-like agonist quinpirole (NQ; 1 mg/kg) from postnatal day (P) 1-21 which produces increases of dopamine D2 receptor sensitivity throughout the animal's lifetime. In Experiment 2, rats were neonatally treated with saline or the immune system stimulant polyinosinic:polycytidylic acid (Poly I:C) from P5-7. Neonatal Poly I:C treatment mimics immune system activation associated with SCHZ. In both experiments, rats were raised to P30 and administered a control diet or a novel TNFα inhibitor PD2024 (10 mg/kg) in the diet from P30 until P67. At P45-46 and from P60-67, animals were behaviorally tested on auditory sensorimotor gating as measured through prepulse inhibition (PPI). NQ or Poly I:C treatment resulted in PPI deficits, and PD2024 treatment alleviated PPI deficits in both models. Results also revealed that increased hippocampal and prefrontal cortex microglial activation produced by neonatal Poly I:C was significantly reduced to control levels by PD2024. In addition, a separate group of animals neonatally treated with saline or Poly I:C from P5-7 demonstrated increased TNFα protein levels in the hippocampus but not prefrontal cortex, verifying increased TNFα in the brain produced by Poly I:C. Results from this study suggests that that brain TNFα is a viable pharmacological target to treat the neuroinflammation known to be associated with SCHZ.
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Synthetic Viral Pyrogen Induces Behavioral Fever in Plethodon Glutinosus SalamandersBritt, Nicholas 01 May 2021 (has links) (PDF)
Behavioral fever is an essential coping mechanism across ectothermic phyla to aid in combating pathogenic threats. Ectotherms lack internal temperature regulation associated with fever in endotherms; thus, ectotherms can exhibit a behavioral fever response when immunocompromised to thermoregulate by moving to warmer locations. The salamander order Caudata, tend to be keystone species in their resident ecosystems through their role as secondary consumers of invertebrates to maintain the food chain. With growing interest about ecology and conservation of salamanders as species diversity declines, this study was designed to determine if salamanders use their environment to take advantage of behavioral fever. The lungless salamander, Plethodon glutinosus, was used to investigate behavioral fever through exposure to the synthetic viral pyrogen polyinosinic:polycytidylic acid (Poly (I:C)) at doses of 15 µg/g by live wet weight. After 24 hours, the induced fever specimens were placed in a linear temperature gradient with a controlled humidity of 95% throughout. Average temperature preferences were then monitored over a 12-hour period and resulted in control animals preferring cold and moderate temperatures between 15-19 °C while all poly (I:C) injected animals preferred higher temperatures from 19-21°C (p<<0.0001). This result supports that P. glutinous responds to immunocompromising threats such as presented by synthetic viral pyrogen Poly (I:C) through use of behavioral fever.
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Le CpG et le poly(I:C) agissent en synergie avec le trastuzumab contre le cancer du sein HER2+Charlebois, Roxanne 12 1900 (has links)
Chez la souris, la thérapie anti-HER2 est dépendante de la présence de cellules T CD8+IFN-γ+ et des réponses IFN de type I. Ces IFN sont induits par les TLRs suite à la reconnaissance de signaux de danger, appelés PAMPs et DAMPs. Les TLR-3 et TLR-9 sont tous deux de bons inducteurs d’IFN de type I et sont également capable d’agir en synergie afin d’augmenter les niveaux d’IFN-γ, de TNF-α et d’IL-12. Notre hypothèse fut que la stimulation de ces deux TLRs mènerait à l’amélioration de l’activité anti-tumorale du trastuzumab via le recrutement et l’activation des cellules immunitaires. Nos buts furent de confirmer le potentiel thérapeutique de la combinaison de l’anticorps anti-HER2, de l’agoniste de TLR-3, le poly(I:C), et de l’agoniste de TLR-9, le CpG ODN. Des études in vivo et in vitro nous ont permis de découvrir une synergie entre ces agents qui résulte en une cytotoxicité ciblée plus efficace. De plus, cette thérapie s’avéra efficace chez des modèles CD8-dépendants et CD8-indépendents. Les souris purent rejeter leur tumeur et demeurer sains plusieurs semaines après l’arrêt des injections. Ces souris étaient également protégées lors d’un challenge, soulignant ainsi la présence d’une immunité mémoire. Nous avons aussi découvert que l’administration combine de trastuzumab des deux agonistes de TLRs mène à des réponses systémiques. Des études de déplétion confirmèrent que les cellules T CD8+ sont cruciales pour la protection à long terme des animaux, mais que les pDC sont moins impliquées que ce que l’on pourrait croire. Leur absence n’a que modestement affecté les effets de notre thérapie. À l’opposé, les cellules NK sont d’importants médiateurs des effets thérapeutiques. Des expériences d’ADCC ont révélé que le CpG ODN et poly(I:C) ont tous deux la capacité d’améliorer les fonctions des cellules NK, mais que la stimulation simultanée des TLR-3 et TLR-9 permet de maximiser les effets bénéfiques du trastuzumab. De la même manière, l’addition de CpG ODN et de poly(I:C) aux anticorps anti-HER2 a permis d’augmenter les réponses pro-inflammatoires, plus spécifiquement l’IFN-γ, le TNF-α, l’IP-10 et l’IL-12. / In murine models, anti-HER2 therapy has been shown to be dependent on IFN-γ-producing CD8+ T cells and type I IFN responses. These IFN are induced by TLRs following the recognition of danger signals, called PAMPs or DAMPs. Both TLR-3 and TLR-9 are well known inducers of type I IFN and were also shown to act synergistically to enhance the levels of IFN-γ, TNF-α, and IL-12. Our hypothesis thus was that the stimulation of those two TLRs would lead to an enhancement of the activity of trastuzumab against tumor cells by the recruitment and activation of immune cells. Our goals were to assess the potential therapeutic effects of a combination of anti-HER2 mAbs, TLR-3 agonist poly(I:C) and TLR-9 agonist CpG ODN. In vivo and in vitro studies enabled us to discover a synergy between all agents resulting in a more efficient targeted cytotoxicity. Moreover, this therapy was fully effective in a CD8-dependant cell line as well as a CD8-independent one. Mice were able to completely reject their tumor and remain tumor-free weeks after the injections. Those mice were also protected against a rechallenge, thus underlining the presence of an immune memory. We also discovered that the combined administration of trastuzumab and the TLR agonists leads to systemic responses. Depleting studies confirmed that T CD8+ cells are crucial for the animal to remain tumor-free on the long term, but that pDC are far less involved than what we could have thought. Their absence only modestly affected the outcome of our therapy. On the counterpart, NK cells were important mediators of the therapeutic effect. ADCC assays revealed that both CpG ODN and poly(I:C) are able to enhance the functions of NK cells, but that simultaneous stimulation of the TLR-3 and TLR-9 allows to maximize the beneficial effects of trastuzumab. The same way, the addition of both CpG ODN and poly(I:C) to the anti-HER2 mAbs further enhanced pro-inflammatory responses, more specifically IFN-γ, TNF-α, IP-10 and IL-12.
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INHIBITION OF TNF-ALPHA DECREASES MICROGLIA ACTIVATION IN RATS NEONATALLY TREATED WITH POLY I:CShelton, Heath W., Brown, Russell W. 05 April 2018 (has links)
Introduction: Current medical treatment for individuals diagnosed with schizophrenia (SCHZ) primarily relies on the inhibition of the dopamine D2 receptor that has been shown to be supersensitive in these patients. Treatment occurs through the use of antipsychotic medication which leads to a number of debilitating dose-dependent side effects, such as weight gain, agranulocytosis, and seizures. Patients diagnosed with SCHZ have also been shown to have increased inflammation in their central nervous system (CNS), particularly within specific brain regions such as the prefrontal cortex and hippocampus. This is in large part due to the interaction between a pro-inflammatory cytokine called tumor necrosis factor-alpha (TNFa) and microglia, which are resident CNS defense cells. TNFa is a cell-signaling protein, regulates a variety of immune cells, and is involved in the acute phase reaction of inflammation. Upon activation by TNFa secretion, microglial cells switch from being anti-inflammatory (M2) to pro-inflammatory (M1), thereby resulting in neuroinflammation as well as synaptic loss and neuronal death. In this project, we hypothesized oral administration through the diet of a novel TNFa modulator (PD2024) developed by P2D Biosciences, Inc. (Cincinnati, OH) would significantly reduce microglia activation in rats neonatally treated with Polyinosinic:polycytidylic acid (poly I:C). Methods and Results: To test our hypothesis, four groups (Neonatal Poly I:C/TNFa, Neonatal Poly I:C/Control, Neonatal Saline/TNFa, and Neonatal Saline/Control) were intraperitoneally injected with either poly I:C or saline during postnatal days (P)5-7. Poly I:C is an immunostimulant that mimics neonatal infection in humans, which also has been found to be a factor for the development of SCHZ later in life. Between days (P)30-(P)60, the Neonatal Poly I:C/TNFa and Neonatal Saline/TNFa groups were orally administered PD2024 through the diet. After (P)60, brain tissue was evaluated by immunohistochemistry (IHC) and confocal microscopy. Immunohistochemistry was used to label microglial cells in the prefrontal cortex and hippocampus with a green fluorescent dye attached to Iba1, a protein that specifically binds to these cells. Upon completion of IHC, tissue was evaluated using a confocal microscope and then analyzed with NIH ImageJ software. Analysis parameters included cell count, sampled cell body fluorescence, and overall image fluorescence. The results obtained showed a significant decrease in microglia activation for the Poly I:C/TNFa group when compared to the Poly I:C/Control group, as well as similarities in activation levels with the Saline/Control group. These results were demonstrated in both sampled cell body fluorescence and overall image fluorescence measurements. Conclusion: This data supports the hypothesis that PD2024 is successful in reducing microglia activation through the modulation of TNFa. Therefore, treatment with a TNFa modulator such as PD2024 alongside of current antipsychotic medication could mediate neuroinflammation and reduce the dose-dependent side effects. This approach could be a promising therapeutic treatment option for those diagnosed with schizophrenia, as well as potentially for other neurocognitive and behavioral disorders.
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