Global ETD Search

241	Rôle du facteur d’échange nucléotidique Arhgef1 dans l’hémostase / Role of the Arhgef1 nucleotide exchange factor in hemostasis Rouillon, Camille 18 September 2019 (has links) Une des propriétés majeures de la thrombine est le caractère pléiotropique de ses effets physiologiques et pathologiques à la fois dans le compartiment sanguin et tissulaire de la paroi. La voie de signalisation RhoA est activée par la fixation de la thrombine aux récepteurs PARs et cette voie est un régulateur principal de la mécanotransduction et de la plasticité cellulaire. Le facteur d’échange de RhoA, Arhgef1, est impliqué dans le développement de l’hypertension dépendante de l’angiotensine II et dans l’athérothrombose. Notre hypothèse est que le contrôle de la signalisation intracellulaire de RhoA par Arhgef1 est un élément régulateur de la coagulation plasmatique et pourrait participer aux modifications phénotypiques des plaquettes et des cellules vasculaires et ainsi contribuer à l’augmentation de la génération de thrombine tissulaire. Les objectifs ont été de caractériser la génération de thrombine et la fonction plaquettaire depuis leur activation jusqu’à leurs implications dans un modèle de thrombose tissulaire et d’étudier le rôle prothrombotique des cellules musculaires lisses vasculaires (CMLVs) chez des souris Arhgef1 -/-. Résultats : Les souris Arhgef1-/- ont une numération plaquettaire normale mais présentent une diminution significative de l’activation plaquettaire, de la génération de thrombine en sang total et en présence de plaquettes (mais pas en plasma pauvre en plaquettes) et de l’adhérence plaquettaire par rapport aux souris contrôles. Ces modifications se traduisent, in vivo, par un plus grand nombre d’arrêts transitoires de l’écoulement sanguin dans le modèle de saignement à la queue et un allongement du temps de survenue du thrombus occlusif carotidien en réponse au FeCl3 chez les souris Arhgef1 -/- comparées aux contrôles. Les CMLVs des souris Arhgef1 -/- génèrent moins de thrombine à leur surface et ont une prolifération diminuée par rapport aux CMLVs des souris contrôles. En conclusion, les résultats démontrent le rôle d’Arhgef1 dans les fonctions plaquettaires et dans la régulation du phénotype des CMLVs. Le mécanisme principal fait intervenir la Rho GTPase dans l’adhésion plaquettaire et la génération de thrombine à la surface CMLVs qui contrôlent la formation du thrombus. Ces résultats suggèrent que ce facteur d’échange est capable d’amplifier la thrombose artérielle et pourrait être impliqué via les récepteurs à la thrombine dans le couplage thrombine tissulaire-rigidité cellulaire via les plaquettes et les CMLVs dans les pathologies vasculaires. / One of the major properties of thrombin is the pleiotropic character of its physiological and pathological effects in both the blood and the tissue compartment of the vessel wall. The RhoA signaling pathway is activated by the binding of thrombin to the PARs receptors and this pathway is a major regulator of mechanotransduction and cellular plasticity. The RhoA exchange factor, Arhgef1, is involved in the development of angiotensin II-dependent hypertension and in atherothrombosis. Our hypothesis is that the control of intracellular RhoA signaling by Arhgef1 is a regulatory element of plasma coagulation and could participate in phenotypic modifications of platelets and vascular cells and thus contribute to the increase of tissue thrombin generation. The objectives were to characterize thrombin generation and platelet function from their activation to their implications in a model of tissue thrombosis, and to study the prothrombotic role of vascular smooth muscle cells (VSMCs) in Arhgef1 -/- mice. Results: Arhgef1 -/- mice had a normal platelet count but showed a significant decrease in platelet activation, thrombin generation in whole blood and in the presence of platelets (but not in platelet poor plasma) and platelet adhesion compared to control mice. These modifications result, in vivo, by a greater number of transitory stopping of the blood flow in the tail bleeding model and an increase in the time of occurrence of the carotid occlusive thrombus in response to FeCl3 in Arhgef1 -/- mice compared to controls. The VSMCs of Arhgef1 -/- mice generate less thrombin at their surface and have decreased proliferation compared to VSMCs of the control mice. In conclusion, the results demonstrate the role of Arhgef1 in platelet function and in the regulating of the phenotype of VSMCs. The main mechanism involves Rho GTPase in platelet adhesion and in thrombin generation at the VSMC surface that control thrombus formation. These results suggest that this exchange factor is able to amplify aterial thrombosis and could be involved via thrombin receptors in tissue thrombin-cell stiffness coupling via platelets and VSMCs in vascular pathologies. Arhgef1 Thrombine Plaquettes Cellules musculaires lisses vasculaires Arhgef1 Thrombin Platelets Vascular smooth muscle cells 571.74 612.115
242	Études des mécanismes cellulaires et moléculaires impliqués dans le développement du syndrome de détresse respiratoire post-transfusionnel (TRALI) / Study of the cellular and molecular mechanisms in the development of Transfusion-Related Acute Lung Injury (TRALI) El Mdawar, Marie- Belle 22 October 2018 (has links) Le TRALI immunologique est un syndrome de détresse respiratoire aiguë rare, provoqué par la présence d’alloanticorps dans les produits transfusés. Il est classiquement étudié au moyen d’un modèle de souris qui reçoivent un anticorps monoclonal contre les molécules d’histocompatibilité de classe I, anti-H-2d. Or les mécanismes qui conduisent au TRALI restent encore largement incompris. Dans ce travail de thèse, je montre que l’inhibition des récepteurs P2X1 à l’ATP et du canal calcique TRPC6, diminue le développement des œdèmes péri-artériolaires pulmonaires lors d’un TRALI, suggérant un rôle des cellules musculaires lisses. Les expériences de déplétions cellulaires spécifiques montrent que les plaquettes et les neutrophiles ne sont pas nécessaires pour l’initiation du TRALI, contrairement à ce qui avait été montré par d’autres équipes. Les monocytes et/ou les macrophages sont par contre indispensables. J’ai aussi développé un modèle de TRALI immunologique utilisant des souris transgéniques pour le récepteur humain FcγRIIA, et un anticorps recombinant muni d’une partie Fc d’IgG1 humaine. Mes travaux montrent que le TRALI est plus sévère dans les souris transgéniques, accompagné d’une activation plus importante des plaquettes et des neutrophiles. Ce modèle permet d’envisager l’étude des mécanismes du TRALI sous un nouvel angle, plus proche de la physiopathologie humaine, ainsi que celle de la contribution des parties Fc des anticorps humains. / Immunological TRALI is a rare acute respiratory distress syndrome induced by the presence of alloantibodies in transfused products. A mouse model using a monoclonal antibody against the major histocompatibility complex class I, anti-H-2d, is usually used to study its mechanisms. Nevertheless, there is a lack in our understanding regarding the course of events. In this thesis, I show that the inhibitions of the ATP-gated receptor P2X1 and of the TRPC6 channel reduce the development of periarteriolar pulmonary edema occurring during TRALI, pointing to a role of smooth muscles cells. Specific cell depletions show that platelets and neutrophils are dispensable for TRALI initiation, in contrast to previous reports. Monocytes and/or macrophages are however necessary. I also developed a model of immune TRALI using transgenic mice expressing the human receptor FcγRIIA, and a recombinant antibody with a human IgG1-Fc fragment. My work reveal a more severe TRALI response in transgenic mice, with enhanced activation of platelets and neutrophils. This model allow a finer study of mechanisms underlying TRALI, moving towards the human actors of the pathology. We can also use this novel approach to assess the contribution of human Fc fragment. TRALI Œdème pulmonaire Plaquettes Récepteur P2X1 Cd32a TRALI Lung edema Platelets P2X1 receptor Cd32a 571.96 616.2
243	Calcium signalling regulating platelet adhesion and thrombus growth Giuliano, Simon, 1975- January 2002 (has links) Abstract not available Thrombosis Blood Blood platelets -- Activation Adhesion Cellular signal transduction Calcium -- Physiological effect Calcium channels
244	Molecular regulation of Megakaryopoiesis: the role of Fli-1 and IFI16 Johnson, Lacey Nicole, St George Clinical School, UNSW January 2006 (has links) Megakaryocytes (Mks) are unique bone marrow cells, which produce platelets. Dysregulated Mk development can lead to abnormal platelet number and the production of functionally defective platelets, causing bleeding, thrombotic events, and leukaemia. Understanding the molecular mechanisms driving megakaryopoiesis may yield insights into the molecular genetics and cellular pathophysiology of a diversity of disorders. The primary aim of this thesis was to gain insight into the molecular events required for normal Mk development. As transcription factors and cytokines play a central role in driving Mk development, both of these processes were investigated. Fli-1 and GATA-1 are key transcription factors regulating Mk-gene expression, alone and co-operatively. To understand the mechanism of transcriptional synergy exerted by Fli-1 and GATA-1, in vitro assays were carried out investigating the interactions between Fli-1, GATA-1 and DNA that mediate synergy. A novel mechanism of synergy was identified, where Fli-1 DNA binding is not required, although an interaction between Fli-1 and GATA-1, and GATA-1 DNA binding is required. Importantly, the results demonstrate that Fli-1 DNA binding is not essential for promoting Mk-gene expression in primary murine bone marrow cells. Thrombopoietin (TPO) is the primary cytokine responsible for Mk and platelet development. Identifying novel TPO gene-targets may provide invaluable information to aid the understanding of the complex and unique processes required for Mk development. Using microarray technology, IFI16 was identified as a TPO-responsive gene that has not previously been studied in the Mk lineage. This work demonstrated that IFI16 is expressed in CD34+ HSC-derived Mks, and that the Jak/STAT pathway is essential for the activation of IFI16 by both TPO and IFN-??. Of biological significance, IFI16 was found to regulate both the proliferation and differentiation of primary Mks, suggesting that IFI16 may control the balance between these two essential processes. In conclusion, the data in this thesis presents a novel mechanism through which Fli-1 and GATA-1 regulate the synergistic activation of Mk genes. The identification and functional characterisation of a novel TPO-inducible gene, IFI16, involved in regulating the proliferation and differentiation of Mks is also described. These findings have implications for several congenital and malignant conditions affecting Mk and platelet development, and possibly a mechanism for IFN-induced thrombocytopaenia. Megakaryocytes Fli-1 GATA-1 IFI16 Thrombopoietin Interferon Blood cells Blood platelets
245	Investigation of Incompatibility Reactions Caused by Biomaterials in Contact with Whole Blood Using a New in vitro Model. Hong, Jaan January 2001 (has links) <p>This thesis describes a new <i>in vitro</i> slide chamber model that makes it possible to conduct studies of molecular and cellular interactions between whole blood and biomaterials. The model proved to be a suitable tool for detection of cell and platelet binding to a biomaterial surface. It was possible to monitor activation of the blood cascade systems and cells in the fluid phase and detect surface-bound molecules.</p><p>One finding was that thrombin generation is primarily triggered by FXII on a biomaterial surface since corn trypsin inhibitor, inhibited thrombin generation in blood.</p><p>Another finding was that thrombin generation was dependent on variety types of blood cells, since thrombin generation was almost negligible in platelet-rich plasma. When various preparations of blood cells were used to reconstitute platelet-rich and platelet-poor plasma, erythrocytes were shown to be the most efficient cell type in triggering thrombin generation. Inhibition of platelet aggregation with aspirin and Ro44-9883 was associated with a decrease in thrombin generation, confirming that platelet activation is necessary for normal coagulation activation. These findings suggest that the central events consist of an initial low-grade generation of thrombin that involves erythrocytes and possibly leukocytes which leads to activation of platelets; and a second platelet-dependent amplification loop that produces most of the thrombin.</p><p>Titanium exposed to whole blood produced high amounts of thrombin. Stainless steel and PVC, generated lower amounts. This indicates that titanium might be less suitable as a biomaterial in devices that are in direct contact with blood for prolonged time. Considering the superior osteointegrating properties of titanium and titanium's response to blood, a correlation between high thrombogenicity and good osteointegration seems to exist.</p><p>Compstatin, that binds to complement component C3, effectively inhibited the generation of C3a and sC5b-9 and the binding of C3/C3 fragments to the surface. Our results suggest that a biomaterial is able to activate complement through both the classical and alternative pathways and that the classical pathway alone is able to maintain a substantial bioincompatibility reaction. The results show that complement activation is a prerequisite for activation and binding of PMNs to the surface in the <i>in vitro</i> model.</p> Oncology biomaterials coagulation complement heparin leukocytes platelets PVC titanium Onkologi Oncology Onkologi
246	Investigation of Incompatibility Reactions Caused by Biomaterials in Contact with Whole Blood Using a New in vitro Model. Hong, Jaan January 2001 (has links) This thesis describes a new in vitro slide chamber model that makes it possible to conduct studies of molecular and cellular interactions between whole blood and biomaterials. The model proved to be a suitable tool for detection of cell and platelet binding to a biomaterial surface. It was possible to monitor activation of the blood cascade systems and cells in the fluid phase and detect surface-bound molecules. One finding was that thrombin generation is primarily triggered by FXII on a biomaterial surface since corn trypsin inhibitor, inhibited thrombin generation in blood. Another finding was that thrombin generation was dependent on variety types of blood cells, since thrombin generation was almost negligible in platelet-rich plasma. When various preparations of blood cells were used to reconstitute platelet-rich and platelet-poor plasma, erythrocytes were shown to be the most efficient cell type in triggering thrombin generation. Inhibition of platelet aggregation with aspirin and Ro44-9883 was associated with a decrease in thrombin generation, confirming that platelet activation is necessary for normal coagulation activation. These findings suggest that the central events consist of an initial low-grade generation of thrombin that involves erythrocytes and possibly leukocytes which leads to activation of platelets; and a second platelet-dependent amplification loop that produces most of the thrombin. Titanium exposed to whole blood produced high amounts of thrombin. Stainless steel and PVC, generated lower amounts. This indicates that titanium might be less suitable as a biomaterial in devices that are in direct contact with blood for prolonged time. Considering the superior osteointegrating properties of titanium and titanium's response to blood, a correlation between high thrombogenicity and good osteointegration seems to exist. Compstatin, that binds to complement component C3, effectively inhibited the generation of C3a and sC5b-9 and the binding of C3/C3 fragments to the surface. Our results suggest that a biomaterial is able to activate complement through both the classical and alternative pathways and that the classical pathway alone is able to maintain a substantial bioincompatibility reaction. The results show that complement activation is a prerequisite for activation and binding of PMNs to the surface in the in vitro model. Oncology biomaterials coagulation complement heparin leukocytes platelets PVC titanium Onkologi Oncology Onkologi
247	Stimulation of tendon repair by platelet concentrate, CDMP-2 and mechanical loading in animal models Virchenko, Olena January 2007 (has links) Growth factor delivery may be useful to accelerate the rate of tendon healing. We studied Platelet Concentrate, which in effect can be regarded as a cocktail of growth factors relevant for tendon healing. In a rat Achilles tendon transection model, one postoperative injection of Platelet Concentrate resulted in increased strength even 3 weeks later. Mechanical stimulation improves the repair of ruptured tendons. We studied the effects of platelets upon Achilles tendon regenerates in rats 3, 5 and 14 days after transection, either unloaded or mechanically stimulated. At 14 days, physical activity and platelets increased repair independently. Unloading decreased the mechanical properties of the repair tissue to less than half of normal. Moreover, the platelets had no effect without loading. Thrombin, which we used for platelet activation, improved healing of the rat Achilles tendon by itself. Conversely, continuous inhibition of thrombin by low molecular weight heparin (LMWH) inhibited tendon repair. However, intermittent inhibition, similar to clinical thromboprophylaxis, had no effect on tendon healing. Cartilage Derived Morphogenetic Protein-2 (CDMP-2) can improve tendon healing in loaded defect models. We now studied unloaded repair in a rabbit patellar tendon model. Two hours postoperative, the rabbits received CDMP-2 injected into the haematoma. The healing tendon became 65 % stronger than controls. We then studied Achilles tendon healing with CDMP-2 injections in sheep, to get a bigger animal model. There was an unexpectedly high variation of repair in these animals, and the study turned out to be underpowered. Spontaneous ruptures in humans have a more variable geometry than in our sheep model, so humans can also be expected to vary a lot in mechanical characteristics of Achilles tendon repair. This accentuates the importance of individualized rehabilitation programs. In conclusion, both platelet concentrate and CDMP-2 injections might be of interest for clinical use as a complement to surgical or conservative treatment of tendon ruptures. Platelet treatment for tendon ruptures should probably be combined with early physiotherapy. Achilles tendon injuries physiology Blood platelets tendon injuries physiopathology therapy wound healing Orthopaedics Ortopedi
248	Effect of Surface Nanotopography on Blood-Biomaterial Interactions Ferraz, Natalia January 2010 (has links) Biologically inspired materials are being developed with the aim of improving the integration of medical implants and minimizing non-desirable host reactions. A promising strategy is the design of topographically patterned surfaces that resemble those found in the extracellular environment. Nanoporous alumina has been recognized as a potential biomaterial and as an important template for the fabrication of nanostructures. In this thesis in vitro studies were done to elucidate the role of alumina nanoporosity on the inflammatory response. Specifically, by comparing alumina membranes with two pore sizes (20 and 200 nm in diameter). Complement and platelet activation were evaluated as well as monocyte/macrophage behaviour. Whole blood was incubated with the alumina membranes and thereafter the biomaterial surfaces were evaluated in terms of protein and platelet adhesion as well as procoagulant properties. The fluid phase was analyzed for complement activation products and platelet activation markers. Besides, human mononuclear cells were cultured on the alumina membranes and cell adhesion, viability, morphology and release of pro-inflammatory cytokines were evaluated. The results indicated that nanoporous alumina with 200 nm pores promotes higher complement activation than alumina with 20 nm pores. In addition, platelet response to nanoporous alumina was found to be highly dependent on the material porosity, as reflected by differences in adhesion, PMP generation and procoagulant characteristics. A clear difference in monocyte/macrophage adhesion and activation was found between the two pore size alumina membranes. Few but highly activated cells adhered to the 200 nm membrane in contrast to many but less activated monocytes/macrophages on the 20 nm surface. The outcome of this work emphasizes that nanotopography plays an important role in the host response to biomaterials. Better understanding of molecular interactions on nano-level will undoubtedly play a significant role in biomaterial implant development and will contribute to design strategies for controlling specific biological events. nanoporous alumina nanotopography biomaterial platelets complement system macrophages whole blood inflammatory response Chemistry Kemi Immunobiology Immunbiologi
249	Improved Mouse Models for the Study of Treatment Modalities using Sulfur-containing Small-molecular-Weight Molecules for Passive Immune-mediated Thrombocytopenia Katsman, Yulia 12 February 2010 (has links) Immune thrombocytopenic purpura (ITP) is an autoimmune disease characterized by autoantibody-mediated platelet destruction. To test the efficacy of novel sulfur compounds as alternative treatments for ITP, we used a mouse model of passive immune thrombocytopenia (PIT). Using this model, the platelet nadir could not be maintained, with platelet counts rising after day 4, despite daily anti-platelet antibody administration. We examined reticulated platelet counts by flow cytometry, and found increased thrombopoiesis in the bone marrow to be at least partially responsible for this platelet rebound. Consequentially, two improved mouse models of PIT were developed, where the platelet rebound is circumvented. The first model employs sublethal total body gamma-irradiation in combination with daily antibody administration, while the second model employs gradual escalation of the daily antibody dose. Finally, we show that none of the tested candidate compounds show efficacy in elevating platelet counts in vivo, likely due to their limited solubility. thrombocytopenia immunology auto-immune disease ITP mouse model platelets sulfur compounds 0306
250	Improved Mouse Models for the Study of Treatment Modalities using Sulfur-containing Small-molecular-Weight Molecules for Passive Immune-mediated Thrombocytopenia Katsman, Yulia 12 February 2010 (has links) Immune thrombocytopenic purpura (ITP) is an autoimmune disease characterized by autoantibody-mediated platelet destruction. To test the efficacy of novel sulfur compounds as alternative treatments for ITP, we used a mouse model of passive immune thrombocytopenia (PIT). Using this model, the platelet nadir could not be maintained, with platelet counts rising after day 4, despite daily anti-platelet antibody administration. We examined reticulated platelet counts by flow cytometry, and found increased thrombopoiesis in the bone marrow to be at least partially responsible for this platelet rebound. Consequentially, two improved mouse models of PIT were developed, where the platelet rebound is circumvented. The first model employs sublethal total body gamma-irradiation in combination with daily antibody administration, while the second model employs gradual escalation of the daily antibody dose. Finally, we show that none of the tested candidate compounds show efficacy in elevating platelet counts in vivo, likely due to their limited solubility. thrombocytopenia immunology auto-immune disease ITP mouse model platelets sulfur compounds 0306

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