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1	A2B adenosine receptor modulation of TNF-alpha expression in mouse rheumatoid arthritis Ciocca, Caroline 12 July 2017 (has links) Rheumatoid arthritis (RA) is a chronic inflammatory autoimmune disease that leads to destruction of articular cartilage and subchondral bone at the synovial joints. Clinically, RA is characterized by swelling, tenderness and destruction of synovial joints, which results in severe disability and premature mortality. In the RA disease state, inflammation in the synovial compartment is regulated by a complex cytokine and chemokine network, including tumor necrosis factor α (TNFα), which has been clinically demonstrated a key mediator of RA pathogenesis. TNFα can be found in elevated levels in the synovial fluid and serum of RA patients and the role of the cytokine in both the inflammation and bone destruction of RA suggests it is important in the understanding of disease progression as well as the development of therapeutic targets. Many of the biological processes that mediate RA, including bone turnover and cartilage resorption, involve signaling pathways that are mediated by adenosine and its receptors. The A2B adenosine receptor (A2BAR) is highly expressed in the synoviocytes of RA patients and the receptor has a similar expression profile in humans and mice. The goal of this thesis was to use a mouse model of RA to understand how the A2B adenosine receptor modulates TNFα and other destructive enzymes that contribute to the progression of the disease. A collagen antibody-induced arthritis (CAIA) mouse model was used to determine the effect of A2BAR ablation on systemic and joint-specific TNFα expression. Comparable arthritic conditions were observed in CAIA mice of both A2BAR knockout (KO) and wild-type (WT) genotypes and the absence of the A2BAR gene did not result in any observable differences in the gross arthritic state created in each genotype. Immunohistochemistry analysis of TNFα expression in mouse paws revealed that paw joints from CAIA A2BAR KO mice exhibited more robust TNFα staining compared to CAIA WT specimens of the same treatment duration. ELISA analysis of the serum showed that only CAIA A2BAR KO mice had greater serum production of TNFα at day 10 after induction of arthritis. TNFα and matrix metalloproteinase-9 mRNA expression were also elevated in KO CAIA knee joints in comparison to WT CAIA knee joints; however, WT CAIA mice were found to have higher levels of aggrecanase mRNA compared to KO mice. These results suggest that while the loss of A2BAR activity leads to a hyper-inflammatory state, the A2B adenosine receptor alone is not responsible for the progressive inflammation of the synovial joints associated with rheumatoid arthritis. Medicine Mouse A2B adenosine receptor Rheumatoid arthritis TNF-alpha
2	Characterizing the melanoma brain metastasis microenvironment using CyTOF IMC and the adenosine pathway in melanoma Allard-Puscas, Sarah 04 1900 (has links) Introduction: Le mélanome est le type de cancer de la peau le plus fréquent et les métastases du système nerveux central en sont une complication fréquente et grave. Les cellules de mélanome interagissent avec une grande variété de types de cellules dans le microenvironnement tumoral (MET), ce qui peut entraîner des effets pro- ou antitumoral. Plusieurs voies immunosuppressives ont été récemment découvertes comme des cibles médicamenteuses prometteuses, notamment la voie de l'adénosine. L'adénosine extracellulaire s'accumule dans le MET suite à l'hydrolyse de l'ATP par les ectonucléotidases CD39 et CD73. Les principaux régulateurs de la voie de l'adénosine sont CD39, CD73, et les récepteurs A2a et A2b. Matériel et Méthodes: Pour caractériser spatialement le MET des métastases cérébrales du mélanome (MCM), nous avons quantifié l'expression de 35 marqueurs protéiques à l'aide du time of flight (CyTOF) Imaging Mass Cytometry (IMC) dans 21 MCM, et segmenté et classé plus de 130 000 cellules. Ensuite, pour évaluer les effets du ciblage du récepteur A2b et du CD73 dans la voie de l'adénosine sur le développement du mélanome, nous avons utilisé les tests de prolifération IncuCyte et MTS pour évaluer la prolifération des cellules de mélanome. Résultats: Dans notre ensemble de données, les caractéristiques immunitaires du MET étaient hétérogènes dans tous les échantillons et le type de cellule le plus courant après les cellules cancéreuses du mélanome était les macrophages dérivés de la moelle osseuse (MDMO). Les échantillons à propagation leptoméningée avaient significativement moins de neutrophiles, de MDMO de type M1, d'autres cellules T et plus de cellules cancéreuses dans leur microenvironnement. Nous avons observé que la stimulation du récepteur A2b a un effet antiprolifératif sur les cellules cancéreuses du mélanome. Conclusion: Cette recherche met en évidence le rôle du MET dans la progression du mélanome et l'importance du MET comme base pour le développement de nouvelles thérapies pour les patients atteints de cancer. / Background: Melanoma is the most frequent type of skin cancer and metastasis to the central nervous system is a common and serious complication of it. Melanoma cells interact with a wide variety of cell types in the tumor microenvironment (TME) which can lead to tumor-promoting or tumor suppressive effects. Several immunosuppressive pathways have emerged as promising drug targets, including the adenosine pathway. The extracellular adenosine accumulates in the TME as the result of ATP hydrolysis by the ectonucleotidases CD39 and CD73. Key regulators of the adenosine pathway are CD39, CD73, A2a and A2b receptor. Methods: To spatially characterize the TME of melanoma brain metastases (MBM), we quantified the expression of 35 protein markers using time of flight (CyTOF) Imaging Mass Cytometry (IMC) in 21 MBMs, and segmented and classified over 130 000 cells. Then, to evaluate the effects of targeting the A2b receptor and CD73 in the adenosine pathway on the development of melanoma, we used the IncuCyte and MTS proliferation assays to assess the proliferation of melanoma cells. Results: In our dataset, the immune landscape of the TME was heterogeneous across all samples and the most common cell type after melanoma cancer cells were bone marrow derived macrophages (BMDM). Samples with leptomeningeal spread had significantly less neutrophils, M1-like BMDM, T other cells and more cancer cells in their microenvironment. We observed that stimulation of the A2b receptor has an antiproliferative effect on melanoma cancer cells. Conclusion: This research highlights the role of the TME in the progression of melanoma and the importance of the TME as grounds for development of new therapies for cancer patients. Mélanome Cancer Métastase Voie de l’adénosine Microenvironnement tumoral CyTOF IMC Récépteur A2b CD39 CD73 Test de prolifération Melanoma Metastasis Adenosine pathway Tumor microenvironment A2b receptor Proliferation assay Medicine / Médecine (UMI : 0564)
3	Ultracapacitor/Battery Hybrid Energy Storage Systems for Electric Vehicles Moshirvaziri, Mazhar 22 November 2012 (has links) This thesis deals with the design of Hybrid Energy Storage System (HESS) for Light Electric Vehicles (LEV) and EVs. More specifically, a tri-mode high-efficiency non-isolated half-bridge converter is developed for the LEV based HESS applications. A 2 kW, 100 V interleaved two-phase converter prototype was implemented. The peak efficiency of 97.5% and a minimum efficiency of 88% over the full load range are achieved. Furthermore, a power-mix optimizer utilizing the real-time Global Positioning System (GPS) data for the EV based HESS is proposed. For a specific design, it is shown that at the cost of less than 1.5% of the overall energy savings, the proposed scheme reduces the peak battery charge and discharge rates by 76% and 47%, respectively. A 30 kW bi-directional dc-dc converter is also designed and implemented for future deployment of the designed HESS into a prototype EV, known as A2B. Ultracapacitor Battery Electric Vehicle Hybrid Energy Storage System Light Electric Vehicle Half-bridge Converter DC-DC Converter Quasi Resonant Pulse Frequency Modulation Variable Frequency Quasi-resonant Zero Voltage Switching High Efficiency Power Mix Optimizer Global Positioning System GPS Bi-directional DC-DC Converter A2B Project EVE 0544
4	Ultracapacitor/Battery Hybrid Energy Storage Systems for Electric Vehicles Moshirvaziri, Mazhar 22 November 2012 (has links) This thesis deals with the design of Hybrid Energy Storage System (HESS) for Light Electric Vehicles (LEV) and EVs. More specifically, a tri-mode high-efficiency non-isolated half-bridge converter is developed for the LEV based HESS applications. A 2 kW, 100 V interleaved two-phase converter prototype was implemented. The peak efficiency of 97.5% and a minimum efficiency of 88% over the full load range are achieved. Furthermore, a power-mix optimizer utilizing the real-time Global Positioning System (GPS) data for the EV based HESS is proposed. For a specific design, it is shown that at the cost of less than 1.5% of the overall energy savings, the proposed scheme reduces the peak battery charge and discharge rates by 76% and 47%, respectively. A 30 kW bi-directional dc-dc converter is also designed and implemented for future deployment of the designed HESS into a prototype EV, known as A2B. Ultracapacitor Battery Electric Vehicle Hybrid Energy Storage System Light Electric Vehicle Half-bridge Converter DC-DC Converter Quasi Resonant Pulse Frequency Modulation Variable Frequency Quasi-resonant Zero Voltage Switching High Efficiency Power Mix Optimizer Global Positioning System GPS Bi-directional DC-DC Converter A2B Project EVE 0544

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