Global ETD Search

101	Induction and regulation of autoimmune responses by dendritic cells upon interaction with dying cells in murine models Ma, Liang, 馬亮 January 2005 (has links) published_or_final_version / abstract / Pathology / Doctoral / Doctor of Philosophy Dendritic cells Apoptosis. Autoimmunity. Autoimmune diseases - Animal models.
102	Association of DC-SIGN (CD209) gene polymorphisms with severe acute respiratory syndrome (SARS) Xu, Meishu., 徐美術. January 2007 (has links) published_or_final_version / abstract / Pathology / Master / Master of Philosophy SARS (Disease) Dendritic cells. Carrier proteins. Genetic polymorphisms.
103	Metastasis and angiogenesis in neuroblastoma: involvement of visinin like protein-1 and dendritic cell Xie, Yi, 謝弋 January 2007 (has links) published_or_final_version / abstract / Surgery / Doctoral / Doctor of Philosophy Calcium-binding proteins. Dendritic cells. Metastasis. Neovascularization. Neuroblastoma.
104	Dendritic cell and B cell interactions in systemic lupuserythematosus Kavikondala, Sushma. January 2007 (has links) published_or_final_version / Medicine / Master / Master of Philosophy Systemic lupus erythematosus Dendritic cells. B cells. Cell interaction.
105	Cellular and molecular mechanisms of dendritic cell differentiation from cells of leukaemic origin Sun, Qian, 孫倩 January 2007 (has links) published_or_final_version / abstract / Pathology / Doctoral / Doctor of Philosophy Translocation (Genetics) Dendritic cells. Cell differentiation. Leukemia - Genetic aspects.
106	Regulation of autoimmune responses by dendritic cells and regulatory Tcells in murine models of systemic lupus erythematosus Yang, Cuihong., 楊翠紅. January 2007 (has links) published_or_final_version / abstract / Pathology / Doctoral / Doctor of Philosophy Dendritic cells. T cells. Autoimmunity.
107	Mechanic assessments of autoimmune responses induced by dendritic cells upon interactions with dying cells: therole of IL-10 Ling, Guangsheng., 寧珖聖. January 2009 (has links) published_or_final_version / Paediatrics and Adolescent Medicine / Doctoral / Doctor of Philosophy Dendritic cells. Interleukin-10.
108	The Role of Lymphotoxin-beta-Receptor Signaling in Dendritic Cell Function and T Cell Priming. Summers deLuca, Leslie 05 September 2012 (has links) Early during an immune response, dendritic cells (DC) interact closely with CD4+ T cells, and cross-talk between these cells can come in the form of tumour necrosis factor (TNF) superfamily ligand-receptor interactions. These signals are critical for the maturation, function and survival of DC, and thereby dictate the capacity of DC to prime a robust T cell response. Among these cues, helper T cell-expressed CD40L interaction with DC-expressed CD40 is required to fully mature DC for cross-priming of help-dependent CD8+ T cell responses. The lymphotoxin-beta receptor (LTβR) is another TNF family receptor on DC, and it’s ligands LTα1β2 and LIGHT are expressed on activated T cells. Since abrogated LTβR signaling impairs T cell immunity, we have examined whether LTαβ represents another possible helper T cell-derived cue for full DC maturation. However the LT pathway controls lymphoid tissue organization and DC homeostasis, a second possible mechanism explaining the necessity of LTβR signaling for T cell immunity. Here we dissect the role of helper T cell-expressed LTβR ligands and DC-intrinsic LTβR signaling, independent of DC homeostasis or lymphoid organization, in DC function and T cell immunity. Absence of LTα1β2 and not LIGHT on helper T cells results in compromised T cell priming by DC ex vivo, and LTβ-/- CD4+ T cell responses are impaired in vivo. Ag-specific CD4+ T cell-expressed LTα1β2 and DC-intrinsic LTβR signaling are required for an optimal cytotoxic T lymphocyte (CTL) response in vivo. While CD40 induces IL-12 and is required for CTL function, DC-intrinsic LTβR signaling is necessary for CTL activation and expansion, early up-regulation of CD86 and IFNα/β production. Our results reveal non-redundant roles for distinct TNF family receptors in enabling DC to program different features in Ag-specific CD8+ T cells. immune function dendritic cells T cell priming lymphotoxin 0982
109	The Role of Gilt in the Cross Presentation of the Melanoma Antigen gp100 Johnson, Kenneth 10 May 2017 (has links) A Thesis submitted to The University of Arizona College of Medicine - Phoenix in partial fulfillment of the requirements for the Degree of Doctor of Medicine. / In this study we examine the utility of using CD8+ T cell hybridomas to measure the ability of bone marrow dendritic cells (BMDCs) to internalize cancer proteins and display them to cytotoxic T cells, a process termed cross‐presentation. We test the ability of a newly generated T cell hybridoma called BUSA14 to detect cross‐presentation of the melanoma antigen gp100. BUSA14 produces a dose‐dependent response to human and mouse gp100 peptides. However, cross‐presentation of gp100 by BMDCs using SK‐MEL‐28 human melanoma cell lysates or direct MHC class I‐restricted presentation by B16 murine melanoma cells was not detected. Both SKMEL‐28 and B16 cells express gp100 protein by immunoblot, and gp100 as a membrane bound protein may be concentrated by cell fractionation techniques. We validated our crosspresentation assay with another T cell hybridoma B3Z to detect cross‐presentation of the model antigen ovalbumin. Lastly, we determined that although BUSA14 expresses the coreceptor CD8, BUSA14 lacks CD3 expression, which likely impairs the ability of this hybridoma to respond to engagement of the T cell receptor and contributes to the inability to detect presentation of native gp100 protein. To resolve these issues, we plan to use primary gp100‐specific T cells from pmel mice expressing the same T cell receptor as the BUSA14 hybridoma to detect presentation of gp100 protein. Ultimately, we plan to evaluate the requirements for cross‐presentation of gp100, including a role for gamma‐interferon‐inducible lysosomal thiol reductase (GILT), a disulfide bond reducing enzyme. Bone Marrow Dendritic Cells
110	Análise da capacidade migratória e da ativação de linfócitos T CD4+ por células dendríticas na paracoccidioidomicose expeimental / Analysis of the capacity of migration and activation of TCD4+ lymphocytes by dendritic cells in experimental paracoccidioidomycosis Santos, Suelen Silvana dos 19 August 2010 (has links) Paracoccidioidomicose (PCM) é uma micose sistêmica causada por Paracoccidioides brasiliensis (P. brasiliensis), que acomete preferencialmente o pulmão, sendo este um dos poucos órgãos que está em continua e intensa interação com o meio ambiente e o sistema imune. O grande desafio para o sistema imune pulmonar é discriminar o que é nocivo e reagir de acordo. As células dendríticas (DCs) são apresentadoras de antígenos \"profissionais\" capazes de fazer o processamento do antígeno e a apresentação de peptídeos a linfócitos T e são ideais para manter este equilíbrio delicado entre a tolerância e uma resposta imune efetora. Sabendo da importância dessas células no sistema imune e que a infecção por P. brasiliensis ataca preferencialmente o pulmão, células de lavado broncoalveolar (BAL), após infecção experimental com leveduras de P. Brasiliensis, foram analisadas. Nós observamos um significante aumento de DCs no BAL após 24hrs da infecção intratraqueal com 104 leveduras de P. brasiliensis. A caracterização das DCs mostraram que essas células expressaram CD11c, MHC-II e DEC205. A fim de verificar a capacidade de migração das DCs, as mesmas foram diferenciadas a partir de células de medula óssea e pulsadas com leveduras de P. brasiliensis, marcadas com CFSE e injetadas intratraquealmente em camundongos. Como controle negativo, utilizamos PBS e DCs não pulsadas com o fungo. Os resultados mostraram, que após 12 horas de infecção, as DCs (CFSE+CD11c+), migraram para os linfonodos torácicos. No entanto, a quantidade destas células diminui discretamente após 24 horas de infecção. Além disso, não observamos DCs nos linfonodos regionais, quando analisamos os grupos controle. Dessa forma, as células pulmonares também foram marcadas in vivo injetando-se intratraquealmente o corante CFSE juntamente com leveduras de P. brasiliensis. Verificamos que após 12 horas, as DCs pulmonares, dos animais infectados com o fungo, migraram para os linfonodos regionais. Esses resultados comprovam que o fungo P. brasiliensis foi capaz de ativar as DCs, induzindo sua migração para linfonodos regionais, e induziu nesse órgão uma resposta por células T evidenciada pela produção preferencial de IL-10. / Paracoccidioidomycosis (PCM) is a systemic mycosis caused by Paracoccidioides brasiliensis (P. brasiliensis), which mainly affects the lungs. They are one of the few organs that are in constant and intense interaction with the environment and the immune system. The great challenge for the pulmonary immune system is to discriminate what is harmful and react accordingly. Dendritic cells (DCs) are \"professionals\" antigen-presenting cells and they can do the antigen processing. They can also do the presentation of peptides to T lymphocytes and are ideal for maintaining this delicate balance between tolerance and an effector immune response. Knowing the importance of these cells in the immune system and that the infection by P. brasiliensis preferentially attacks the lungs, cells from bronchoalveolar lavage (BAL), after experimental infection with yeasts of P. Brasiliensis, were analyzed. We observed a significant increase of DCs in BAL after 24 hours of intratracheal infection with 104 of yeast cells of P. brasiliensis. The characterization of these cells showed that DCs expressed CD11c, MHC-II and DEC205. In order to verify the ability of migration of DCs, they were differentiated from bone marrow cells and pulsed with yeasts of P. brasiliensis, they were also labeled with CFSE and injected intratracheally into mice. As a negative control, we used PBS and DCs that were not pulsed with the fungus. The results showed that after 12 hours of infection, the DCs (CFSE + CD11c +), migrated to the thoracic lymph nodes. However, the quantity of these cells decreases slightly after 24 hours of infection. Furthermore, we observed no DCs in regional lymph nodes when we analyzed the control groups. Thus, the lung cells were also labeled in vivo by injecting the CFSE dye intratracheally with yeasts of P. brasiliensis. We found that after 12 hours, pulmonary DCs of the animals infected with the fungus migrated to regional lymph nodes. These results indicate that the fungus P. brasiliensis was able to activate DCs, inducing their migration to regional lymph nodes, and inducing a response in that organ by T cells as evidenced by preferential production of IL-10. Células dendríticas Dendritic cells Paracoccidioides brasiliensis Paracoccidioides brasiliensis Paracoccidioidomicose Paracoccidioidomycosis

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