- About
-
The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
provided by the
Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
Search results
Showing 1 to 6 of 6 (0.078 seconds)Spelling suggestions: "subject:"monocytederived dendritic cells"" "subject:"leukocytederived dendritic cells""
| 1 |
Influência de diferentes concentrações de antígeno na composição de uma vacina anti-HIV baseada em células dendríticas / Effect of diferente amounts of HIV particles on the pulsing MoDCs from HIV infected patientsRomani, Nathalia Teixeira 19 October 2018 (has links)
Introdução: A infecção pelo HIV causa um profundo comprometimento da resposta imune do hospedeiro, podendo levar à aids. Várias estratégias terapêuticas têm sido testadas ao longo dos anos, entre elas a imunoterapia com células dendríticas diferenciadas a partir de monócitos (MoDCs), pulsadas com HIV-1 inativado. Neste caso, a produção de vírus para o pulso das MoDCs consiste inicialmente no isolamento do vírus a partir de amostras de sangue do paciente e, em seguida, sua expansão em culturas de células CD4. Também deve ser considerado que quantidade excessiva de vírus pode ser tóxica para as MoDCs a serem pulsadas e do mesmo modo, quantidade insuficiente de vírus pode não ser efetiva para ativar uma resposta imune especifica. Neste contexto, a investigação do efeito de diferentes concentrações de vírus sobre o perfil fenotípico e funcional de MoDCs poderia auxiliar na determinação de uma quantidade ótima de vírus para o pulso das MoDCs e contribuir para o aperfeiçoamento da vacina terapêutica. Objetivo: Avaliar o efeito de diferentes quantidades de partículas virais, sobre o perfil fenotípico e funcional das MoDCs. Metodologia: Monócitos obtidos de indivíduos HIV+ foram diferenciados em MoDCs e pulsadas com HIV quimicamente inativado (3 partículas/MoDC, 30 partículas/MoDC, 300 partículas/MoDC). As células foram analisadas com relação ao perfil fenotípico, capacidade de internalizar p24, expressão de CD38, HLA-DR e CD69 e a produção de IFN-y por linfócitos T CD4+ e CD8+ autólogos. Resultados: O pulso com concentrações crescentes de vírus parece não interferir no perfil fenotípico e funcional das MoDCs. Conclusão: As diferentes quantidades de partículas virais utilizadas para o pulso parecem não ser tóxicas para as MoDCs estudadas, não tendo sido observadas diferenças com relação ao perfil fenotípico ou funcional das MoDCs / Introduction: The infection from HIV causes a profound impairment of the host immune response, which can lead to aids. Several therapeutic strategies have been tested over the years, including immunotherapy with monocyte - derived dendritic cells (MoDCs), pulsed with inactivated HIV-1. In this case, the production of virus for the pulse of the MoDCs initially consists of isolating the vírus from the patient\'s blood samples and then it into CD4+ cell cultures. It should also be considered that excessive amount of virus can be toxic to the MoDCs to be pulsed and likewise, insufficiently amount may not be effective for properly activate a specific immune response. In this context, the investigation of the effect of different virus concentrations on the phenotypic and functional profile of MoDCs could assist in the determination of an optimal amount of virus for the pulse of the MoDCs and contribute to the improvement of the therapeutic vaccine. Objectives: To evaluate the effect of different amounts of viral particles on the phenotypic and functional profile of MoDCs. Methods: MoDCs generated from HIV+ individuals were differentiated into MoDCs and pulsed with chemically inactivated HIV (3 particles /MoDC, 30 particles /MoDC, 300 particles /MoDC). Cells were analyzed for phenotypic profile, ability to internalize p24, expression of CD38, HLA-DR and CD69, and the production of IFN-y by autologous CD4 + and CD8 + T lymphocytes. Results: The pulse with increasing concentrations of virus does not seem to interfere in the phenotypic and functional profile of the MoDCs. Conclusion: The different amounts of viral particles used for the pulse appear to be non-toxic to the MoDCs studied, and no differences were observed regarding the phenotypic or functional profile of the MoDCs
|
| 2 |
Immune Dysfunction Associated with Hemodialysis ModalitiesSlatculescu, Andreea M. 24 January 2014 (has links)
Infection is a leading cause of death in hemodialysis patients, partly due to dysfunctional immunity. Frequent dialysis therapy improves patient outcomes and quality of life. We hypothesize that extended home hemodialysis (EHHD) also improves immune function compared to conventional in-hospital hemodialysis (CHD); therefore, we designed a prospective matching-cohort clinical study to assess serum inflammatory markers and the functional capacity of monocyte-derived dendritic cells (MDDCs) and T-lymphocytes. Serum CRP was decreased in EHHD patients suggesting that extended dialysis may decrease inflammatory solute/cytokine levels. Compared to controls, MDDCs from hemodialysis patients had similar endocytic capacity, expression of co-stimulatory molecules, and T-cell activation capacity. However, CHD was associated with the highest expression of CD83 and CD40. Activated T-cells in CHD patients also produced significantly more immunosuppressive IL-10 compared to EHHD patients and controls. Therefore, EHHD may improve immune function by decreasing inflammation, MDDC pre-activation, and synthesis of immunosuppressive cytokines.
|
| 3 |
Etude de la différenciation et des fonctions des monocytes classiques au cours de l'infection par le cytomégalovirus murin / Study of classical monocytes differentiation and functions during murine cytomegalovirus infectionFries, Anissa 29 September 2016 (has links)
Les monocytes classiques (cMo) sont des phagocytes mononucléés circulant dans le sang et capables de migrer vers les tissus enflammés pour s’y différencier en monocytes inflammatoires, cellules dendritiques dérivées de monocytes (MoDC), macrophages (MoM) ou cellules myéloïdes suppressives. Selon le contexte physiopathologique, les cellules dérivées de cMo peuvent être bénéfiques ou néfastes. Dans l’infection par le cytomégalovirus murin (MCMV) leur rôle est controversé. Les divergences apparentes dans la littérature pourraient s’expliquer par l’utilisation de souches distinctes de souris ou de virus, l’étude d’organes différents, et la confusion existante sur l’identité et la plasticité de différents sous-types de cellules dérivées de cMo. Par des analyses transcriptionnelles, morphologiques et fonctionnelles, mon travail de thèse montre que, dans la rate de souris infectées par MCMV, les cMo se différencient simultanément en monocytes inflammatoires, MoDC et MoM. Cette différenciation est abrogée lorsque les cMo sont incapables de répondre aux interférons de type I (IFN-I), massivement produits dans les infections virales, qui boostent l’immunité intrinsèque antivirale et promeuvent l’activation des cellules immunitaires innées et adaptatives. La déplétion des cMo compromet le contrôle de l’infection et les réponses des cellules Natural Killer et des lymphocytes T CD8+. Mon travail montre que, dans les souris infectées par MCMV, les cMo se différencient, de manière dépendante de l’IFN-I, en trois sous-types cellulaires distincts qui contribuent à la fois au contrôle de la réplication virale et à la promotion de réponses immunitaires innées et adaptatives protectrices. / Classical monocytes (cMo) are mononuclear phagocytes mainly localized in the blood at steady state. Upon inflammation cMo migrate into inflamed tissues where they can differentiate in inflammatory monocytes, monocyte-derived dendritic cells (MoDC), monocyte-derived macrophages (MoM) or myeloid derived suppressor cells (MDSC). Depending on the physiopathological context, cMo-derived cells can be beneficial or detrimental. There are major discrepancies between published reports on the role of cMo during MCMV infection. This may be due to the use of distinct strains of mice or of virus, to the study of different organs, or to the confusion existing in the field regarding the identity and the plasticity of the different types of cMo-derived cells. During my PhD, by combining gene expression profiling, morphological, phenotypical and functional studies, I have shown that splenic cMo in MCMV-infected mice encompass cells that had simultaneously differentiated in vivo into either inflammatory monocytes, MoDC or MoM. This cMo differentiation is abrogated in the absence of responsiveness to type I interferons (IFN-I), which are highly produced during viral infections and boosting cell-intrinsic anti-viral immunity as well as promoting the activation of innate and adaptive immune responses. cMo depletion compromises the control of MCMV replication and the antiviral responses of Natural Killer cells and CD8+ T lymphocytes. My PhD work demonstrates that, in MCMV-infected mice, cMo differentiate, via an IFN-I-dependent pathway, into three distinct cell subtypes that are involved both in the control of MCMV replication and in the induction of protective innate and adaptive immunity.
|
| 4 |
Rozdílná schopnost in vitro vypěstovaných dendritických buněk dětí zdravých a alergických matek stimulovat imunitní odpověď / Different capacity of in vitro generated monocyte-derived dendritic cells of newborns of healthy and allergic mothers to prime immune responsesSúkeníková, Lenka January 2017 (has links)
(EN) Reduced microbial stimulation of an immature neonatal immune system can lead to a poor balance adjustment of immune responses, thus contributing to the development of allergic diseases, whose incidence continues to rise. One of the promising precautionary measures seems to be an early preventive administration of probiotic bacteria to pregnant or nursing mothers, or to newborns. Previous works have described a beneficial effect of Escherichia coli O83:K24:H31 (E. coli O83) in the prevention of allergic diseases. In order to contribute to the clarification of E. coli O83 effects on the neonatal immune system, its immune- modulating properties were tested in vitro on umbilical cord blood cells. The ability of E. coli O83 to support the maturation of in vitro-derived dendritic cells from cord blood precursors (moDCs) of the children of healthy (children with a relatively low risk of allergy) and allergic (children at a relatively high risk of developing allergies) mothers was tracked by flow cytometry, qPCR and ELISA. Probiotic bacteria-stimulated moDCs were subsequently cultured with autologous naive CD4+ T lymphocytes and immune response polarization was also characterised by flow cytometry, qPCR, and ELISA. It was evident from the results that E. coli O83 promoted moDCs maturation. The presence of...
|
| 5 |
Immune Dysfunction Associated with Hemodialysis ModalitiesSlatculescu, Andreea M. January 2014 (has links)
Infection is a leading cause of death in hemodialysis patients, partly due to dysfunctional immunity. Frequent dialysis therapy improves patient outcomes and quality of life. We hypothesize that extended home hemodialysis (EHHD) also improves immune function compared to conventional in-hospital hemodialysis (CHD); therefore, we designed a prospective matching-cohort clinical study to assess serum inflammatory markers and the functional capacity of monocyte-derived dendritic cells (MDDCs) and T-lymphocytes. Serum CRP was decreased in EHHD patients suggesting that extended dialysis may decrease inflammatory solute/cytokine levels. Compared to controls, MDDCs from hemodialysis patients had similar endocytic capacity, expression of co-stimulatory molecules, and T-cell activation capacity. However, CHD was associated with the highest expression of CD83 and CD40. Activated T-cells in CHD patients also produced significantly more immunosuppressive IL-10 compared to EHHD patients and controls. Therefore, EHHD may improve immune function by decreasing inflammation, MDDC pre-activation, and synthesis of immunosuppressive cytokines.
|
| 6 |
Identification of human peripheral blood monocyte derived pro-inflammatory dendritic cellsToschka, Robert 02 December 2014 (has links)
Dendritische Zellen (DZ) sind essentiell für die Aktivierung von Immunantworten. Drei Flt3-abhängige DZ Populationen aus dem Blut bestehend aus konventionellen (kDZ) BDCA1+ DZs und BDCA3+ DZs und plasmazytoide DZs wurden bereits beschrieben. Hier wurden zum ersten Mal sich aus Monozyten entwickelnde DZ (moDZ), genauer BDCA1+CD14+ pro-inflammatorische DZ (pro-iDZ) aus periphärem Blut unter homöostatischen Bedingungen identifiziert. Isolierte pro-iDZ sekretierten spontan große Mengen an pro-inflammatorischen Zytokinen, die kDZ reifen ließen und T Zell Proliferation unterstützten. Sie waren BDCA1+CD14- DZ und CD14+CD16- Monozyten in der TH17 Zell Induktion überlegen. Pro-iDZ ähnliche BDCA1+CD14+ Zellen konnten durch imaging cycler microscopy in Geweben von Patienten die an Psoriasis, Dermatomyositis oder entzündetem Halonävus erkrankt waren identifiziert werden. Ihr Fehlen in gesunder Haut deutete eine Rekrutierung von pro-iDZs in entzündetes Gewebe an. Eine Verwandtschaftsanalyse von pro-iDZ zwischen Monozyten, kDZ des Blutes und in vitro generierten moDZ auf genomweiter Ebene wies auf einen monozytären Ursprung hin. Anylse mittels funktioneller Annotation auf differentiell exprimierten Genen zwischen pro-iDZ und Monozyten zeigte eine DZ spezifische Gensignatur auf. Diese Gene waren insgesamt in der gleichen Weise wie in kDZ und moDZ reguliert, das eine Entwicklung von Monozyten nach DZ nahelegte. Dieses Entwicklungskonzept wurde insofern unterstützt, indem unter entzündlichen Bedingungen kultivierte CD14+CD16- Monozyten BDCA1 Expression und DZ Funktion erlangten. Da pro-iDZ sehr ähnlich zu BDCA1+CD14+ Zellen aus entzündeter Haut waren und beide große Konvergenz mit zuvor beschriebenen BDCA1+CD14+ inflammatorischen DZ (infDZ) aus entzündeten Geweben aufwiesen, können pro-iDZ als direkte infDZ Vorläufer angesehen werden. Dadurch und wegen ihrer monozytären Herkunft können pro-iDZ als Beweis für die humane Differenzierung von Monozyten nach DZ in vivo betrachtet werden. / Dendritic cells (DCs) are critical for the activation of immune responses. Three Flt3-dependent blood DC populations including conventional BDCA1+ DCs and BDCA3+ DCs (cDCs) and plasmacytoid DCs were described previously. This work identifies for the first time human peripheral blood monocyte derived BDCA1+CD14+ pro-inflammatory DCs (pro-iDCs) during steady state. Isolated pro-iDCs spontaneously secreted high amounts of pro-inflammatory cytokines, which matured cDCs and promoted T cell proliferation. They were superior in priming TH17 cells when compared to BDCA1+CD14- DCs and CD14+CD16- monocytes. BDCA1+CD14+ cells resembling blood pro-iDCs as identified by imaging cycler microscopy were found in samples from patients suffering from psoriasis, dermatomyositosis and inflamed halo nevus. Their absence in healthy donor’s skin indicated a recruitment of pro-iDCs to sites of inflammation. Analysis of the developmental relationship of pro-iDCs between monocytes, blood cDCs and in vitro generated monocyte derived DCs (moDCs) on whole genome level strongly suggested a monocytic origin. Functional annotation analysis of differentially regulated genes between monocytes and pro-iDCs revealed a DC specific gene signature. In addition, these genes were overall regulated in the same way in blood cDCs and moDCs, indicating an ongoing development of pro-iDCs from monocytes towards DCs. This developmental concept was supported as CD14+CD16- monocytes cultured under inflammatory conditions gained BDCA1 expression and DC function. Since pro-iDCs were highly similar to BDCA1+CD14+ cells found in inflamed skin and as both showed a marked convergence with BDCA1+CD14+ inflammatory DCs (infDCs) present in inflamed tissues described previously, pro-iDCs can be regarded as immediate precursors of infDCs. Thus, in respect of a monocytic origin and a presumably inflammatory DC fate, pro-iDCs may constitute a missing link to prove human moDC differentiation in vivo.
|
Page generated in 0.104 seconds