Global ETD Search

1	To Degrade or Not to Degrade: The Role of P300/CBP-Associated Factor (PCAF) in Ciita Stability and Ubiquitination Brooks, Jeanne Kaye 13 July 2009 (has links) The ubiquitin-proteasome pathway plays vital roles in multiple cellular processes including protein turnover and transcription regulation. The fate of a ubiquitinated protein is determined by the number of ubiquitin molecules added and the site to which they are added. Monoubiquitinated proteins are stabilized and often activated, while polyubiquitinated proteins are rapidly targeted for degradation. Major histocompatibility complex class II (MHC II) molecules are a vital part of the immune response and are responsible for presenting antigens to CD4+ T cells. The class II transactivator (CIITA) is the master regulator of MHC II transcription and has been shown to have increased transactivity when monoubiquitinated. The focus of this thesis is on the impact of ubiquitination on CIITA stability and MHC II gene expression through the identification of an E3 ligase that targets and ubiquitinates CIITA. Ubiquitination pCAF MHC II Adaptive immunity CIITA Biology, general
2	Dynamic Regulation of the Class II Transactivator by Posttranslational Modifications Morgan, Julie E 11 August 2015 (has links) The class II Transactivator (CIITA) is the master regulator for Major Histocompatibility Class II (MHC II) molecules. CIITA is dynamically regulated by a series of Posttranslational Modifications (PTMs). CIITA is responsible for initiating transcription of MHC II genes, thus allowing peptides derived from extracellular antigens to be presented to CD4+ T cells. CIITA’s PTMs are necessary for regulation of CIITA’s location, activity, and stability. Our work identifies the kinase complex ERK1/2 as being responsible for phosphorylating the previously identified regulatory site, serine (S) 280 on CIITA. Phosphorylation by ERK1/2 of CIITA S280 leads to increased levels of CIITA mono-ubiquitination and overall increases in MHC II activity. We further identify a novel ubiquitin modification on CIITA, lysine (K) 63 linked ubiquitination poly ubiquitination. Our data shows novel crosstalk between K63 ubiquitination and ERK1/2 phosphorylation. K63 ubiquitinated CIITA is concentrated to the cytoplasm, and upon phosphorylation by ERK1/2, CIITA translocates to the nucleus, thus demonstrating that CIITA’s location and activity is regulated through PTM crosstalk. While ubiquitination has been shown to be a critical PTM in the regulation of CIITA, the enzyme(s) mediating this important modification remained to be elucidated. Previous reports implicating the histone acetyltransferase (HAT), pCAF as an ubiquitin E3 ligase were intriguing, as pCAF is also known to participate in the acetylation of both histones at the MHC II promoter and in acetylation of CIITA. We now identify novel roles for pCAF in the regulation of CIITA. We show pCAF acts as an E3 ligase, mediating mono, K63, and K48 linked ubiquitination of CIITA. We therefore demonstrate an additional substrate for the “dual acting” enzyme, pCAF. In sum, our observations identify enzymes involved in both the phosphorylation and ubiquitination of key residues of CIITA, which ultimately regulate CIITA activity. Together our observations contribute to knowledge of CIITA’s growing network of PTMs and their role in regulating the adaptive immune response, and will allow for development of novel therapies to target dysregulated CIITA activity during adaptive immune responses. Posttranslational modifications Ubiquitination phosphorylation CIITA MHC II transcription regulation
3	Tumorantigen-gepulste dendritische Zellen zur Steigerung der Zytotoxizität immunologischer Effektorzellen bei Tumoren des gastroenteropankreatischen Systems Märten, Angela 31 May 2000 (has links) Die Rationale für immuntherapeutische Ansätze zur Behandlung maligner Neoplasien geht davon aus, daß Tumore über spezifische Tumorantigene verfügen. Dendritische Zellen als die wichtigsten antigenpräsentierenden Zellen sind in der Lage, Tumorantigene naiven T-Zellen zu präsentieren und spezifische zytotoxische T-Zellen zu stimulieren. In der vorliegenden Arbeit wurden dendritische Zellen durch Stimulation mit Interleukin-4 (IL-4) und Granulozyten/ Makrophagen Koloniestimulierender Faktor (GM-CSF) aus peripheren mononukleären Blutzellen gesunder Spender und an Tumoren des gastroenteropankreatischen Systems erkrankter Patienten generiert. Mit den dendritischen Zellen cokultivierte immunologische Effektorzellen (Zytokin-induzierte Killerzellen, CIK-Zellen) wurden im Zytotoxizitätstest gegen kolorektale und pankreatische Karzinomzellen eingesetzt. CIK-Zellen sind zytototoxische Zellen, die durch Stimulation mit Zytokinen aus peripheren Blutlymphozyten erzeugt werden. Durch die Cokultivierung der Effektorzellen mit dendritischen Zellen konnte eine signifikante Steigerung der unspezifischen zytotoxischen Wirkung der CIK-Zellen bewirkt werden. Zur Steigerung der spezifischen Zytotoxizität wurden dendritische Zellen mit dem Gesamtprotein der tumor-assoziierten Antigene cancer associated antigen (CA 19-9) und carcinoembryonic antigen (CEA) gepulst. Effektorzellen zeigten nach der Cokultur mit gepulsten dendritischen Zellen zytotoxische Wirkung gegen Targetzellen, die das zum Pulsen verwendete Tumorantigen auf der Zelloberfläche exprimieren. Die Antigenspezifität der zytotoxischen Wirkung konnte durch eine signifikant verminderte Zellyse nach Blockade des Tumorantigens auf den Targetzellen belegt werden. Erstmals beschrieben ist hier das Pulsen dendritischer Zellen mit sowohl autologen als auch allogenen Seren von Patienten mit erhöhten Tumormarkerspiegeln. Eine Kultivierung dendritischer Zellen in tumormarkerhaltigem Serum bewirkte dosisabhängig eine verstärkte zytotoxische Wirkung cokultivierter Effektorzellen gegen Tumorzellen. Die verstärkte Zellyse zeigte sich unabhängig vom allogenem oder autologem Charakter des Serums. Der immunstimulierende Effekt des Patientenserums konnte durch eine vorhergehende Hitzeinaktivierung des Serums neutralisiert werden. Die höchsten Zellysen wurden durch eine Kultivierung dendritischer Zellen in tumormarkerhaltigem Serum und zusätzlichem Pulsen mit exogenem Tumorantigen erreicht. Unte rsuchungen an komplett autologen Systemen reproduzierten die an Zellkulturen erhobenen Befunde. Hierfür wurden erfolgreich Primärkulturen kolorektaler Tumore etabliert. Aus dem Blut von Tumorpatienten wurden dendritische Zellen generiert, die mit autologem Serum kultiviert wurden. Die cokultivierten autologen Effektorzellen erwiesen sich im Zytotoxizitätstest gegen autologe Tumorzellen als zytotoxisch. Die Cokultivierung der Effektorzellen mit den dendritischen Zellen bewirkte bei beiden Zellpopulationen Veränderungen. Dendritische Zellen zeigten nach der Cokultur eine verstärkte Expression antigenpräsentierender und costimulatorischer Moleküle. Bei den CIK-Zellen kam es zu einem Anstieg der Proliferationsrate. Bei Untersuchungen zur Antigenspezifität von T-Zellrezeptoren konnte vermehrt antigenspezifischer T-Zellrezeptor nachgewiesen werden. Des weiteren stieg das Verhältnis zwischen zytotoxischen T-Zellen und T-Helferzellen zugunsten der zytotoxischen T-Zellen. In ELISpot-Untersuchungen wurde eine Zunahme Interferon-gamma sezernierender CIK-Zellen nachgewiesen. Dendritische Zellen ließen sich erfolgreich mit inaktiviertem Adenovirus, an das kovalent Poly-L-Lysin gekoppelt ist, transfizieren. Die für den adenoviralen Gentransfer benötigten Oberflächenstrukturen konnten auf dendritischen Zellen nachgewiesen werden. Zur Verbesserung der Zytotoxizität wurden dendritische Zellen erfolgreich mit dem Gen für den Transaktivator CIITA transfiziert. CIITA- transfizierte dendritische Zellen exprimierten vermehrt MHC Klasse II-Moleküle. Die transduzierten dendritischen Zellen induzierten bei cokultivierten Effektorzellen eine erhöhte unspezifische Zytotoxizität. Mit Tumorantigen gepulste dendritische Zellen können bei der Entwicklung immuntherapeutischer Protokolle bei malignen Neoplasien von Bedeutung sein. / The immunotherapeutic approach against malignant neoplasias appreciates that tumours encode tumour rejection antigens, that enable them to induce protective immunity. Dendritic cells are major antigen-presenting cells and are able to present tumour antigens to naive T-cells and stimulate cytotoxic T-cells in a specific manner. In the present graduation-manuscript dendritic cells were generated in the presence of Interleukin-4 and granulocyte/macrophage colony-stimulating factor (GM-CSF) from peripheral mononuclear blood cells of healthy donors and tumour- patients. Immunological effector cells termed cytokine- induced killer cells (CIK cells) were co-cultured with dendritic cells and tested for their cytotoxic capacity against colorectal and pancreatic cancer cell-lines in a LDH-release assay. CIK cells are cytotoxic lymphocytes generated by incubation of peripheral blood lymphocytes with different cytokines. Co-culture of effector cells with dendritic cells led to a significant increase of the cytotoxic effect of CIK cells. For a further increase of specific cytotoxicity dendritic cells were pulsed with total protein of the tumour-associated antigens cancer associated antigen CA 19-9 and carcinoembryonic antigen (CEA). Co-cultured effector cells showed an increase in cytotoxicity against tumour-antigen expressing target cells, after co-culture with pulsed dendritic cells. The specificity of the cytotoxic effect could be shown by blocking the tumour-antigens with a monoclonal antibody. Autologous and allogenec untreated serums from patients with elevated tumour-marker levels were also used for pulsing of dendritic cells. Similar to the results when using total protein for pulsing, a cultivation in serum of patients with elevated tumour marker levels caused an intensified cytotoxic effect of effector cells against tumour cells in a dose-dependent manner. The intensified cytotoxicity was seen independent of the allogenec or autologous character of the serum. The immuno-stimulating effect of the patient serum could be neutralized by preceding heat inactivating. The highest cytotoxicity was achieved by a cultivation of dendritic cells in serum from patients with elevated tumour marker levels and additional pulsing with exogenous tumour antigen. Experiments with completely autologous systems reproduced the results made with cell-lines. Primary cultures of colorectal tumours were established. Dendritic cells were generated from the blood of tumour patients and were cultivated in autologous serum. Co-cultured autologous effector cells showed cytotoxicity when used against autologous tumour cells. Co-culturing of effector cells with dendritic cells caused modifications at both cell populations. Dendritic cells showed an increase expression of antigen-presenting and co-stimulatory molecules. CIK cells showed a higher proliferation-rate when co-cultured. They express more antigen-specific T-cell receptor, and the cytotoxic T-cells to T-helper cells ratio increased. ELISpot-assays showed an increase of interferon gamma producing cells. Dendritic cells were successfully transduced by using an inactivated adenovirus, which covalently binds poly-L- lysine. Dendritic cells express the molecules that enables adenoviral gene delivery on their surface. For the improvement of cytotoxicity dendritic cells were transduced with the gene encoding for the transactivator CIITA. CIITA transduced dendritic cells increases expression of MHC class II molecules. Cytotoxicity experiments with transduced dendritic cells resulted in an increased induction of non-specific cytolysis from co-cultured effector cells. DC pulsed with tumour-antigens may have a major impact on immunotherapeutic protocols for cancer patients. Immuntherapie Gastrointestinale Tumore Dendritische Zellen CIITA Immunotherapy colorectal cancer dendritic cells CIITA 570 Biologie 32 Biologie XH 7100 ddc:570
4	Dynamics of Human Leukocyte Antigen-D Related expression in bacteremic sepsis Cajander, Sara January 2017 (has links) Monocytic human leukocyte antigen-D related (mHLA-DR) expression determined by flow cytometry has been suggested as a biomarker of sepsisinduced immunosuppression. In order to facilitate use of HLA-DR in clinical practice, a quantitative real-time PCR technique measuring HLA-DR at the transcription level was developed and evalutated. Levels of HLA-DR mRNA correlated to mHLADR expression and were robustly measured, with high reproducibility, during the course of infection. Dynamics of mHLA-DR expression was studied during the first weeks of bloodstream infection (BSI) and was found to be dependent on the bacterial etiology of BSI. Moreover, mHLA-DR was shown to be inversely related to markers of inflammation. In patients with unfavourable outcome, sustained high C-reactive protein level and high neutrophil count were demonstrated along with low mHLA-DR expression and low lymphocyte count. This supports the theory of sustained inflammation in sepsis-induced immunosuppression. The association between mHLA-DR and bacterial etiology may be linked to the clinical trajectory via differences in ability to cause intractable infection. Staphylococcus aureus was the dominating etiology among cases with unfavourable outcome. With focus on patients with S. aureus BSI, those with complicated S. aureus BSI were found to have lower HLA-DR mRNA expression during the first week than those with uncomplicated S. aureus BSI. If these results can be confirmed in a larger cohort, HLA-DR measurement could possibly become an additional tool for early identification of patients who require further investigation to clear infectious foci and achieve source control. In conclusion, PCR-based measurement of HLA-DR is a promising method for measurements of the immune state in BSI, but needs further evaluation in the intensive care unit setting to define the predictive and prognostic value for deleterious immunosuppression. The etiology of infection should be taken into consideration in future studies of translational immunology in sepsis. monocyte HLA-DR sepsis immunosuppression bloodstream infection HLA-DRA CIITA qRT-PCR Family Medicine Allmän medicin
5	Toll-like Receptor 2-dependent Inhibition of Interferon gamma Signaling by <em>Mycobacterium tuberculosis</em> Pennini, Meghan E. 13 July 2006 (has links) No description available. Mycobacterium tuberculosis Antigen processing CIITA IFN-&947 signaling Toll-like receptor Chromatin remodeling C/EBP
6	Avaliação do fator CIITA como potencial adjuvante molecular para vacinas e imunoterapias / Evaluation of CIITA factor as a potential molecular adjuvant for vaccines and immunotherapies Palma, Mariana de Lucena 04 December 2015 (has links) O fator CIITA é a proteína responsável por controlar a transcrição de genes do complexo principal de histocompatibilidade de classe II (MHC II) envolvidos na apresentação antigênica a linfócitos T CD4+. A expressão desta proteína é complexa e célula-específica, dependendo de mecanismos de regulação transcricionais e póstranscricionais. Com o intuito de investigar o potencial do fator CIITA como adjuvante molecular, no presente estudo desenvolvemos e validamos sistemas de transferência gênica capazes de promover a eficiente expressão de CIITA em vários tipos celulares. Além disso, investigamos a regulação pós-traducional deste fator em células não hematopoéticas. Desta forma, foram produzidos um vetor plasmidial e um vetor lentiviral, ambos carreando a sequência do fator CIITA humano desenhada in silico visando a eliminação de elementos cis-reguladores, e otimizada para eficiente expressão em células humanas. A transfecção/transdução de três linhagens de células humanas não hematopoéticas resultou na eficiente expressão de CIITA com localização nuclear apropriada. Células expressando CIITA apresentaram síntese de novo do MHC II, confirmando a funcionalidade da proteína e validando ambos os vetores para a análise futura da atividade adjuvante do CIITA em imunizações gênicas. Ensaios preliminares de inoculação de explantes de pele humana com o vetor lentiviral evidenciaram a eficiente transdução e expressão do CIITA exógeno em células primárias. Em seguida, células dendríticas (DCs) derivadas de monócitos de indivíduos saudáveis ou infectados com HIV-1 foram transduzidas com o vetor lentiviral para confirmar a expressão do CIITA em células primárias e avaliar a aplicação desse sistema adjuvante no aprimoramento da vacina de DCs anti-HIV. DCs de indivíduos saudáveis ou infectados foram transduzidas com sucesso pelo lentivírus, o qual induziu uma produção prolongada do mRNA codificando CIITA. Entretanto, os vetores lentivirais induziram um aumento inespecífico da expressão de marcadores fenotípicos das DCs, incluindo as moléculas do MHC II, o que impediu a avaliação indireta da expressão e atividade do fator CIITA através da detecção da expressão aumentada do MHC II. Ensaios futuros irão avaliar se o fator transcricional é expresso pelas DCs transduzidas ou se essas células apresentam um controle mais restrito da expressão do CIITA comparadas às linhagens celulares avaliadas. Interessantemente, ensaios de western blot comparativos entre as três linhagens de células humanas transfectadas/transduzidas, juntamente com ensaios de inibição da degradação protéica pelo inibidor do proteassoma, nos permitiu descrever um novo mecanismo de regulação pós-traducional do CIITA. Aqui, nós identificamos que cada tipo de célula não hematopoética mantém níveis específicos da proteína, e portanto, da sua atividade transcricional, através da regulação da degradação do CIITA pelo proteassoma. Essa regulação é mediada pela modulação dos níveis das proteínas da leucemia promielocítica (PML) acopladas a proteínas SUMO (modificadores pequenos similares à ubiquitina), modificação pós-traducional requerida para a interação PML-CIITA que impede a degradação pelo proteassoma. Esse novo mecanismo aqui descrito contribui para o entendimento ainda incipiente da regulação pós-traducional do fator CIITA em células não hematopoéticas e pode ter implicações importantes na aplicação dessa proteína como adjuvante molecular para imunoterapias / The CIITA factor is a protein responsible for controlling the transcription of major histocompatibility complex class II (MHC II) genes involved on antigen presentation to CD4+ T helper cells. The expression of this transcription factor is complex and differs in various cell types depending on transcriptional and post-transcriptional regulatory mechanisms. In order to investigate the CIITA factor potential as molecular adjuvant, here we developed and validated two gene delivery systems capable of promoting efficient CIITA expression in various human cell types. Additionally, we applied the delivery systems to investigate the post-translational regulation of this factor in nonimmune cells. A DNA plasmid and a lentiviral vector were produced, both carrying the human CIITA DNA sequence in silico designed to avoid cis-regulatory elements, and genetic optimized for expression efficacy in human cells. Transfection or transduction of three different non-immune human cell lines resulted in efficient CIITA expression with proper nuclear localization. The CIITA-expressing cells presented de novo MHC II molecules expression confirming the functionality of the exogenous protein, and validating both delivery systems for the future analysis of the CIITA adjuvant activity in genetic immunizations. Preliminary assays involving the inoculation of the lentiviral vector into human skin explants showed efficient transduction and expression of exogenous CIITA in primary cells. Next, monocyte-derived dendritic cells (DCs) from healthy individuals and HIV-1-infected patients were transduced with the lentiviral vector to confirm the exogenous CIITA expression in primary human cells and also evaluate the applicability of this adjuvant system to improve the DC-based vaccines against HIV. DCs from healthy and infected individuals were successfully transduced by the lentivirus, which induced a sustained CIITA mRNA production. However, the vector particles by themselves induced an unspecific upregulation of DC`s phenotypic surface markers, including the MHC II molecules, impairing our strategy to indirectly evaluate CIITA expression and activity through the detection of MHC II enhanced expression. Further investigations are necessary to confirm whether the transcription factor is efficiently expressed in transduced DCs or if these cells present a more restrict control of CIITA protein expression than the evaluated non-immune cells. Interestingly, western blot assays comparing the three human cell lines, transfected or transduced, along with inhibition of protein degradation by proteasome inhibitor treatments, allowed us to describe a new and intricate mechanism of CIITA post-translational regulation. Here we identified that each non-immune cell type maintain specific protein levels, and hence transcriptional activity, by modulating the rate of CIITA proteasomal degradation. This modulation is achieved by controlling the levels of Promyelocytic Leukemia (PML) proteins attached to Small Ubiquitin-like Modifier (SUMO) proteins, a post-translational modification required for the PML-CIITA interaction, which impairs the proteasomal degradation. This new mechanism described here contributes to the developing understanding of the CIITA post-translational regulation in non-immune cells, and might have important implications in the use of this transcription factor as a molecular adjuvant for immunotherapies CIITA protein human MHC class II transactivator protein PML protein human Proteasome Proteassoma Proteína humana CIITA Proteína humana PML
7	Avaliação do fator CIITA como potencial adjuvante molecular para vacinas e imunoterapias / Evaluation of CIITA factor as a potential molecular adjuvant for vaccines and immunotherapies Mariana de Lucena Palma 04 December 2015 (has links) O fator CIITA é a proteína responsável por controlar a transcrição de genes do complexo principal de histocompatibilidade de classe II (MHC II) envolvidos na apresentação antigênica a linfócitos T CD4+. A expressão desta proteína é complexa e célula-específica, dependendo de mecanismos de regulação transcricionais e póstranscricionais. Com o intuito de investigar o potencial do fator CIITA como adjuvante molecular, no presente estudo desenvolvemos e validamos sistemas de transferência gênica capazes de promover a eficiente expressão de CIITA em vários tipos celulares. Além disso, investigamos a regulação pós-traducional deste fator em células não hematopoéticas. Desta forma, foram produzidos um vetor plasmidial e um vetor lentiviral, ambos carreando a sequência do fator CIITA humano desenhada in silico visando a eliminação de elementos cis-reguladores, e otimizada para eficiente expressão em células humanas. A transfecção/transdução de três linhagens de células humanas não hematopoéticas resultou na eficiente expressão de CIITA com localização nuclear apropriada. Células expressando CIITA apresentaram síntese de novo do MHC II, confirmando a funcionalidade da proteína e validando ambos os vetores para a análise futura da atividade adjuvante do CIITA em imunizações gênicas. Ensaios preliminares de inoculação de explantes de pele humana com o vetor lentiviral evidenciaram a eficiente transdução e expressão do CIITA exógeno em células primárias. Em seguida, células dendríticas (DCs) derivadas de monócitos de indivíduos saudáveis ou infectados com HIV-1 foram transduzidas com o vetor lentiviral para confirmar a expressão do CIITA em células primárias e avaliar a aplicação desse sistema adjuvante no aprimoramento da vacina de DCs anti-HIV. DCs de indivíduos saudáveis ou infectados foram transduzidas com sucesso pelo lentivírus, o qual induziu uma produção prolongada do mRNA codificando CIITA. Entretanto, os vetores lentivirais induziram um aumento inespecífico da expressão de marcadores fenotípicos das DCs, incluindo as moléculas do MHC II, o que impediu a avaliação indireta da expressão e atividade do fator CIITA através da detecção da expressão aumentada do MHC II. Ensaios futuros irão avaliar se o fator transcricional é expresso pelas DCs transduzidas ou se essas células apresentam um controle mais restrito da expressão do CIITA comparadas às linhagens celulares avaliadas. Interessantemente, ensaios de western blot comparativos entre as três linhagens de células humanas transfectadas/transduzidas, juntamente com ensaios de inibição da degradação protéica pelo inibidor do proteassoma, nos permitiu descrever um novo mecanismo de regulação pós-traducional do CIITA. Aqui, nós identificamos que cada tipo de célula não hematopoética mantém níveis específicos da proteína, e portanto, da sua atividade transcricional, através da regulação da degradação do CIITA pelo proteassoma. Essa regulação é mediada pela modulação dos níveis das proteínas da leucemia promielocítica (PML) acopladas a proteínas SUMO (modificadores pequenos similares à ubiquitina), modificação pós-traducional requerida para a interação PML-CIITA que impede a degradação pelo proteassoma. Esse novo mecanismo aqui descrito contribui para o entendimento ainda incipiente da regulação pós-traducional do fator CIITA em células não hematopoéticas e pode ter implicações importantes na aplicação dessa proteína como adjuvante molecular para imunoterapias / The CIITA factor is a protein responsible for controlling the transcription of major histocompatibility complex class II (MHC II) genes involved on antigen presentation to CD4+ T helper cells. The expression of this transcription factor is complex and differs in various cell types depending on transcriptional and post-transcriptional regulatory mechanisms. In order to investigate the CIITA factor potential as molecular adjuvant, here we developed and validated two gene delivery systems capable of promoting efficient CIITA expression in various human cell types. Additionally, we applied the delivery systems to investigate the post-translational regulation of this factor in nonimmune cells. A DNA plasmid and a lentiviral vector were produced, both carrying the human CIITA DNA sequence in silico designed to avoid cis-regulatory elements, and genetic optimized for expression efficacy in human cells. Transfection or transduction of three different non-immune human cell lines resulted in efficient CIITA expression with proper nuclear localization. The CIITA-expressing cells presented de novo MHC II molecules expression confirming the functionality of the exogenous protein, and validating both delivery systems for the future analysis of the CIITA adjuvant activity in genetic immunizations. Preliminary assays involving the inoculation of the lentiviral vector into human skin explants showed efficient transduction and expression of exogenous CIITA in primary cells. Next, monocyte-derived dendritic cells (DCs) from healthy individuals and HIV-1-infected patients were transduced with the lentiviral vector to confirm the exogenous CIITA expression in primary human cells and also evaluate the applicability of this adjuvant system to improve the DC-based vaccines against HIV. DCs from healthy and infected individuals were successfully transduced by the lentivirus, which induced a sustained CIITA mRNA production. However, the vector particles by themselves induced an unspecific upregulation of DC`s phenotypic surface markers, including the MHC II molecules, impairing our strategy to indirectly evaluate CIITA expression and activity through the detection of MHC II enhanced expression. Further investigations are necessary to confirm whether the transcription factor is efficiently expressed in transduced DCs or if these cells present a more restrict control of CIITA protein expression than the evaluated non-immune cells. Interestingly, western blot assays comparing the three human cell lines, transfected or transduced, along with inhibition of protein degradation by proteasome inhibitor treatments, allowed us to describe a new and intricate mechanism of CIITA post-translational regulation. Here we identified that each non-immune cell type maintain specific protein levels, and hence transcriptional activity, by modulating the rate of CIITA proteasomal degradation. This modulation is achieved by controlling the levels of Promyelocytic Leukemia (PML) proteins attached to Small Ubiquitin-like Modifier (SUMO) proteins, a post-translational modification required for the PML-CIITA interaction, which impairs the proteasomal degradation. This new mechanism described here contributes to the developing understanding of the CIITA post-translational regulation in non-immune cells, and might have important implications in the use of this transcription factor as a molecular adjuvant for immunotherapies Proteassoma Proteína humana CIITA Proteína humana PML CIITA protein human MHC class II transactivator protein PML protein human Proteasome
8	Interaction between estrogen and interferon gamma signaling pathways in the regulation of major histocompatibility complex class ii expression in breast cancer cells / Interaction entre les voies d’activation de l’estrogène et de l’interféron gamma dans la régulation de l’expression du complexe majeur d’histocompatibilité de classe ii dans des cellules de cancer du sein Leon Machado, Jorge Alfonso January 2017 (has links) Abstract : Activation of the antigen presentation mechanisms by cancer cells is one of the main pathways used by the immune system for tumor detection and suppression. Induction of the expression of molecules of the Major Histocompatibility complex class II (MHC-II) by the interferon- (IFN) is important for the efficient presentation of tumor antigens. Nevertheless, it has been observed that expression of these molecules is supressed in tissular contexts where the concentration of estradiol (E2) is high. In this work we attempted to explain if the down-regulation exerted by estradiol on the expression of the MHC-II molecules in breast cancer cells was mediated by a silencing effect of the estrogen receptor- (ER) through a possible estrogen receptor binding site (ERBS) in the locus of promoter IV (pIV) of the master regulator of MHC-II expression, the class II transactivator (CIITA). The breast cancer cell line MDA-MB-231 (ER-/ERβ-) and its stable transfectants MC2 (ER+) and VC5 (empty vector) were used as model cell lines. Expression of the MCH-II molecules is controlled by CIITA, and stimulation with IFN activates the transcription of the pIV of CIITA. Stimulation of these cell lines with IFN induced expression of the MCH-II molecules and addition of E2 repressed such expression only in the MC2 cell line, as observed by flow cytometry analysis. Six other breast cancer cell lines were tested, with only the MCF7 cell line showing a significant inhibition. Then we analyzed if the inhibition of the MHC-II expression was due to a down-regulation of CIITA. Protein analysis performed by western blot and mRNA quantification by RT-qPCR both revealed down-regulation of CIITA in the cells exposed to IFN+E2 compared to those treated only with IFN. However, reporter gene analysis did not demonstrate any influence of our candidate ERBS in the inhibition of the activation of CIITA-pIV. ChIP-seq analysis of the VC5 and MC2 cell lines for ER also failed to demonstrate any binding of the receptor anywhere in the vicinity of the CIITA locus. However gene ontology and disease ontology analysis of the sequencing data showed a higher activation of tumorigenic cellular pathways in the cells treated with IFN + E2 than in the cells treated only with E2. These results suggest that activation of the inflammatory pathways by IFN could exert a detrimental effect on the cancer development. / Résumé : L’activation des mécanismes de présentation antigénique par les cellules cancéreuses est l’une des voies principales employées par le système immunitaire pour la détection et la suppression des tumeurs. L’induction de l’expression de molécules du complexe majeur d’histocompatibilité de classe II (CMH-II) par l’interféron- (IFN) est importante pour la présentation efficace des antigènes tumoraux. Cependant, il a été observé que l’expression de ces molécules est supprimée dans certains tissus dans lesquels la concentration d’estradiol (E2) est élevée. Dans ce travail, nous avons tenté de déterminer si l’inhibition exercée par l’estrogène (E2) sur l'expression des molécules du CMH-II dans des cellules de cancer du sein est médiée par un effet de silençage du récepteur de l’estrogène- (ER) à travers d’un possible site de liaison de récepteur d'estrogène (ERBS) dans le locus du promoteur IV du régulateur clé de l’expression du CMH-II, CIITA. La lignée cancéreuse mammaire cellulaire de cancer de sein MDA-MB-231 (ER-/ERβ-) et ses transfectants stables MC2 (ER+) et VC5 (vecteur vide) ont été utilisés comme des lignées cellulaires modèles. L'expression des molécules du CMH-II est contrôlée par CIITA, et la stimulation avec l’IFN active la transcription du pIV de CIITA. La stimulation de ces lignées cellulaires avec l’IFN induit l'expression des molécules du CMH-II et l'addition d’E2 réprime de cette expression seulement dans la lignée cellulaire MC2, telle qu'elle est observée par analyse de cytométrie de flux. Six autres lignées de cancer de sein ont été testées et seulement la lignée cellulaire MCF7 montrait une inhibition significative. Ensuite, nous avons analysé si l'inhibition de l'expression du CMH-II était due à une régulation de CIITA. L'analyse des protéines effectuée par Western blot et la quantification de l'ARNm par RT-qPCR quantitative ont révélé une inhibition de CIITA dans les cellules exposées à l’IFN + E2 par rapport à celles traitées seulement avec l’IFN. Cependant, des analyses avec un gène rapporteur n'ont pas démontré une influence quelconque de notre site de liaison de récepteur d'estrogène candidat dans l'inhibition de l'activation de CIITA-pIV. Des analyses de ChIP-seq dans les lignées cellulaires MC2 et VC5 pour l’ER n’ont également pas démontré la présence d’une liaison du récepteur dans le voisinage du locus de CIITA. Cependant, des analyses sur l'ontologie des gènes et des maladies sur les données de séquençage ont montré une activation accrue des voies cellulaires cancéreuses dans les cellules traitées avec IFN + E2 comparé avec les cellules traitées uniquement avec E2. Ces résultats suggèrent que l'activation des voies inflammatoires par l’IFN pourrait exercer un effet plus négatif qu’anticipé sur le développement du cancer. [Symboles non conformes] Breast cancer Antigenic presentation CIITA MHC-II Estrogen Interferon gamma Estrogen receptor binding site Cancer du sein Présentation antigénique CMH-II Estrogène Interféron gamma
9	Interference of Toxoplasma gondii with IFN-γ-regulated gene expression of its host cell / Beeinflussung der IFN-γ-regulierten Genexpression durch Toxoplasma gondii in seiner Wirtszelle Lang, Christine 04 May 2005 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Toxoplasma gondii IFN-gamma MHC Klasse II Stat1 GAS CIITA Promotor IV Histon H4 beta-Aktin Toxoplasma gondii IFN-gamma MHC class II Stat1 GAS CIITA promoter IV histone H4 beta-actin 42.36 42.15 42.13 WH WU

Search results