Designing and Building a Novel Magnetic Heating System to Investigate the Dependence of the Magnetic System and the Optical Emission from Nanoparticles

Algaddafi, Ali E.

January 2022

A Magnetic Heating Coil (MHC) has been designed, which has the potential to interact with magnetic Nanoparticles (NPs) to produce local temperature changes. The aim is to design a device capable of studying medically targeted magnetic-fluorescent core-shell NPs (with potential applications in cancer therapy via hyperthermia). Very little is known about how the magnetic-fluorescent NPs respond to magnetic fields and the effect this would have on their optical properties, therefore, considerable work is still required in order to understand the detailed interactions. Several modelling and simulations of the MHC were conducted besides developing the MHC that was designed and built for small samples of NPs (1-10ml volumes). Two different heating coil geometries were examined (coil A and coil B), where the former operates at 83 kHz and the latter operates at 125 kHz. Several tests for fluorescent emission, lifetime and anisotropy with several different NPs samples were conducted. We found that as the temperature increased from 5 °C to 45 °C, the fluorescence lifetime dropped from 3.8 ns to 3.6 ns. Also, the correlation time of the fluorescence in dilute solutions with varying temperatures from 20 °C to 40 °C was investigated, and it was found that decreased from 0.9 ns to 0.6 ns showing that the rotational diffusion of the dye increased and the molecules become more mobile. The MNPs were found to quench the fluorescent emission at high concentrations. Also, the MNPs induce only a small change in a lifetime from 3.9 ns to 3.4 ns. / Libyan Higher Ministry of Education

Magnetic heating coil (MHC)

Optical emission

Fluorescent

Magnetic

Nanoparticles

Life-time

Anisotropy

Electronic

Hyperthermia

Coil

Induction

A New Model to Investigate the Role of Intestinal Epithelial Cells in Gluten-Specific CD4+ T Cell Responses / GLUTEN-MEDIATED T CELL ACTIVATION BY MHC CLASS II-EXPRESSING EPITHELIUM

Rahmani, Sara

January 2024

Celiac disease is an autoimmune enteropathy driven by the ingestion of gluten in genetically predisposed individuals carrying HLA-DQ2 and/or -DQ8 genes. Currently, the only available treatment is a strict, life-long, gluten-free diet (GFD), which is very restrictive and not always effective, highlighting the need for alternative therapies. Celiac disease requires activation of both the innate (intraepithelial lymphocytes or IELs) and adaptive (lamina propria CD4+ T cells) arms of the immune system. Activation of these two pathways leads to the destruction of IEC and villous atrophy. Thus, IEC damage is a hallmark of CeD. However, IECs are not only the target of tissue damage; they also actively participate in CeD pathogenesis by translocating gluten peptides, expressing stress-induced markers, and releasing TG2 into the gut lumen to generate TG2-gluten complexes. Although IECs are known to express MHC, their role in gluten-dependent T cell activation has never been proven, partly because of the lack of an appropriate in vitro epithelial model expressing human MHC class II. This thesis aims to address this gap by developing a humanized organoid monolayer expressing the CeD risk gene HLA-DQ2.5, to investigate the interaction between IEC-gluten-T cells. The expression of epithelial MHC class II was evaluated in active and treated CeD patients, as well as in gluten-immunized and control (non-immunized; NI) DR3-DQ2.5 transgenic mice that express only CeD-associated MHC class II (HLA-DQ2.5). Active CeD patients and gluten-immunized DR3-DQ2.5 mice demonstrated higher expression of epithelial MHC class II compared with their treated and NI counterparts. Organoid monolayers developed from these mice and were treated with or without IFN-. Organoid monolayers derived from gluten-immunized DR3-DQ2.5 mice showed higher expression of MHC class II compared with NI mice, and this expression was upregulated by IFN- treatment. The functional consequences of MHC class II expression were determined by co-culturing organoid monolayers with CD4+ T cells in the presence of gluten and zein (a non-gluten protein). In the co-culture, gluten, but not zein, enhanced CD4+ T cell proliferation, activation, and release of cytokines, including IL-2, IFN- and IL-15, in the co-culture supernatants. Bacteria have recently emerged as modulators of inflammation in patients with CeD. It has been shown that opportunistic pathogens, including Pseudomonas aeruginosa, partially metabolize gluten into more immunogenic peptides. As such, the role of bacterially modified gluten in modulating the T cell response was assessed using the in vitro co-culture system I described. For this, monolayers were treated with the gluten pre-digested, or not, by elastase-producing P. aeruginosa or its lasB mutant. Gluten metabolized by P. aeruginosa, but not by the lasB mutant, significantly increased CD4+ T cell responses. In conclusion, MHC class II-expressing organoid monolayers are a functional model that can promote T cell responses under certain conditions. The model described in this thesis reveals a new immunomodulatory role for IECs in activating CD4+ T cells through MHC class II. This mechanism may serve to localize and further increase injury to the epithelium caused by gluten-specific CD4+ T cells in CeD. Therefore, therapeutics directed at IECs may offer a novel approach for modulating both adaptive and innate immunity in CeD, providing an alternative or adjuvant therapy to the current GFD treatment. / Thesis / Doctor of Philosophy (PhD) / Celiac disease is one of the most common food sensitivities, affecting approximately 1 in 100 people worldwide, including Canada. It occurs in people with specific genes (DQ2 and/or DQ8) when they eat gluten-containing foods such as wheat, barley, and rye. In people with celiac disease the immune system overreacts to gluten, damaging the lining of the upper gut, which we call “epithelium. This lining of cells constitutes the first barrier between the external world and our body, allowing in healthy conditions for nutrients to be absorbed but blocking the passage of gut microbes, some of which can cause disease or worsen gut inflammation. In patients with celiac disease, gluten crosses the epithelium into the gut tissue, where it activates specific cells of the immune system called “T cells”. Recently, there has been growing interest in whether the gut lining itself plays a role in triggering this immune response in celiac disease, though this has not yet been proven. If proven, this would suggest that the gut lining is responsible for directing the harmful immune response to gluten and should be considered a target site when developing therapies to prevent or treat celiac disease. This concept has been difficult to prove because we do not have a model to investigate this question. Such a model would require a gut lining that carries the genes linked to celiac disease. My thesis describes the development of such a model, made of a gut lining from a mouse genetically modified to carry human celiac disease genes. Using this model, I found that when the gut lining was exposed to certain molecules present in celiac patients (cytokines), it switched on other molecules that ultimately activated T cells. Additionally, I demonstrated that certain microbes, such as Pseudomonas aeruginosa, which are present in higher numbers in the upper gut of patients with celiac disease, can break down gluten into fragments that further activate T cells. The results validated the use of this model to understand what other co-factors can tip the balance in a person with celiac genes to remain healthy or develop inflammation. In summary, I demonstrated that the gut lining expressing celiac genes actively participates in the activation of immune cells that drive intestinal damage in celiac disease. This new model is a novel tool to continue to identify additional co-factors that predispose patients to celiac disease, as well as to screen for novel therapies for celiac disease. This is important, as the only currently available treatment is a strict lifelong gluten-free diet, which has many limitations, including frequent contamination and celiac disease reactivation.

Celiac disease

Organoid monolayers

MHC class II

Gluten

T cell activation

Microbial metabolism

Identifikation und immunologische Charakterisierung von MHC-Klasse-II-Peptidepitopen in humanen Leukämie- und Lymphom-assoziierten Antigenen / Identification and immunological characterization of MHC-class-II-peptide epitopes and antigens in human leukemia- and lymphoma-associated proteins

Piesche, Matthias

05 July 2006

No description available.

570 Biowissenschaften, Biologie

Mathematics and Computer Science

MHC-II

Peptidepitope

Survivin

CD4+ T-Zellen

Peptid-Vakzinierung

Tumor

MHC-II

Peptide epitopes

survivin

CD4+ T cells

peptide vaccination

tumor

44.45 Immunologie

WH

Développement de méthodes analytiques pour la protéomique et l'identification de peptides MHC I issus de cellules leucémiques

Fortier, Marie-Hélène

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal.

Peptides MHC I

MHC I peptides

Spectrométrie de masse

Mass spectrometry

Profil d'expression

Expression profiling

Microfluidique

Microfluidic

Chromatographie liquide capillaire

Capillary liquid chromatography

Leucémie

Leukemia

Transcriptome

Transcriptome

Immunothérapie

Immunotherapy

Rapamycine

Rapamycin

Voie de signalisation mTOR

mTOR signaling pathway

Probing molecular orientational order of lipid reporters and MHC Class I protein in cell membranes using polarization-resolved fluorescence imaging / Sonder l'orientation de l'ordre moléculaire de rapporteurs lipidiques et de protéines MHC de classe 1, au sein de la membrane cellulaire, en utilisant l'imagerie de fluorescence résolue en polarisation

Kress, Alla

29 November 2011

L'organisation orientationnelle bio-moléculaire des lipides et des protéines dans la membrane plasmique constitue un facteur important dans les processus biologiques au cours desquelles les fonctions peuvent être reliées aux mécanismes d'orientation et d'organisation. Le concept de séparation transitoire des phases à l'échelle nanométrique dans les domaines ordonnés et désordonnés, aussi appelé « radeau lipidique », est maintenant largement accepté. De plus, les domaines ordonnés contiennent des protéines de signalisation, ce qui souligne l'importance des séparations de phase au cours des processus de signalisation. Dans cette thèse de doctorat, nous avons étudié l'ordre orientationnel moléculaire de la protéine de signalisation MHC Class I et de reporters lipidiques tels que di-8-ANEPPQ et DiI(C18). Nous avons étudié l'ordre orientationnel moléculaire de la protéine de signalisation MHC Class I et des reporters lipidiques par imagerie d'anisotropie de fluorescence résolue en polarisation. Nous avons observé l'influence du cytosquelette d'actine sur l'ordre orientationnel moléculaire de la protéine MHC et des reporters lipidiques dans la membrane plasmique. De plus, nous avons trouvé que l'ordre orientationnel moléculaire des reporters dépend de la morphologie cellulaire. Nous avons examiné les plis membranaires en modifiant la forme des cellules de façon mécanique ou pharmacologique. / Biomolecular orientational organization of lipids and proteins in the plasma membrane is a crucial factor in biological processes where functions can be closely related to orientation and ordering mechanisms. The concept of transient nanosized phase separations in ordered and disordered domains, called "lipid rafts" is now widely accepted. Furthermore, the ordered domains are enriched in signaling proteins, which highlights the crucial impact of phase separation during the signaling processes. While this field has been so far largely addressed by studying the translational diffusion behavior of membrane proteins and lipid reporters by Single Molecule Tracking (SMT) or Fluorescence Correlation Spectroscopy (FCS), only little is known about the orientational behavior of signaling proteins and lipid reporters in the plasma membrane. In this PhD thesis we investigated the molecular orientational order of the signaling molecule MHC Class I protein using fluorescence anisotropy imaging as well as of lipid reporter di-8-ANEPPQ using polarization-resolved fluorescence imaging. Fluorescence anisotropy imaging requires a fluorescent label rigidly attached to the system under study, able to report its orientational order behavior. Thus, MHC Class I protein has been successfully labeled in a rigid way. We analyzed the orientational order of MHC Class I protein quantitatively in the endomembrane and plasma membrane and we found that the orientational order of MHC Class I protein in both membranes depends primarily on the maturation state of the protein and its interaction with the cytoskeleton.

Ordre orientationnel moléculaire

Protéine de signalisation MHC Class I

Rapporteurs lipidiques

Imagerie d'anisotropie

Fluorescence

Polarisation de la lumière

Molecular orientational order

Signalling protein MHC Class I

Lipid reporters

Anisotropy imaging

Fluorescence

Light polarization

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

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

Charakterizace imunitního systém s využitím MHC II/ EGFP knock-in myši / Studying immune system using MHC II/ EGFP knock-in mouse

Zadražil, Zdeněk

January 2012

The immune system is essential for keeping the integrity of multicellular organisms. We were able to make a step forward in studying the complex immune reactions in mammals in vivo and/ or in situ using the major histocompatibility complex (MHC) class II/ enhanced green fluorescent protein (EGFP) knock-in mouse model. Due to the EGFP visualization of MHC II expressing cells we were able to observe antigen presenting cells, which are essential for the onset of immune responses, in their natural environment. Thus, we report some original features of the immune system. We have identified MHC II+ cell clusters with unknown, probably unique function, in the intestine. We have also described MHC II+ cell migration to the lactating mammary gland and tested few hypotheses about the role of this phenomenon for the development of the mammary gland, milk secretion or infant immune system establishment. Lastly, we observed residential macrophages in the cornea. The presence of APCs in the cornea is a very contradictory issue due to the fact that cornea is an immunologically privileged tissue and therefore harbors special immune features. key words: antigen presenting cells (APC), major histocompatibility complex class II (MHC II), enhanced green fluorescent protein (EGFP), immune system, knock-in mouse model

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

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

Ex vivo Analyse antigen-spezifischer CD4+ T-Zell-Antworten im Infektionsmodell der murinen Listeriose

Schiemann, Matthias

25 November 2009

Antigen-reaktive CD4+ T-Zellen spielen eine wichtige Rolle bei der Entwicklung schützender Immunität. So sind Kenntnisse über die Bildung und Erhaltung CD4+ T-Zellen möglicherweise bedeutend für die Entwicklung verbesserter Impfstoffe und neuer Therapieansätze bei akuten und chronischen Infektionserkrankungen. Mit dieser Arbeit wurde eine genaue Charakterisierung CD4+ T-Zell-Antworten im Vergleich zu CD8+ T-Zellen am Infektionsmodell der murinen Listeriose vorgenommen. So konnten erstmals wichtige Unterschiede zwischen den beiden T-Zell-Kompartimenten beschrieben werden, insbesondere die Beobachtung, dass - im Gegensatz zu CD8+ T-Zellen - CD4+ Effektor-Gedächtniszellen nach bakterieller Infektion kontinuierlich im gesamten Organismus über die Zeit abnehmen.

Immunität

Antigen CD4

Antigen CD8

MHC Klasse II

MHC Klasse I

Tetramere

Impfstoff

Listeria monocytogenes

Listeria

BALB/c Maus

Gedächtniszelle

Durchflusscytometrie

Ex vivo

Listeriose

ddc:610

rvk:XG 2600

Pioneering studies on the gene order, DNA sequence and evolution of the MHC class I region in the new world primate Callthrix jacchus / Pionieruntersuchungen der Gen-Reihenfolge, DNA-Sequenz und Evolution der MHC-Klasse-I-Region in Neue-Welt-Primaten Callithrix jacchus

Mesa Herrera, Natalia Regina

05 July 2007

No description available.

500 Naturwissenschaften allgemein

Mathematics and Computer Science

MHC

Klasse-I-Region

Callithrix jacchus

Framework-Gen

Evolution

MHC

class I region

Callithrix jacchus

framework gene

evolution

42.64

WJL 000: Molekulargenetik {Biologie}