Epigenetická regulace genů pro HLA II. třídy ve vztahu ke stárnutí organismu / Epigenetic regulation of HLA class II genes in relation to senescence of organism

Říhová, Adéla

January 2015

Introduction: Glycoproteins of the major histocompatibility complex (MHC) are an irreplaceable part of immune response regulation and immune homeostasis maintenance. The regulation of the expression plays an important role in adaptive immune response. Recently, DNA methylation in regulatory areas, crucial for DNA availability to transcription factors, is one of the most researched mechanisms of this type of regulation. The DNA methylation is, among others, related to the aging processes. Increased predisposition age-related immunosenescence in higher age could result from the changes in methylation status of regulatory areas of MHC class II genes. Aims: The aim of this thesis is to analyze the methylation status of regulatory areas of DQB1 gene and to compare the differences between generations and specific alleles. The differences in the levels of DQB1 gene mRNA transcription between generations and specific alleles is also compared. Methods: Both DNA and RNA were isolated from blood samples obtained from donors of three different age groups. DNA was genotypized and modified by bisulfite conversion. The regulatory areas of DQB1 genes were then amplified and subcloned into bacteria. The positive clones were selected and subjected to DNA methylation analysis. RNA was reverse transcribed into cDNA...

Glaukom - genetická analýza rodiny ve vztahu k autoimunitnímu pozadí / Glaucoma - family-based genetic analysis in relation to autoimmunity

Buchtelová, Aneta

January 2019

Introduction: Recent findings about the pathogenesis of glaucoma have already demonstrated the presence of some specific autoimmune mechanisms. It has also been shown that autoimmune diseases often manifest in co-occurrence, such as celiac disease and type 1 diabetes mellitus or psoriasis. This association can be explained by sharing some of the risk variants of HLA molecules class II. Considering glaucoma an autoimmune disease, the question raises how the glaucoma genetic risk factors affect the phenotype of another autoimmune disease or vice versa, whether genetic risk variants associated for example with celiac disease can affect the glaucoma phenotype. Aims: The aims of this study were to i) identify possible genetic risk markers associated with the development of glaucoma, based on the available literature, and to map their occurrence among members of a three-generation family suffering from glaucoma and multiple autoimmune diseases, ii) find carriers of HLA-DQ2/DQ8 among the members of the same family, iii) verify whether an individual's genotype correlates with his/her phenotype, and iv) determine the potential effect of specific HLA alleles on the glaucoma phenotype. Material and methods: This study used DNA samples derived from 34 members of a three-generation family, in which coeliac...

Epigenetická regulace genů HLA II. třídy a jejich role u autoimunitních onemocnění. / Epigenetic regulation of HLA class II genes and their role in autoimmune diseases.

Čepek, Pavel

January 2012

Abstract Background: Type 1 diabetes (T1D) is a multifactorial autoimmune disease. Its incidence in Europe is continuously rising. The highest T1D risk is associated with HLA (human leukocyte antigen) class II genes. HLA class II molecules play a key role in regulation of immune response. They contribute to the selection of T cell repertoire by presenting antigenic peptides to the CD4+ T lymphocytes. HLA class II expression is controlled by regulatory module that is situated 150 - 300 base pairs upstream of the transcription- initiation site in all HLA class II genes. Polymorphisms in this region are linked to some autoimmune diseases. There were identified several promoter alleles (named QAP) in the HLA DQA1 gene promoter region. Most of the polymorphisms appear to be conserved within haplotype. Individual QAP alleles may have a different promoter strength by which they influence expression of HLA DQA1 gene alleles. Promoter strength can be modulated by DNA methylation. Aims:Our aim was to define methylation profile of HLA DQA1 promoters and determine the mRNA expression of individual alleles of HLA DQA1 gene in T1D patients. The mRNA expression level of HLA DQA1 gene alleles was determined using quantitative PCR. Methods: 30 diabetic pacients (age range 21 to 76 years), were included in this pilot...

Studium epigenetických regulací HLA genů II. třídy v rámci příbuzenských vztahů. / The study of epigenetic regulation of gene HLA II. Clas within family relationships

Chmel, Martin

January 2015

Introduction: At our post-genomic era the studies of epigenetic regulation constitutes one of the tools for understanding the function of genes. Epigenetic regulation can directly control the temporal and spatial gene activity or silencing. The molecular basis of these regulations are DNA bases modifications, chromatin remodeling and RNA interference. At the same time, these mechanisms have a special way of transferring genetic information to subsequent generations called epigenetic inheritance. It has been proven epigenetic deregulation of certain genes as cause for many disease. For this reason, the study of epigenome HLA genes seems particularly important because these genes play a fundamental role in regulating the immune system. Aims: The aim of this work is to create a description of epigenetic modifications within families. It is an analysis of histone modifications and DNA methylation in the promoter region of the gene HLA DQA1. The aim was also to compare the differences in epigenetic modifications between alleles and compared the differences in these modifications between generations. The results will be compared with the analysis of the level of expression of the gene HLA DQA1. Methods: From collected peripheral blood of donors were isolated DNA, RNA, and leukocytes. DNA was used for...

Genetic Risk Factors for Cervical Carcinoma <i>in situ</i>

Beskow, Anna

January 2003

<p>Oncogenic human papillomaviruses (HPVs) are implicated in 99.7 % of cervical cancer cases but require the co-operation of other factors. To investigate potential genetic risk factors we have typed the HLA class II DRB1 and DQB1 loci in 478 women diagnosed with cervical carcinoma in situ and in 608 age-matched controls. Quantitative measurements of HPV 16, HPV 18/45 and HPV 31 were obtained. The DRB1*1501 and DQB1*0602 alleles were found to increase the risk of HPV 16 infection. Carriers of DRB1*1501 and DQB1*0602 were also shown to have an increased risk of a higher viral load compared to non-carriers. The DRB1*1301 and DQB1*0603 alleles were found to protect from HPV 18/45 and 31 infections as well as resulting in a lower viral load in carriers compared to non-carriers. Women with a high HPV 16, 18/45 or 31 viral load were more prone to long-term infections and women with a low HPV 16 viral load were more prone to short-term infections. Carriers of DRB1*1501 and DQB1*0602 alleles were also shown to have an increased risk of long-term infections compared to short-term infections. We also tested if an HPV susceptibility locus found for epidermodysplasia verruciformis (EV) was also linked to HPV susceptibility in cervical cancer. We did not find any linkage to this locus in a set of 77 families, each with at least three cases diagnosed with cervical carcinoma in situ. Other potential risk factors tested were HPV 16 E6 variants together with a p53 codon 72 polymorphism and HLA class II alleles. We found an association between the E6 L83V variant and the HLA DR4-DQ3 haplotype, as well as an increased frequency of Arg homozygosity of p53 in women infected with the L83V variant. These results show that alleles at HLA class II loci represents risk factors for persistent HPV infection and thereby also contribute to the risk of development of cervical carcinoma <i>in situ</i>.</p>

Genetics

Cervical carcinoma

human papillomavirus

viral load

long-term infection

HLA class II

p53

E6 variant

Genetik

Clinical genetics

Klinisk genetik

Genetic Risk Factors for Cervical Carcinoma in situ

Beskow, Anna

January 2003

Oncogenic human papillomaviruses (HPVs) are implicated in 99.7 % of cervical cancer cases but require the co-operation of other factors. To investigate potential genetic risk factors we have typed the HLA class II DRB1 and DQB1 loci in 478 women diagnosed with cervical carcinoma in situ and in 608 age-matched controls. Quantitative measurements of HPV 16, HPV 18/45 and HPV 31 were obtained. The DRB1*1501 and DQB1*0602 alleles were found to increase the risk of HPV 16 infection. Carriers of DRB1*1501 and DQB1*0602 were also shown to have an increased risk of a higher viral load compared to non-carriers. The DRB1*1301 and DQB1*0603 alleles were found to protect from HPV 18/45 and 31 infections as well as resulting in a lower viral load in carriers compared to non-carriers. Women with a high HPV 16, 18/45 or 31 viral load were more prone to long-term infections and women with a low HPV 16 viral load were more prone to short-term infections. Carriers of DRB1*1501 and DQB1*0602 alleles were also shown to have an increased risk of long-term infections compared to short-term infections. We also tested if an HPV susceptibility locus found for epidermodysplasia verruciformis (EV) was also linked to HPV susceptibility in cervical cancer. We did not find any linkage to this locus in a set of 77 families, each with at least three cases diagnosed with cervical carcinoma in situ. Other potential risk factors tested were HPV 16 E6 variants together with a p53 codon 72 polymorphism and HLA class II alleles. We found an association between the E6 L83V variant and the HLA DR4-DQ3 haplotype, as well as an increased frequency of Arg homozygosity of p53 in women infected with the L83V variant. These results show that alleles at HLA class II loci represents risk factors for persistent HPV infection and thereby also contribute to the risk of development of cervical carcinoma in situ.

Genetics

Cervical carcinoma

human papillomavirus

viral load

long-term infection

HLA class II

p53

E6 variant

Genetik

Clinical genetics

Klinisk genetik

Etude de la réponse des lymphocytes T spécifiques de l’hormone humaine H2-relaxine et de modifications non-naturelles : perspectives pour la réduction de l’immunogénicité des protéines et peptides thérapeutiques / Study of the response of human hormone H2-relaxin-specific T-cells and non-natural modifications : perspectives for the reduction of the immunogenicity of therapeutic proteins and peptides

Azam, Aurélien

14 June 2018

Ce projet a accompagné le développement pré-clinique de l'hormone humaine Relaxine-2 (Rln2) ayant induit des anticorps durant des essais cliniques, il est axée autour de 2 problématiques : (1) comprendre son immunogénicité, (2) étudier l’impact de modifications chimiques sur l’immunogénicité afin d'augmenter sa stabilité.Compte tenu du rôle des lymphocytes T CD4 dans les réponses immunitaires, la fréquence de cellules T spécifiques de la Rln2 dans un large panel de donneurs sains a été estimée et a permis d’expliquer le développement d’anticorps anti-Rln2. La cartographie des épitopes T a ensuite identifié les zones portant son immunogénicité. Puis, 6 modifications chimiques (acide aminé D, acide aminé isobutyrique, peptoïde, N-méthylation, C-méthylation et réduction de la liaison peptidique) utilisées pour augmenter la demi-vie ont été introduites à la plupart des positions d’un peptide hautement immunogène. La reconnaissance par des cellules T, la liaison aux molécules de présentation et la capacité à induire des lymphocytes T CD4 ont été étudiées pour les peptides analogues modifiés. La plupart des modifications se sont révélées être très efficaces pour minimiser les propriétés immunogéniques.Ce projet de thèse se situe donc à la croisée des chemins entre l’acquisition de connaissances nouvelles en immunologie et leur application dans des processus de conception et de gestion des risques de peptides thérapeutiques. / This project has accompanied the pre-clinical development of the human hormone Relaxin-2 (Rln2) that induced antibodies during clinical trials, it focuses on two issues: (1) to understand its immunogenicity, (2) to study the impact of unnatural modifications on immunogenicity to increase its stability.Given the role of CD4 T-cells in immune responses, the frequency of Rln2-specific T-cells in a large panel of healthy donors was estimated, and explained the development of anti-Rln2 antibodies. The T epitope mapping then identified the areas responsible for its immunogenicity. Then, 6 unnatural modifications (D amino acid, amino isobutyric acid, peptoid, N-methylation, C-methylation & reduced peptide bond) used to increase the half-life were introduced at most positions of a highly immunogenic peptide. T-cell recognition, binding to HLA molecules and the ability to induce CD4 T-cells were studied for modified analog peptides. Most of the modifications were very effective in minimizing immunogenic properties.This thesis project is at the crossroads between the acquisition of new knowledge in immunology and its application in the process of design & risk management of therapeutic peptides.

Immunogénicité

Peptides thérapeutiques

Modifications non-Naturelles

Molécules HLA de classe II

Lymphocytes T CD4

Epitope T

Immunogenicity

Therapeutic peptides

Non-Natural modifications

HLA class II molecules

CD4 T-Cells

T epitope

Étude de la réponse en lymphocytes T CD4+ dirigée contre l’antigène tumoral Cycline B1 / Study of CD4+ T Cell Response to the Tumor Antigen Cyclin B1

Chevaleyre, Claire

12 December 2014

De nombreux antigènes de tumeur ont été identifiés depuis la découverte du premier antigène de tumeur humain il y a une vingtaine d’années, et plusieurs d’entre eux ont été utilisés comme antigène cible pour l’élaboration de vaccins thérapeutiques anti-Cancer. Cependant, les résultats des essais cliniques visant à évaluer l’efficacité de ces vaccins se sont la plupart du temps révélés décevants. Aussi, il reste indispensable d’identifier de nouveaux antigènes de tumeur cibles capables d’induire des réponses anti-Tumorales fortes et durables. Parmi les antigènes de tumeur considérés comme cibles potentielles pour un vaccin anti-Tumoral se trouve la Cycline B1, une protéine endogène impliquée dans la régulation du cycle cellulaire. Normalement exprimée de façon transitoire dans les cellules saines en division, cette protéine est surexprimée dans diverses tumeurs et est indispensable au développement tumoral. De plus, des réponses immunitaires spontanées spécifiques de cette protéine ont été observées chez des patients atteints de cancer. L’objectif de ma thèse était de caractériser la réponse en lymphocytes T CD4+, qui jouent un rôle capital dans la réponse immunitaire anti-Tumorale, spécifique de la Cycline B1 humaine chez des sujets sains et chez des patients atteints de cancer. Nous avons mis en évidence l’existence, chez des individus sains, de deux populations de lymphocytes T CD4+ préexistants spécifiques de cette protéine, à savoir des lymphocytes T CD4+ naïfs et des lymphocytes T CD4+ mémoires, cette seconde population lymphocytaire se retrouvant également chez des patients atteints de cancer. De multiples épitopes T CD4+ ont été identifiés dans cette protéine, et étaient différemment reconnus par ces deux populations de lymphocytes T CD4+. En outre, des anticorps IgG anti-Cycline B1 ont été détectés chez des patients atteints de cancer comme chez des individus sains, sans différence significative dans les taux d’anticorps entre ces deux catégories de sujets. Ainsi, cette étude montre que la Cycline B1 est un antigène de tumeur caractérisé par un profil singulier de réponses immunitaires, et confirme le potentiel vaccinal de cette protéine pour l’élaboration d’un vaccin anti-Cancer. / Many tumor antigens have been identified since the discovery of the first human antigen about twenty years ago, and some of them have been used as targets for the development of therapeutic cancer vaccines. However, most of the time, the results of clinical trials designed to assess the efficacy of these vaccines proved to be disappointing. Thus, it is still necessary to identify new tumor antigens able to induce strong and long-Lasting anti-Tumor responses that could be used as targets for cancer vaccine. Cyclin B1, an endogenous protein involved in cell cycle regulation, is one of the tumor antigens which are currently considered as potential targets for a cancer vaccine. Usually expressed transiently in healthy dividing cells, this protein is overexpressed in numerous tumors and is necessary for tumor development. Moreover, Cyclin B1 specific spontaneaous immune responses have been observed in cancer patients. My PhD work aimed at characterizing the response of CD4+ T cells, which play a major role in anti-Tumor immune responses, specific to human Cyclin B1 both in healthy individuals and cancer patients. We showed that, in healthy individuals, there exists two pre-Existing Cyclin B1 specific CD4+ T cell populations, namely naive CD4+ T cells and memory CD4+ T cells, the latter lymphocyte population being also found in cancer patients. Multiple CD4+ T cell epitopes have been identified in this protein, and were differently recognized by these two CD4+ T cell populations. Besides, anti-Cyclin B1 IgG antibodies have been detected both in healthy individuals and in cancer patients, without significant differences in antibody levels between these two groups of donors. Therefore, this work shows that Cyclin B1 is a tumor antigen characterized by a singular pattern of immune responses, and confirms the potential of this protein as a target for a cancer vaccine.

Cycline B1

Antigène de tumeur

Lymphocytes T CD4+

Molécules HLA de classe II

Épitopes T CD4+

Immunodominance

Vaccin anti-tumoral

Anticorps IgG

Cyclin B1

Tumor Antigen

CD4+ T lymphocytes

HLA class II molecules

CD4+ T cell epitopes

Immunodominance

Cancer vaccine

IgG antibodies