Variabilité de la résistance/tolérance des campagnols roussâtres à lhantavirus Puumala et conséquences épidémiologiques / Variability of resistance/tolerance to Puumala hantavirus virus in bank voles and epidemiological consequences

Guivier, Emmanuel

17 December 2010

Le campagnol roussâtre Myodes glareolus est le réservoir principal de l'hantavirus Puumala (PUUV) responsable de la néphropathie épidémique (NE) en Europe. L'objectif de cette thèse est de décrire la variabilité de la résistance / tolérance de M. glareolus à PUUV et d'explorer son rôle dans la distribution et la transmission de ce virus. Nous émettons l'hypothèse que la tolérance à PUUV favorise sa persistance et sa transmission, ce qui devrait accroître le risque d'émergence de la NE. Nous avons développé une approche gène candidat pour déterminer le rôle de trois gènes de l'immunité dans la résistance / tolérance à PUUV. L'existence d'associations positives entre les allèles du gène Drb et l'infection par PUUV d'une part et les relations négatives détectées entre le niveau d'expression du gène Tnf-α et la prévalence en PUUV d'autre part corroborent l'évolution d'une tolérance en zones d'endémie de la NE. Elle pourrait être sélectionnée en réponse au coût de la réponse inflammatoire développée contre PUUV. L'approche de génétique des populations a démontré le rôle de la dynamique des réservoirs dans l'épidémiologie de PUUV. La comparaison du polymorphisme des gènes Drb et Tnf-α et des patrons génétiques neutres semble cependant indiquer une faible influence de la sélection dans le polymorphisme de ces gènes. Ce résultat suggère un effet potentiellement important de la plasticité phénotypique dans les niveaux de résistance/tolérance observés. L'étude de la communauté d'helminthes a confirmé cette hypothèse en révélant l'impact de certaines espèces sur le risque d'infection à PUUV. / The bank vole Myodes glareolus is the main reservoir of Puumala hantavirus (PUUV), the agent of nephropathia epidemica (NE) in Europe. This work aims at describing the variability of M. glareolus resistance / tolerance to PUUV and at exploring its role in the distribution and transmission of the virus. We hypothesized that tolerance to PUUV should favour its persistence and transmission, what could increase the risk of NE emergence.We developed a candidate gene approach to determine the role of three immune genes in the resistance / tolerance to PUUV. Both the detection of positive associations between Drb alleles and PUUV infection and the negative relationship observed between Tnf-α gene expression and PUUV prevalence corroborated the evolution of tolerance in NE endemic areas. The costly inflammatory response activated against PUUV infection could mediate this evolution.Using landscape population genetics, we revealed the role of M. glareolus population dynamics in PUUV epidemiology. The comparison of Drb and Tnf-α genetic differentiation with the neutral pattern detected at microsatellites indicated that selection weakly acted on these immune genes. This result suggested the potential effect of phenotypic plasticity in the balance of resistance/tolerance to PUUV. The study of helminth communities confirmed this hypothesis as it revealed the impact of two nematode species on the risk of PUUV infection

Tolérance

Immunoécologie

Génétique du paysage

Virus Puumala

Myodes glareolus

Complexe majeur dhistocompatibilité

Tolerance

Immunoecology

Landscape genetics

Virus Puumala

Myodes glareolus

Major histocompatibility complex

The major histocompatibility complex, mate choice and pathogen resistance in the European badger Meles meles

Sin, Yung Wa

January 2014

Studies of the evolution of the major histocompatibility complex (MHC) have been central to the understanding sexual selection and pathogen-mediated selection. The European badger Meles meles is well suited for exploring such questions because of its life history characteristics, reproductive biology and mating system. In this thesis, I examined both MHC class I and class II genes. Seven putatively functional sequences were found for class I genes and four for class II DRB genes. Evidence of past balancing selection of both genes was demonstrated by the d_Nd_S ratio, by positive selection at the antigen-binding site (ABS) and by trans-species polymorphism of alleles within other mustelids and carnivores. MHC class I genes also showed evidence of concerted evolution, but domains showed different evolutionary histories. MHC genes may influence microbiota and odour of an individual and influence mating preferences. I examined the bacterial community of the subcaudal gland secretion and demonstrated a high number of bacterial species (56 operational taxonomic units), which cubs exhibited a higher diversity than adults. The microbiota may lead to an individual-specific odour as a cue signaling the MHC genotype of potential mating partners. I report the first evidence for a MHC- based mating preference in carnivores. Female badgers showed a MHC-assortative mate choice towards breeding with males that had functionally similar MHC genes, for MHC class II DRB genes. This applied to neighbouring-group matings. I also found considerable annual fluctuation in the occurrence of MHC-based mate choice. Based on genome-wide background in the same mating randomizations I found no evidence of inbreeding, which indicated that MHC similarity was apparently the actual target of mate choice. In line with MHC-assortative mate choice, MHC heterozygosity had no influence on the co-infection status. Individual MHC alleles did, however, associate with resistance and susceptibility to specific pathogens, suggesting that MHC diversity may be driven and maintained by pathogen-mediated selection through rare-allele advantages and/or fluctuating selection. My study of genetic characteristics, mate choice and pathogen pressures in a wild population revealed past and contemporary evolutionary process of the MHC genes. This increases knowledge of how the MHC may affect mating behaviour and sexual selection, ultimately influencing population processes.

599.7

Genèse de l’immunopeptidome du CMH de classe I

Caron, Etienne

04 1900

La différentiation entre le « soi » et le « non-soi » est un processus biologique essentiel à la vie. Les peptides endogènes présentés par les complexes majeurs d’histocompatibilité de classe I (CMH I) représentent le fondement du « soi » pour les lymphocytes T CD8+. On donne le nom d’immunopeptidome à l’ensemble des peptides présentés à la surface cellulaire par les molécules du CMH I. Nos connaissances concernant l’origine, la composition et la plasticité de l’immunopeptidome restent très limitées. Dans le cadre de cette thèse, nous avons développé une nouvelle approche par spectrométrie de masse permettant de définir avec précision : la nature et l’abondance relative de l’ensemble des peptides composant l’immunopeptidome. Nous avons trouvé que l’immunopeptidome, et par conséquent la nature du « soi » immun, est surreprésenté en peptides provenant de transcrits fortement abondants en plus de dissimuler une signature tissu-spécifique. Nous avons par la suite démontré que l’immunopeptidome est plastique et modulé par l’activité métabolique de la cellule. Nous avons en effet constaté que les modifications du métabolisme cellulaire par l’inhibition de mTOR (de l’anglais mammalian Target Of Rapamycin) provoquent des changements dynamiques dans la composition de l’immunopeptidome. Nous fournissons également la première preuve dans l’étude des systèmes que l’immunopeptidome communique à la surface cellulaire l’activité de certains réseaux biochimiques ainsi que de multiples événements métaboliques régulés à plusieurs niveaux à l’intérieur de la cellule. Nos découvertes ouvrent de nouveaux horizons dans les domaines de la biologie des systèmes et de l’immunologie. En effet, notre travail de recherche suggère que la composition de l’immunopeptidome est modulée dans l’espace et le temps. Il est par conséquent très important de poursuivre le développement de méthodes quantitatives au niveau des systèmes qui nous permettront de modéliser la plasticité de l’immunopeptidome. La simulation et la prédiction des variations dans l’immunopeptidome en réponse à différents facteurs cellulaires intrinsèques et extrinsèques seraient hautement pertinentes pour la conception de traitements immunothérapeutiques. / Self/non-self discrimination is a fundamental requirement of life. Endogenous peptides presented by major histocompatibility complex class I (MHC I) molecules represent the essence of self for CD8 T lymphocytes. These MHC I peptides (MIPs) are collectively referred to as the immunopeptidome. Very little is known about the origin, composition and plasticity of the immunopeptidome. Here, we developed a novel high-throughput mass spectrometry approach that yields an accurate definition of the nature and relative abundance of peptides presented by MHC I molecules. Surprisingly, we found that the immunopeptidome, and therefore the nature of the immune self, is biased toward peptides derived from highly abundant transcripts and conceals a tissue-specific signature. Then, we showed that the immunopeptidome is plastic and moulded by cellular metabolic activity. In fact, we found that altering cellular metabolism via the inhibition of the mammalian target of rapamycin (mTOR) results in dynamic changes in the cell surface MIPs landscape. Importantly, we provide the first systems-level evidence that the immunopeptidome projects at the cell surface a faithful representation of biochemical networks and metabolic events regulated at multiple levels inside the cell. Our discoveries open up new perspectives in systems biology and immunology. Indeed, our work suggests that the composition of the immunopeptidome is modulated in space and time. Therefore, it is imperative to further develop and exploit systems-level quantitative methods that will enable modelling of the immunopeptidome’s plasticity. Simulating and predicting variations in the immunopeptidome in response to cell-intrinsic and -extrinsic factors could be relevant to numerous contexts, including the rational design of immunotherapeutic interventions.

complexe majeur d’histocompatibilité

immunopeptidome

spectrométrie de masse

plasticité

mTOR

major histocompatibility complex

immunopeptidome

mass spectrometry

plasticity

Expressão de microRNAs circulantes relacionados ao diabetes tipo 1 autoimune / Expression of circulating microRNAs related to autoimmune type 1 diabetes (T1D)

Santos, Aritania Sousa

03 May 2018

INTRODUÇÃO: O diabetes tipo 1 autoimune (DM1A) está associado a alterações na imunidade inata e adaptativa. A agressão autoimune, órgão específica, determina a destruição das células beta do pâncreas e a deficiência da produção de insulina. O infiltrado inflamatório do tipo linfomononuclear, configurando a insulite, e a escassez ou a ausência das células ?, definem o quadro histológico do DM1A. Os autoanticorpos contra antígenos das células beta, que geralmente se desenvolvem na fase pré-clínica, conferem predisposição para DM1A. No entanto, é difícil definir quando e quais indivíduos progredirão para o diabetes manifesto, justificando a busca de outros biomarcadores que auxiliem nas indicações de tratamentos preventivos. Nesse contexto, sabe-se que os microRNAs (miRNAs), pequenos RNAs que atuam pós transcrição, desempenham papel crucial na regulação de genes, integrando fatores genéticos e ambientais e influenciando o funcionamento de órgãos e tecidos de maneira pontual ou sistêmica. OBJETIVOS: avaliar o envolvimento biológico e a relevância da expressão de miRNAs na resposta imunológica e na função das células ? na patogênese do DM1A. MÉTODOS: analisamos o perfil dos miRNAs séricos em 4 grupos, a saber: pacientes portadores de DM1A, até 6 meses do diagnóstico (DM1A recente), (n=30); pacientes portadores de DM1A com duração de 2-5 anos (DM1A 2-5)(n=26) e indivíduos com autoanticorpos pancreáticos positivos sem diabetes (AcP) (n=25), os quais foram comparados aos indivíduos controles saudáveis(n= 29). A expressão dos microRNAs foi obtida com ensaios individuais TaqMan® MicroRNA Assays 5x primers e TaqMan MicroRNA Human Array Card A, (Applied Biosystems- Forster City CA, USA) constituído por 377 alvos e 4 endógenos. Os dados de expressão foram analisados no Software Cloud, (Thermo Fisher Scientific) e no programa Limma (Linear Models for Microarray and RNA-Seq Data). RESULTADOS: Não houve diferença nas características demográficas, como idade, cor auto referida e sexo entre os grupos (p > 0,05). Pacientes portadores de DM1A (recente e com duração de 2-5 anos), diferiram do grupo controle pelos valores elevados de glicose, hemoglobina glicada, títulos de autoanticorpos pancreáticos, e menores de peptídeo C (p < 0,05) e foram semelhantes entre si. Os portadores de autoanticorpos (AcP) tinham características intermediárias entre os grupos: menores valores de HbA1c e de anticorpo anti-tirosina-fosfatase (anti-IA2) e maiores de peptídeo C em relação aos dois grupos com diabetes. Diferiram dos controles apenas pelos maiores títulos de anticorpo anti-insulina (IAA) e anti-descarboxilase do ácido glutâmico 65 (anti-GAD65). A frequência dos alelos HLA de risco para diabetes (-DR3 ou -DR4 e -DQ2 ou DQ-8) decresceu dos grupos DM1A recente e DM 2-5 para AcP e controles. Foram avaliados 135 miRNAs que estavam expressos em 20% ou mais das amostras dos quatro grupos analisados. Maior expressão foi observada em 13, 4 e 33 miRNAs dos grupos AcP, DM1A recente e DM1A 2-5 respectivamente e menor em 11, 7 e 31 miRNAs destes grupos. Destes, 4 miRNAs foram diferencialmente expressos nos grupos AcP, DM1A recente e DM1A 2-5 em relação ao grupo controle. Os miRNAs: miR -16, miR-195 e miR-454, relacionados com regeneração endócrina do pâncreas, efeito anti-inflamatório e resposta à injúria da célula ? estavam diminuídos nestes 3 grupos. O miR-200a, implicado em apoptose das células beta, estava aumentado nos grupos AcP e DM1A recente e diminuído nos pacientes com maior duração do diabetes (DM1A 2-5), possivelmente devido à escassez destas células. Outros 8 miRNAs apresentaram expressão diferente da do grupo controle em dois dos grupos avaliados, e tendência semelhante no terceiro grupo, sendo 4 deles elevados (miR-193a-5p, miR- 323-3p, miR-423-5p, e miR-92a) e 4, diminuídos (miR-191, miR-19a, miR- 376a, miR-590-5p) ou neutralidade no 3º grupo (miR-15b, miR-100, miR-181a e miR-483-5p) Resposta antagônica foi observada para o miR-25 e miR-485- 3p, diminuídos no grupo AcP e aumentados no DM1A 2- 5. Tais miRNAs estão relacionados com resposta imunológica, secreção de insulina, lesão de células ? e glicotoxicidade, à semelhança do observado para o miR-101-3p, validado por ensaios individuais numa casuística maior. CONCLUSÃO: nossos dados sugerem que miRNAs circulantes podem estar envolvidos na patogênese do DM1A / INTRODUCTION: Autoimmune type 1 diabetes (T1D) is associated with changes in innate and adaptive immunity. The organ-specific autoimmune aggression determines the destruction of beta-cells in the pancreas and the deficient insulin production. The inflammatory infiltration of the lymphomononuclear type, configuring the insulite, and the scarcity or the absence of the beta cells, define the histological picture of T1D. Autoantibodies against beta-cell antigens, which usually develop in the preclinical phase, confer predisposition to T1D. However, it is difficult to define when and which individuals will progress to overt diabetes, justifying the search for other biomarkers that could be indicative of preventive treatments. In this context, it is known that the microRNAs (miRNAs) - small RNAs that act post transcription - play a crucial role in regulating genes and in integrating genetic and environmental factors, influencing the function of organs and tissues in a punctual or systemic way. OBJECTIVES: to evaluate the biological involvement and relevance of miRNA expression in the immune response and ?-cell function in the pathogenesis of T1D. METHODS: we analyzed the profile of serum miRNAs of 4 groups, namely: patients with T1D up to 6 months after diagnosis (recent T1D), (n = 30); patients with T1D lasting 2-5 years (T1D 2- 5) (n = 26) and individuals expressing pancreatic autoantibodies without diabetes (AbP) (n = 25), which were compared to healthy controls (n = 29). Expression of the microRNAs was obtained with individual assays TaqMan® MicroRNA Assays 5x primers and TaqMan MicroRNA Human Array Card A (Applied Biosystems-Forster City CA, USA), consisting of 377 targets and 4 endogenous. The expression data was analyzed in the Cloud Software (Thermo Fisher Scientific) and Limma (Linear Models for Microarray and RNASeq Data) program. RESULTS: There was no difference in demographic characteristics, such as age, self-reported color, and sex among groups (p > 0.05). Patients with T1D (both recent and 2-5 years), similar to each other, differed from the control group by high glucose, glycated hemoglobin levels, pancreatic autoantibody titers, and lower C peptide values (p < 0.05) . Pancreatic autoantibodies (AbP) carriers had intermediate characteristics among the groups: lower HbA1c and anti-tyrosine phosphatase antibody (anti- IA2) values and higher C-peptide levels than the two groups with diabetes. They differed from controls only by the higher titers of anti-insulin (IAA) and anti-decarboxylase of glutamic acid 65 (anti-GAD65) autoantibodies. The frequency of high risk HLA alleles for diabetes (-DR3 or -DR4 and -DQ2 or DQ- 8) decreased from the recent T1D and T1D 2-5 groups to the AbP and controls. We evaluated 135 miRNAs that were expressed in 20% or more of the samples from the four groups analyzed. Higher expression was observed in 13, 4 and 33 miRNAs of the Abp, recent T1D and T1D 2-5 groups respectively and lower in 11, 7 and 31 miRNAs of these groups. Of these, 4 miRNAs were differentially expressed in the AbP, recent T1D and T1D 2-5 groups in relation to the control group.The miRNAs: miR -16, miR-195 and miR-454, related to endocrine regeneration of the pancreas, anti-inflammatory effect and response to beta-cell injury were decreased in these 3 groups. miR-200a, implicated in beta-cell apoptosis, was increased in the recent and decreased AbP and T1D groups in patients with longer duration of diabetes (T1D 2-5y), possibly due to the shortage of these cells. Another eight miRNAs showed different expression of the control group in two of the evaluated groups, and a similar trend in the third group, four of them high (miR-193a-5p, miR-323-3p, miR-423-5p, and miR- 92a ) and four, decreased (miR-191, miR-19a, miR-376a, miR-590-5p) or neutrality in the 3rd group (miR-15b, miR-100, miR-181a and miR-483-5p) was observed for miR-25 and miR-485-3p, decreased in the AbP group and increased in T1D 2-5y. Such miRNAs are related to immune response, insulin secretion, ?-cell damage and glycotoxicity, similar to that observed for the miR- 101-3p, validated by individual trials in a larger cohort. CONCLUSION Our data suggests that circulating miRNAs may be involved in the pathogenesis of T1D

Autoantibodies

Autoanticorpos

Autoimmunity

Autoimunidade

Biomarcadores

Biomarkers

Diabetes mellitus tipo 1

Diabetes mellitus type 1

microRNAs

Diversity and selection in the major histocompatibility complex: DQA and immune function in IRL and Atlantic bottlenose dolphins (Tursiops truncatus)

Unknown Date

The Major Histocompatibility Complex (MHC) encodes proteins critical to the vertebrate immune response; therefore MHC diversity is an indicator of population health. I have (1) Isolated exon 2 of the class II gene DQA in Tursiops truncatus in the North Indian River Lagoon (IRL) (n=17), South IRL (n=29) and adjacent Atlantic waters (n=20), (2) assessed genetic variability between groups, (3) developed a method to genotype individuals, (4) typed 11 unique alleles in 66 individuals, (5) detected geographic patterns of diversity between estuarine and coastal individuals (FST=0.1255, p<0.05), (6) found evidence of positive selection centered in the binding pockets P1, P6 and P9 of the peptide binding region (w=2.08), (7) found that patterns of polymorphism did not closely match patterns of diversity in neutral markers, (8) performed a pilot study with Orcinus orca. The initial findings highlight the need for further comparative work and suggest that silent mutations are not neutral. / by Tatiana Ferrer. / Thesis (M.S.)--Florida Atlantic University, 2013. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader.

Major histocompatibility complex

Immunogenetics

Molecular genetics

Endocrine disrupting chemicals

Dolphins--Geographical distribution

Population genetics

Social behavior in animals

Impacto do loco HLA-DPB1* em pacientes consanguíneos submetidos a transplantes de células tronco hematopoiéticas / Impact of HLA-DPB1* loco in consanguineous patients submitted hematopoietic stem cell transplantation

Braga, Jordana

21 May 2014

O requisito fundamental na seleção do par doador-receptor em Transplantes de Medula Óssea (TMO) é regido pelo sistema do Complexo Principal de Histocompatibilidade, ou seja, pelos mecanismos imunológicos mediados pelas moléculas dos Antígenos Leucocitários Humanos (HLA). No entanto as incompatibilidades HLA, podem influenciar de forma negativa ou positiva os resultados dos transplantes, através da Doença do Enxerto versus Hospedeiro e o efeito do enxerto versus Leucemia (EvL) respectivamente. Ainda é desconhecido o impacto do locus HLA-DPB1* neste contexto. Assim o presente projeto tem como objetivo a avaliação do impacto do HLA-DPB1* em transplantes de pacientes consanguíneos e a ocorrência de DECH. Para a tal finalidade, tipificamos o locus em questão utilizando a metodologia PCR-SSO, onde após a reação de amplificação da cadeia pela polimerase, realizamos a hibridização com uma sequência específica de oligonucleotídeos para tipificação do Loco HLA-DPB1*. Foram analisadas 826 amostras, sendo 413 pares de receptores e seus respectivos doadores familiares, submetidos a Transplantes de Células Tronco Hematopoiéticas, realizados na Unidade de Transplante de Medula Óssea de Curitiba da Universidade Federal do Paraná e da Faculdade de Medicina de Ribeirão Preto- USP. Observou-se que a presença de incompatibilidades HLA-DPB1* aumentam a chance dos receptores desenvolverem a doença do enxerto versus hospedeiro aguda, em graus mais graves. Assim, concluímos que a avaliação deste loco pode prevenir esta doença, e caso não haja outro doador, alerta o clínico quanto à utilização de medidas profiláticas. / The key requirement in the selection of the receptor-donor pair for bone marrow transplant is is defined by the Major Histocompatibility Complex, or by immunologic mechanisms mediated by molecules of the Human Leukocyte Antigens (HLA). However the post transplant complications due to HLA mismatches, as Graft versus Host Disease (GVHD) and graft failure are fundamental to the success of these transplants. Still unknown is the impact of loci HLA DPB1*, so this project aims to assess the impact of HLA - DPB1* in transplant patients consanguineous and assessing the impact of incompatibilities in HLA - DPB1 * GVHD. For this purpose, analyzed the loco in question using the PCR-SSO method, where after the amplification reaction polymerase chain, we performed hybridization with a sequence -specific primers for typing of HLA - DPB1* Loco. We analyzed 826 samples, 413 pairs of recipients and their respective donors, patients undergoing Hematopoietic Stem Cell Transplants performed in the Unit for Bone Marrow Transplantation in Curitiba, Federal University of Paraná and the Faculty of Medicine of Ribeirão Preto - USP. It was observed that the presence of mismatches HLA- DPB1* increase the chance of recipients develop chronic graft versus host disease, in more severe degrees. Thus, we conclude that the evaluation of this loci can prevent this disease and if no other donors alert the clinician to the use of prophylactic measures.

Bone Marrow Transplantation

Complexo Maior de Histocompatibilidade

Doença do Enxerto versus Hospedeiro

Graft versus host disease

HLA-DPB1*

HLA-DPB1*

Major Histocompatibility Complex

Transplante de Medula Óssea

Avaliação da história evolutiva do gene HLA-G por meio de polimorfismos de base única e da inserção AluyHG / Evaluation of the HLA-G gene history by single-based polymorphisms and AluyHG insertion

Santos, Kaisson Ernane dos

25 November 2013

Submitted by Luciana Ferreira (lucgeral@gmail.com) on 2017-01-04T13:00:39Z No. of bitstreams: 2 Dissertação - Kaisson Ernane dos Santos - 2013.pdf: 2738475 bytes, checksum: 6c79ab9177dd126fa5cb677127debc2c (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Approved for entry into archive by Luciana Ferreira (lucgeral@gmail.com) on 2017-01-04T13:01:13Z (GMT) No. of bitstreams: 2 Dissertação - Kaisson Ernane dos Santos - 2013.pdf: 2738475 bytes, checksum: 6c79ab9177dd126fa5cb677127debc2c (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) / Made available in DSpace on 2017-01-04T13:01:13Z (GMT). No. of bitstreams: 2 Dissertação - Kaisson Ernane dos Santos - 2013.pdf: 2738475 bytes, checksum: 6c79ab9177dd126fa5cb677127debc2c (MD5) license_rdf: 0 bytes, checksum: d41d8cd98f00b204e9800998ecf8427e (MD5) Previous issue date: 2013-11-25 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / The Major Histocompatibility Complex is mainly composed by genes of the adaptive immune response. In humans, part of this complex is known as the Human Leukocyte Antigens (HLA), whose genes are responsible for specific antigen presentation to effector immune cells. The classical class I HLA genes (HLA-A, -B and -C) are responsible for antigen presentation to T CD8+ cells and they constitute the most polymorphic genes in the human genome. This variability is maintained by selection mediated by microorganisms. In contrast to their classical counterparts, the non classical class I genes (HLA-G, -E and -F) present low variability and are associated with immune tolerance due to the interaction with NK and T cells inhibitor receptors. HLA-G is the most studied non classical gene, which is associated with immune response modulation, mainly during pregnancy. Considering that natural selection is acting on the HLA-G regulatory regions maintaining high heterozigosity in this region, we evaluated a nearby Alu insertion (AluyHG) correlating this Alu element with coding and 3’UTR HLA-G polymorphisms. The AluyHG insertion was particularly associated with the HLA-G haplotype known as G*01:01:01:01/UTR-1, considered a high-expressing HLA-G haplotype. The G*01:01:01:01/UTR-1/AluyHG haplotype would be the most recent HLA-G haplotypes, in spite of its high frequency in worldwide populations. / O Complexo Principal de Histocompatibilidade (MHC) é formado principalmente por genes que participam da resposta imunológica adaptativa. Entre esses genes encontramos o grupo denominado de Antígenos Leucocitários Humanos (HLA), que são responsáveis pela apresentação de antígenos específicos às células efetoras do sistema imunológico. Os genes HLA de classe I clássicos (HLA-A, -B e -C), responsáveis pela apresentação antigênica aos linfócitos T citotóxicos, são considerado como os mais polimórficos do genoma humano e de outros vertebrados. A variabilidade desses genes e elevada heterozigose é mantida por seleção mediada por microrganismos. Diferentemente dos genes clássicos, os genes HLA de classe I não clássicos (HLA-G, -E e -F) apresentam variabilidade reduzida e como função principal a tolerância imunológica, por meio de sua interação com receptores inibitórios presentes nas células NK e T. O HLA-G é o mais estudado entre esses genes e, devido sua importância como molécula imunomoduladora e sua importância em situações como gestação, e considerando evidências anteriores de seleção natural mantendo uma elevada heterozigose nas regiões regulatórias do HLA-G, avaliamos a presença de uma inserção Alu (AluyHG) próxima a este gene correlacionando os achados com a variabilidade contida nas suas regiões codificadora e 3’ não traduzida. A inserção AluyHG mostrou-se em desequilíbrio de ligação (LD) com os polimorfismos do gene HLA-G. Especificamente, o elemento inserido apresentou-se em LD com um haplótipo denominado G*01:01:01:01/UTR-1, considerado como um haplótipo de alta produção da molécula de HLA-G. Esse haplótipo aparentemente é o mais jovem entre humanos, apesar de sua elevada frequência nas populações estudadas até o momento.

Antígenos leucocitários humanos

HLA-G

Desequilíbrio de ligação

Haplótipos

AluyHG

Major histocompatibility complex

Human leukocyte antigens

HLA-G

AluyHG

Linkage disequilibrium

Haplotypes

GENETICA::GENETICA HUMANA E MEDICA

Rôle de l'ubiquitination dans le trafic cellulaire des molécules de présentation antigénique. / Role of the ubiquitination in the intracellular trafficking of antigen presenting molecules

De Angelis Rigotti, Francesca

12 April 2011

L’ubiquitinylation a été largement étudiée comme étant un mécanisme impliqué dans la régulation du trafic intracellulaire de nombreuses protéines membranaires. Mon travail a permis d’identifier MARCH-IX, une ubiquitine ligase exprimées dans les cellules de mammifères, comme un acteur important du trafic intracellulaire des molécules de présentation antigénique CD1a et CMH-I. En condition d'over-expression, MARCH-IX ubiquitinyle spécifiquement CD1a et CMH-I. Par ailleurs, en utilisant la technique d’ARN interférence, nous avons mis en évidence que l’ubiquitination des CMH I dépendante de MARCH IX facilite l’export des CMH I néosynthétisés du TGN vers la membrane plasmique et permet leur accès à des compartiments endosomaux. Notamment l’expression de MARCH-IX est régulée au niveau transcriptionnel pendant la maturation de DCs humaine; son expression est largement diminuée suite à l’activation des DCs plasmacytoïdes (pDCs), alors qu’elle augmente dans des DCs dérivées de monocytes (MoDCs) stimulées par du LPS. Ces résultats laissent envisager que MARCH IX puisse avoir un rôle important dans le contrôle de la présentation antigénique médiée par les CMH I dans les DCs humaines. Enfin, l’adressage intracellulaire des molécules de CD1a dans les MoDCs apparait également comme un processus régulé au cours de la maturation. Si CD1a est localisé à la membrane plasmique et dans des compartiments endosomaux précoce dans des cellules immatures, cette molécule n’apparaît plus qu’à la surface des cellules matures. Nous postulons donc que la régulation de MARCH-IX durant la maturation des MoDCs puisse être directement liée à la modification du trafic intracellulaire de CD1a. / Ubiquitination has been largely studied as regulator of the intracellular trafficking of several membrane proteins, inducing their internalization or their sorting from TGN to endosomes. Interestingly, pathogens adopted this mechanism to evade the immune response. For example, Kaposi’s sarcoma herpesvirus synthesizes two ubiquitin ligases, MIR1 and MIR2, which target the antigen presenting molecule, MHC class I, inducing its internalization. We identified the mammalian ubiquitin ligase MARCH-IX as important factor in the intracellular trafficking of antigen presenting molecules, CD1a and MHC-I. In conditions of MARCH-IX over-expression, CD1a and MHC-I are ubiquitinated and they accumulated in early endosomes. In MARCH-IX silenced cells, the arrival of MHC-I at the plasma membrane appear to be delayed and MHC-I accumulates in the TGN. During dendritic cell maturation, MARCH-IX expression and CD1a intracellular localization showed a correlation, which is compatible with a role of the ubiquitin ligase in the export pathway of CD1a. We concluded that MARCH-IX acts on neo-synthesized molecules, facilitating their sorting from the TGN. In addition to the function analysis of MARCH-IX, we also investigated its ability to conjugate ubiquitin on non-conventional residues. Our results demonstrated that, differently from viral ubiquitin ligases, MARCH-IX could target MHC class I and CD1a only in presence of lysine residues on their cytoplasmic tail, suggesting a stronger restriction in the control of the ubiquitination mechanism on mammals.

Trafic intracellulaire

CD1a

Présentation antigénique

Cellules dendritiques

Ubiquitinylation

Intracellular trafficking

CD1a

Antigen presentation

Dendritic cells

Ubiquitination.

Genetic Aspects of Sexual Selection and Mate Choice in Salmonids

Forsberg, Lars

January 2008

The long-term genetic consequences of supportive breeding programs are not well understood. Nevertheless, stocking populations with hatchery-produced fish to compensate for losses of natural production are common practice, for example after constructions of hydroelectric power dams. Hatcheries typically fertilize eggs using ‘mixed-milt fertilizations’, without consideration to natural reproductive behaviours, and hence, natural selective regimes would be altered. Here, a series of experiments with focus on Mhc and mate choice in a population of brown trout (Salmo trutta L.) with a history of long-term stocking are presented. The major histocompatibility complex (Mhc) constitutes of genes coding for antigen presentation in the vertebrate immune system. In addition to the immunological function, Mhc genes might also influence reproductive behaviours such as mate choice. For example, in some species individuals are able to recognize Mhc genotypes of potential mates and to some extent base their mate choice on this information. Here, I address these questions on brown trout. Can the phenomena be observed in brown trout? Could such mechanisms help individuals to avoid inbreeding, or are other mechanisms important? How does the artificial rearing of fish for enhancement of natural populations relate to these issues? The results presented here, in combination with previous work, shows that several factors are important in the process of pair formation in salmonid species. For example, females of the studied population used more than a single criterion when choosing among the available mates Mhc genes and males with certain Mhc genotypes achieved more matings, possibly an effect from increased fighting ability. Further, the population appears to contain an unnatural high level of Mhc variation, and some results indicate that the population might suffer from outbreeding depression at the Mhc. These negative effects are most likely derived from compression of sub-populations after dam-construction, in combination with supportive breeding with no consideration to natural spawning behaviour.

Biology

mate choice

Mhc

Major histocompatibility complex

class IIB

disassortative

assortative

microsatellite

outbreeding

supportive breeding

population

population genetics

Biologi

Biology

Biologi

Studies On The Roles Of Intracellular Ca2+ And Reactive Oxygen Species During CD4+ T Cell Activation : Influence Of Signal Strength

Ahmed, Asma

07 1900

Optimal CD4+ T cell activation is key to the generation of a productive immune response. Naïve circulating CD4+ T cells are quiescent under normal conditions and undergo activation only upon encounter of the T cell receptor (TCR) with Major Histocompatibility Complex (MHC)-encoded class II molecules on antigen presenting cells (APCs). Processed antigens (derived from pathogens, tumors or self tissue during autoimmunity) in complex with MHC class II are recognized by specific TCRs on CD4+ T cells. After this encounter, the highly complex and regulated process of CD4+ T cell activation results in the differentiation of naïve T cells into effectors and their clonal expansion. Apart from binding to its cognate peptide-MHC-II complex, several other factors define the extent and magnitude of T cell activation. This context is an important determinant of the nature of the subsequent T cell response. One of the factors involved is the strength of the signal (SOS) which is delivered to the cell upon ligation of the TCR to the MHC-peptide complex. The SOS, which can vary from weak to strong, is determined by the affinity/avidity of the TCR for the MHC-peptide complex, antigen concentrations, the duration of engagement, etc. Extreme weak or strong signals can lead to non-productive T cell responses with the former resulting mostly in anergy and the latter in cell death. Signals of optimal strength are the ones that translate into functional T cell responses. However, mechanisms by which signal strength information is translated into distinct T cell responses are still not very well understood. Binding of the TCR to the MHC-peptide complex triggers several signaling cascades and leads to generation of intracellular signaling intermediates, including Ca2+. Rise in intracellular Ca2+ levels is one of the first events to occur upon initiation of T cell activation. The initial increase is brought about due to release of Ca2+ from intracellular smooth endoplasmic reticulum stores. Once intracellular stores have been emptied, the increase is sustained by a process termed as capacitative Ca2+ entry, involving opening of Ca2+ channels in the plasma membrane known as Ca2+ release activated channels (CRACs). Consequently, Ca2+ flows from the extracellular milieu into the cell. A sustained Ca2+ increase is essential for activation of the transcription factor, NF-AT whose primary job is to initiate transcription of IL-2, a cytokine crucial for CD4+ T cell proliferation. The other intracellular signaling intermediates which are the focus of work presented in this study are reactive oxygen species (ROS). TCR signaling leads to generation of ROS, which may be either mitogenic or detrimental to T cell activation. Low levels of ROS, especially H2O2, inactivate phosphatases leading to activation of kinases and signaling pathways resulting in increased proliferation. However, high levels of ROS cause oxidative stress leading to reduced T cell activation, hyporesponsiveness and death. The experimental system used for this study consists of purified mouse lymph node CD4+ T cells. These cells were activated with varying strengths of the primary signal to better understand the roles of Ca2+ and ROS in modulating T cell activation and function. The signal strength was either varied by addition of different concentrations of ionomycin or thapsigargin, pharmacological agents that increase intracellular Ca2+ concentrations. Alternatively, signal through the surface TCR-CD3 complex was initiated using anti-CD3 in two modes: soluble (weak signal) or plate immobilized (strong signal). Increasing concentrations of ionomycin or thapsigargin or changing the mode of anti-CD3 from soluble to plate bound enhances IL-2 amounts, thereby converting a weak signal to a strong one. The work presented has been divided into three parts, each dealing with a distinct aspect of T cell activation. I. SOS and CTLA4-CD80/CD86 interactions: The binding of the TCR to its cognate MHC-peptide complex delivers the primary signal. However, this alone is not sufficient to drive T cell activation and an additional costimulatory signal emanating from the binding of CD28, a constitutively expressed receptor on T cells, to its ligands CD80 and CD86 is required. Another receptor that binds to CD80 and CD86 is CTLA-4 although it does so with a ~100 fold higher affinity. CTLA-4, unlike CD28, is expressed upon T cell activation and is considered to downregulate T cell activation. Its role as a negative regulator is highlighted by the phenotype of Ctla4 -/-mice which die of massive lymphoproliferation. However, there have also been reports of some plasticity in the effects mediated by CTLA-4. Previous work from our laboratory showed that CTLA-4-CD80/CD86 interactions could either inhibit or stimulate T cell activation depending on the SOS. To identify the molecular mediators of the differential effects of CTLA-4, the role of Ca2+ and ROS was evaluated. During activation with phorbol myristate acetate (PMA) and low amounts of ionomycin, intracellular amounts of Ca2+ were greatly reduced upon blockade of CTLA-4-CD80/CD86 interactions. Further experiments demonstrated that CTLA4-CD80/CD86 interactions reduced cell cycling upon activation with PMA and high amounts of ionomycin or thapsigargin (strong SOS) but the opposite occurred with PMA and low amounts of ionomycin or thapsigargin (weak SOS). These results were confirmed by activating cells with anti-CD3 either in the soluble or plate bound form. Considerably higher amounts of intracellular Ca2+ were present in cells activated with plate bound anti-CD3 compared to those activated with soluble anti-CD3. These amounts, further augmented by CTLA-4-CD80/CD86 interactions, probably became toxic to cells as increased proliferation was observed, using reagents that blocked these interactions. The opposite, however, was seen in cells activated with soluble anti-CD3. Also, CTLA4-CD80/CD86 interactions enhanced the generation of ROS. Studies with catalase revealed that H2O2 is required for IL-2 production and cell cycle progression during activation with a weak SOS. However, the high amounts of ROS produced during activation with a strong SOS reduced cell cycle progression. Together, this study identifies intracellular Ca2+ and ROS to play important roles in the modulation of T cell responses by CTLA4-CD80/CD86 interactions. II. SOS and CD4 downregulation: This study was initiated to identify early T cell functional responses that would help predict the strength of the primary signal. Using the in vitro culture system of varying signal strengths, it was found that CD4 surface expression was controlled by signal strength. CD4 is a surface glycoprotein expressed on the TH subset along with the TCR. It performs two main functions: First, binding to MHC class II and strengthening the TCR-MHC interaction, i.e. functioning as a coreceptor. Second, due to its association with p56lck a src family tyrosine kinase, the presence of CD4 along with the TCR enhances signal transduction. Also, CD4 acts as a receptor for entry for the AIDS virus. It is known that CD4 is downregulated from the surface and degraded upon T cell activation by a protein kinase-C dependent process in human and mouse T cells. Experiments presented in this study showed increased CD4 downregulation with a strong signal. The roles of intracellular mediators were assessed and high intracellular Ca2+ amounts, but not PMA activation, was required for sustained CD4 downregulation. Also, increased H2O2 amounts in cells activated with a strong SOS inhibited CD4 downregulation. Most interestingly, the pattern of CD4 downregulation was different between peripheral T cells and thymocytes, suggesting a correlation with CD4+ T cell development. III. Modulation of CD4+ T cell activation by small molecule plant growth regulators: An important area of investigation in T cell biology is the identification of molecules that modulate T cell activation. Towards this end, the mechanisms by which small molecule plant growth regulators, naphthalene acetic acid (NAA), 2,4 dichlorophenoxyacetic acid (2,4D) and indole acetic acid (IAA), influence CD4+ T cell activation was studied. It is useful to recall that IAA is the natural auxin present in plants, NAA is a synthetic auxin and 2,4D is a herbicide. These compounds, but not structurally similar control molecules, increased the activation and IL-2 production in CD4+ T cells activated with either soluble anti-CD3 or a combination of PMA and ionomycin. An investigation into the mechanisms of action by these compounds revealed increased early generation of intracellular ROS and Ca2+. Interestingly, the nature of their effects was found to rely on the strength of the primary signal: IL-2 and proliferation were increased in cells activated with a weak signal, but lowered proliferation was observed in cells activated with a strong signal. Cells activated with strong signal posses high amounts of ROS and Ca2+ and further increase in their amounts by IAA, NAA and 2,4D resulted in growth suppression. However, augmentation of Ca2+ and ROS amounts in cells activated with a weak signal was mitogenic. The role of these compounds during in vivo T cell responses needs to be addressed. Taken together, results presented in this study emphasize the importance of the role of SOS in determining T cell responses. In addition, the roles of Ca2+ and ROS downstream of the primary signal in modulating CD4+ T cell activation were demonstrated.

Signal Transduction

Biomedical Signal Processing

T Cells - Receptors

T Cells - Activation

Reactive Oxygen Species

Major Histocompatibility Complex

T Cell Responses

T Cell Signalling

Biomedical Engineering