• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 2
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 8
  • 5
  • 4
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Immunoregulatory Mechanisms during Early Ontogeny

Hooper, Craig January 1983 (has links)
Note:
2

Biochemical and Functional Characterization of Inhibitory Leukocyte Immune-Type Receptors in the Channel Catfish (Ictalurus punctatus)

Montgomery, Benjamin Christian Sivert Unknown Date
No description available.
3

Characterization of Regulatory Mechanisms in Mucosal Immunity by Systems Immunology

Tubau Juni, Nuria 28 January 2020 (has links)
The mucosal immunity of the gastrointestinal (GI) tract is constituted by a complex, highly specialized and dynamic system of immune components that aim to protect the gut from external threats. The sustained exposure of the mucosal immune system of the GI tract to an enormous number of lumen antigens, requires the constant upkeep of a highly regulated balance between initiation of immune responses against harmful agents and the generation of immune tolerance towards innocuous antigens. Therefore, the regulatory component is key to preserve tissue homeostasis and a normal functioning of the system. Indeed, defective regulatory responses lead to the development of pathological conditions, including unresolved infections, and inflammatory diseases. In this study, we aim to elucidate novel mechanisms involved in host-pathogen interactions during Helicobacter pylori and Clostridium difficile infections. Indeed, this work integrates preclinical in vivo and in vitro experimental approaches together with a bioinformatics pipeline to identify and characterize novel regulatory mechanisms and molecular targets of the mucosal immune system during enteric infections. Firstly, we identified a novel regulatory mechanism during H. pylori infection mediated by a specific subset of IL10-producing tissue resident macrophages. Secondly, we employed an ex vivo H. pylori co-culture with bone marrow derived macrophages, that together with a global transcriptomic analysis and a bioinformatics pipeline, lead to the discovery of promising regulatory genes based on expression kinetics. Lastly, we characterized the innate inflammatory responses induced during the course of C. difficile infection and identified IL-1ß, and its subsequent induction of neutrophil recruitment, as a key mediator of C. difficile-induced effectors responses. The characterized regulatory mechanisms in this work show promise to lead the generation of new host-centered therapeutics through the modulation of the immune response as promising alternative treatments for infectious diseases. / Doctor of Philosophy / The immune system is responsible for protecting the human body from external threats. To achieve this goal, it must differentiate between harmless and harmful agents to only fight the latter. To combat these dangerous agents, the immune system induces highly controlled, inflammatory processes that aim to eliminate the external threat while minimizing the damage of human tissues and organs. The gastrointestinal tract is exposed to an enormous number of molecules, mostly harmless molecules from both the ingested food and the beneficial bacteria inhabiting the gut, but also from harmful bacteria and agents, only separated from the internal body structures by a thin layer called the epithelial barrier of the gut. The immune system responsible for the protection of the gastrointestinal tract includes an important regulatory component critical to maintain a proper gut function. This regulatory component regulates the generation of inflammatory processes to fight the dangerous agents, while blocking the responses against the inoffensive agents and preventing excessive tissue damage to maintain the integrity of the epithelial barrier. Indeed, a failure in the regulatory component results in severe consequences for the body's health, such as the inability to resolve infections. In this study, we aim to investigate the interaction between the human body and the enteric bacteria Helicobacter pylori and Clostridium difficile, to bring new insights in the regulatory component of the immune system of the gut. Moreover, the new mechanisms discovered in the regulatory system, might allow the development of new treatments for infectious diseases.
4

Vliv opioidů na imunoregulační a migrační vlastnosti mesenchymálních kmenových buněk. / The effect of opioids on immunoregulatory and migratory properties of mesenchymal stem cells.

Echalar, Barbora January 2020 (has links)
Opioids are one of the oldest analgesics used to relieve pain. Besides their therapeutic properties, they also have negative side effects, which include impaired tissue regeneration. Therefore, it can be assumed that opioids also have a negative effect on stem cells which are responsible for tissue healing. One of stem cell populations involved in wound regeneration are mesenchymal stem cells (MSCs). MSCs are undifferentiated, multipotent cells that could be find in almost all tissues. They have immunoregulatory properties and they can migrate to the site of inflammation or injury where they contribute to healing of tissues. Therefore, the purpose of this thesis was to evaluate the effect of morphine and methadone on properties and migration of MSCs. Their effect on the metabolic activity of MSCs and also on the production of cytokines and growth factors was measured. The effect of these opioids on the immunoregulatory properties of MSCs acting on both innate and adaptive immune cells in vitro was studied. The effect of morphine on expression of adhesive molecules on MSCs was also examined. Furthermore, the effect of morphine on migration properties of systemically administered exogenous MSCs in vivo was investigated in mouse models. Distribution of MSCs to individual organs and to the site of...
5

Estudo dos fatores regulatórios e pró-inflamatórios na urticária crônica idiopática e efeito imunomodulatório in vitro das estatinas / Study of regulatory and proinflammatory factors in chronic idiopathic urticaria and in vitro immunomodulatory effect of statins

Azor, Mayce Helena 12 August 2010 (has links)
INTRODUÇÃO: A urticária crônica igmaidiopática (UCI) é uma doença desencadeada pela desgranulação de basófilos e mastócitos com consequente liberação de histamina, sendo que o perfil imunológico nesta doença não é bem estabelecido. As estatinas, inibidores da 3-hidroxi-3-metilglutaril coenzima A redutase, apresentam efeitos antiinflamatórios e imunomodulatórios. O efeito desta droga tem sido estudado em muitas doenças inflamatórias crônicas, incluindo doenças autoimunes, mas não existem evidências na UCI. OBJETIVOS: O objetivo deste estudo foi analisar o efeito das estatinas na resposta imune e sua a influência na expressão de genes regulatórios e relacionados com a resposta inflamatória. MÉTODOS: A resposta limfoproliferativa a mitógenos e antígeno-específica de 22 pacientes com UCI e 41 controles na presença de estatinas (0,25-25 µM) foi analisada pela incorporação de timidina após 3 ou 6 dias de cultura. A progressão do ciclo celular e apoptose foi realizada pela incorporação de bromodeoxiuridina (Brdu) ao DNA após estímulo por PHA ou PWM e analisada por citometria de fluxo. A secreção de citocinas foi quantificada por ELISA e a expressão de mRNA de fatores regulatórios e pró-inflamatórios quantificados por real-time PCR. RESULTADOS: Os resultados evidenciaram que as estatinas em elevadas concentrações são capazes de inibir a capacidade mitogênica das células T e B seja dos indivíduos saudáveis ou de pacientes com UCI. A inibição da proliferação celular mediada pelas estatinas foi decorrente ao bloqueio na etapa inicial do ciclo celular (Fase G0/1), o que impediu o prosseguimento para outras fases do ciclo (S e G2/M). A diminuição da resposta proliferativa em resposta a um mitógeno como a PHA resultou na inibição da ativação celular pela estatina e a significante redução na produção de citocinas como IFN-?, IL-10, IL-17A e IL-5. Em contraste, o efeito modulatório das estatinas ao estímulo com LPS inibiu a produção de TNF-? e MIP-1? pelas células dos controles, mas não influenciou na produção de citocinas pró-inflamatórias pelas CMN dos pacientes com UCI. Somente a incubação prévia das células com as drogas, em alta concentração (25µM), foi possível verificar a modulação negativa na produção de IL-6 e MIP1-? para ambos os grupos, mas não para o TNF-? para os pacientes. A sinvastatina foi capaz exercer efeito modulatório mais pronunciado que a lovastatina na produção de citocinas induzidas por LPS. Os resultados evidenciaram que os pacientes com UCI possuem uma diminuição da expressão da enzima IDO e aumento de SOCS3 nas CMN. A sinvastina não altera esse perfil e previne a expressão de fatores inflamatórios como RORC?t e NALP3 inflamassomas. CONCLUSÕES: Em conjunto, os resultados sugerem um desequilíbrio dos mecanismos regulatórios que poderiam contribuir com a cronicidade e o perfil inflamatório na UCI. As estatinas apresentam maior efeito antiinflamatório que pró-inflamatório, sugerindo ter potencial clínico para o tratamento de doenças crônicas como a UCI. / INTRODUCTION: Chronic Idiopathic Urticaria (CIU) is a disease triggered by degranulation of basophils and mast cells with consequent histamine release and the CIU immunological profile is not well established. Statins, 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors, also display a broad immunomodulatory property. Statins have been studied in several chronic inflammatory diseases, including autoimmune disorders, but there are no evidences in CIU disease. OBJECTIVES: The aim of this study was to verify the effect of statins the immune response, and the expression of genes related to regulatory and inflammatory response focusing in CIU patients and healthy controls (HC). METHODS: Lymphoproliferative response to mitogens or recall antigens of 22 patients with CIU and 41 HC with statins (0,25-25µM) was analyzed by timidine incorporation after 3 or 6 days of cell cultures. Cell cycle progression and apoptosis were assessed by bromodeoxyiridine (BrDU) incorporation to DNA upon PHA or PWM stimulus by flow cytometry. Cytokines secretion was measured by ELISA and mRNA of regulatory and proinflammatory genes were analyzed by quantitative real-time PCR. RESULTS: The results showed that high concentrations of statins can inhibit the mitogenic capacity of T and B cells of HC or CIU patients. The inhibition of cell proliferation mediated by statins was due to blockage in the initial phase of the cell cycle (G0/1), which prevented progress to cycle phases (S and G2/M). The decreased proliferative response in response to PHA mediated by statin resulted in a significant inhibition of IFN-?, IL-10, IL-17A and IL-5 secretion levels. Statin effect in response to LPS showed inhibition of TNF-? and MIP-1? secretion by cells from HC, but did not influence the production by PBMC of CIU. It was necessary the pre-incubation of cells with drugs at high concentration (25µM) to verify the negative modulation of IL-6 and MIP1-? secretion in both groups, except for TNF-? in CIU. Simvastatin was able to exert more pronounced modulatory effect than lovastatin in cytokine production induced by LPS. Furthermore, CIU patients have a decreased expression of the enzyme IDO and increased of SOCS3 in PBMC, which were not modified by simvastatin, whereas prevented the upregulation of proinflammatory factor as RORC?t and NALP3 inflammasomes. CONCLUSIONS: Altogether, the results evidenced an imbalance of regulatory mechanisms that could contribute to chronic evolution and inflammatory profile in CIU. Statins exhibited more anti-inflammatory effects than proinflammatory, suggesting a potential clinical role for treatment in chronic diseases as CIU.
6

Estudo dos fatores regulatórios e pró-inflamatórios na urticária crônica idiopática e efeito imunomodulatório in vitro das estatinas / Study of regulatory and proinflammatory factors in chronic idiopathic urticaria and in vitro immunomodulatory effect of statins

Mayce Helena Azor 12 August 2010 (has links)
INTRODUÇÃO: A urticária crônica igmaidiopática (UCI) é uma doença desencadeada pela desgranulação de basófilos e mastócitos com consequente liberação de histamina, sendo que o perfil imunológico nesta doença não é bem estabelecido. As estatinas, inibidores da 3-hidroxi-3-metilglutaril coenzima A redutase, apresentam efeitos antiinflamatórios e imunomodulatórios. O efeito desta droga tem sido estudado em muitas doenças inflamatórias crônicas, incluindo doenças autoimunes, mas não existem evidências na UCI. OBJETIVOS: O objetivo deste estudo foi analisar o efeito das estatinas na resposta imune e sua a influência na expressão de genes regulatórios e relacionados com a resposta inflamatória. MÉTODOS: A resposta limfoproliferativa a mitógenos e antígeno-específica de 22 pacientes com UCI e 41 controles na presença de estatinas (0,25-25 µM) foi analisada pela incorporação de timidina após 3 ou 6 dias de cultura. A progressão do ciclo celular e apoptose foi realizada pela incorporação de bromodeoxiuridina (Brdu) ao DNA após estímulo por PHA ou PWM e analisada por citometria de fluxo. A secreção de citocinas foi quantificada por ELISA e a expressão de mRNA de fatores regulatórios e pró-inflamatórios quantificados por real-time PCR. RESULTADOS: Os resultados evidenciaram que as estatinas em elevadas concentrações são capazes de inibir a capacidade mitogênica das células T e B seja dos indivíduos saudáveis ou de pacientes com UCI. A inibição da proliferação celular mediada pelas estatinas foi decorrente ao bloqueio na etapa inicial do ciclo celular (Fase G0/1), o que impediu o prosseguimento para outras fases do ciclo (S e G2/M). A diminuição da resposta proliferativa em resposta a um mitógeno como a PHA resultou na inibição da ativação celular pela estatina e a significante redução na produção de citocinas como IFN-?, IL-10, IL-17A e IL-5. Em contraste, o efeito modulatório das estatinas ao estímulo com LPS inibiu a produção de TNF-? e MIP-1? pelas células dos controles, mas não influenciou na produção de citocinas pró-inflamatórias pelas CMN dos pacientes com UCI. Somente a incubação prévia das células com as drogas, em alta concentração (25µM), foi possível verificar a modulação negativa na produção de IL-6 e MIP1-? para ambos os grupos, mas não para o TNF-? para os pacientes. A sinvastatina foi capaz exercer efeito modulatório mais pronunciado que a lovastatina na produção de citocinas induzidas por LPS. Os resultados evidenciaram que os pacientes com UCI possuem uma diminuição da expressão da enzima IDO e aumento de SOCS3 nas CMN. A sinvastina não altera esse perfil e previne a expressão de fatores inflamatórios como RORC?t e NALP3 inflamassomas. CONCLUSÕES: Em conjunto, os resultados sugerem um desequilíbrio dos mecanismos regulatórios que poderiam contribuir com a cronicidade e o perfil inflamatório na UCI. As estatinas apresentam maior efeito antiinflamatório que pró-inflamatório, sugerindo ter potencial clínico para o tratamento de doenças crônicas como a UCI. / INTRODUCTION: Chronic Idiopathic Urticaria (CIU) is a disease triggered by degranulation of basophils and mast cells with consequent histamine release and the CIU immunological profile is not well established. Statins, 3-hydroxy-3-methylglutaryl coenzyme A reductase inhibitors, also display a broad immunomodulatory property. Statins have been studied in several chronic inflammatory diseases, including autoimmune disorders, but there are no evidences in CIU disease. OBJECTIVES: The aim of this study was to verify the effect of statins the immune response, and the expression of genes related to regulatory and inflammatory response focusing in CIU patients and healthy controls (HC). METHODS: Lymphoproliferative response to mitogens or recall antigens of 22 patients with CIU and 41 HC with statins (0,25-25µM) was analyzed by timidine incorporation after 3 or 6 days of cell cultures. Cell cycle progression and apoptosis were assessed by bromodeoxyiridine (BrDU) incorporation to DNA upon PHA or PWM stimulus by flow cytometry. Cytokines secretion was measured by ELISA and mRNA of regulatory and proinflammatory genes were analyzed by quantitative real-time PCR. RESULTS: The results showed that high concentrations of statins can inhibit the mitogenic capacity of T and B cells of HC or CIU patients. The inhibition of cell proliferation mediated by statins was due to blockage in the initial phase of the cell cycle (G0/1), which prevented progress to cycle phases (S and G2/M). The decreased proliferative response in response to PHA mediated by statin resulted in a significant inhibition of IFN-?, IL-10, IL-17A and IL-5 secretion levels. Statin effect in response to LPS showed inhibition of TNF-? and MIP-1? secretion by cells from HC, but did not influence the production by PBMC of CIU. It was necessary the pre-incubation of cells with drugs at high concentration (25µM) to verify the negative modulation of IL-6 and MIP1-? secretion in both groups, except for TNF-? in CIU. Simvastatin was able to exert more pronounced modulatory effect than lovastatin in cytokine production induced by LPS. Furthermore, CIU patients have a decreased expression of the enzyme IDO and increased of SOCS3 in PBMC, which were not modified by simvastatin, whereas prevented the upregulation of proinflammatory factor as RORC?t and NALP3 inflammasomes. CONCLUSIONS: Altogether, the results evidenced an imbalance of regulatory mechanisms that could contribute to chronic evolution and inflammatory profile in CIU. Statins exhibited more anti-inflammatory effects than proinflammatory, suggesting a potential clinical role for treatment in chronic diseases as CIU.
7

Étude de l’expression de la molécule d’adhérence CD146 dans les lymphocytes T

Grange, Cécile 04 1900 (has links)
Les tumeurs solides sont infiltrées par des cellules immunes (TIIC) dont la nature, la fonction et la composition varient d’un patient à l'autre. Ces cellules inflammatoires influencent l'invasion tumorale en contrôlant la croissance et le potentiel métastatique d’une tumeur. Ainsi, il est proposé d’utiliser cette infiltration comme outil diagnostic et pronostic de routine. Certaines cellules sont bien connues pour jouer un rôle important dans le contrôle de la progression tumorale, comme c’est le cas des lymphocytes T cytotoxiques CD8+ alors que d’autres possèdent un rôle contradictoire. Étant donné la dépendance des tumeurs sur l’équilibre entre ces différentes cellules, il est important d’identifier les fonctions précises des cellules immunes au sein de la tumeur. De nombreuses études sont réalisées afin d’identifier des marqueurs descriptifs du phénotype et la fonction des cellules immunes dans la tumeur. Ce projet de doctorat se divise en deux parties : 1- Identifier la méthode de désagrégation des tissus tumoraux altérant le moins la biologie des TIIC pour leur caractérisation. 2- Caractériser l’expression de la molécule d’adhérence CD146 dans les TIIC et en identifier l’origine. L’identification de marqueurs pour la caractérisation phénotypique et fonctionnelle des TIIC a été réalisée, entre autres, par la détection de protéines exprimées par la cellule. Dans la première partie de ce projet, nous avons démontré que les méthodes utilisées pour désagréger les tissus tumoraux dans le but d’isoler les TIIC induisent des changements dans la biologie de ces cellules ce qui peut fausser les conclusions qui en dérivent. Nous avons donc comparé l'impact de trois méthodes de désagrégation : une dissociation mécanique utilisant la MédimachineTM et deux digestions enzymatiques utilisant une collagénase de type I seule ou combinée à de la collagénase de type IV et de la DNase I de type II. Nous nous sommes intéressés à l'effet de ces méthodes sur des paramètres tels que la viabilité cellulaire, l’altération des protéines de surface et la capacité des cellules à proliférer. Nous avons démontré que ces méthodes affectent la viabilité des cellules de manière comparable, alors que la détection de certaines protéines de surface et la capacité de proliférer est réduite/inhibée par les traitements enzymatiques. Nous concluons qu’une méthode mécanique utilisant la MédimachineTM est mieux adaptée à la caractérisation des TIIC afin de conserver leurs propriétés. Dans la deuxième partie de notre projet, nous avons adapté cette méthode à la caractérisation des TIIC. Nous avons porté une attention particulière à la molécule d’adhérence CD146 dont l’implication dans la migration des cellules immunes à travers l’endothélium vers les sites d’inflammation est de plus en plus étudiée dans les maladies autoimmunes. Nous avons mis en évidence une augmentation des proportions de cellules immunes exprimant CD146 dans les tumeurs comparativement au sang de patients de cancers. Cette expression est induite par les cellules tumorales tout en étant accrue par la nécrose de celles-ci. Nous démontrons que ces cellules sont majoritairement des lymphocytes T CD4+ présentant un profil immunosuppressif. En conclusion, nos résultats suggèrent que CD146 participe à la mise en place du contexte immunitaire dans la tumeur et augmente la capacité de migration des lymphocytes T CD4+. L’induction par les cellules tumorales de cette molécule d’adhérence dans les cellules suppressives pourrait contribuer aux mécanismes immunorégulateurs mis en place par la tumeur. CD146 pourrait être un marqueur d’intérêt pour l’identification des cellules immunosuppressives et pour le développement de nouvelles thérapies. / Solid tumors are infiltrated by immune cells (TIIC), which vary in function and proportion from patient to patient. These inflammatory cells may contribute positively or negatively to tumor invasion, by controlling the growth and the metastatic potential of tumors. It has therefore been proposed to use infiltration as a diagnostic and prognosic tool. Certain cells play an important role in the control of tumor progression, as is the case of cytotoxic CD8+ T lymphocytes, whereas others present an ill-defined role. Since the progression of tumors depends on the balance between these cell types, it is important to identify their specific functions within the tumor. Many studies have therefore focused on identifying markers, which are suggestive of phenotype and function of immune cells in the tumor. This project is divided into two parts: 1 – The identification of a tumor tissue disaggregation method which induced minimal effects on TIIC biology. 2 – The characterization of the expression of the adhesion molecule CD146 in TIIC and understand its regulation. Marker identification for phenotypic and functional characterization of TIIC is carried out by detection of cell proteins. In the first part of this project, we showed that methods used to disaggregate tumor tissue in order to isolate TIIC induce changes in cell biology, which may alter results. We thus compared the effects of three disaggregation methods: mechanical disruption using MedimachineTM and two enzymatic digestions using a type I collagenase alone or combined with type IV collagenase and type II DNase I, on parameters such as cell viability, cell surface marker detection and cell proliferation. We showed that these methods affect cell viability in a comparable manner, whereas the detection of certain surface proteins and proliferative capacity of cells was reduced by enzymatic treatments. We concluded that a mechanical method using MedimachineTM is more suitable for the characterization of TIIC. In the second part of our project, we adapted this method to the characterization of TIIC. We focused on CD146, an adhesion molecule that was shown to be involved in immune cell migration in autoimmune disease. We demonstrated an increase of CD146+ immune cells in tumors compared to the blood of the same patients. This expression was shown to be induced by tumor cells and increased by necrosis. We showed that these cells are predominantly CD4+ T lymphocytes with an immunosuppressive profile. In conclusion, our results suggest that CD146 is involved in the establishment of the tumor immune environment and may increase the migratory capacity of CD4+ T cells toward tumors. Tumor cell induction of this adhesion molecule by suppressor cells could contribute to the immunoregulatory mechanisms established by tumors. CD146 may be a useful marker for the identification of immunosuppressive cells and development of new therapies.
8

Étude préclinique des lymphocytes T doubles-négatifs humains

Olazabal, Ainhoa 08 1900 (has links)
Les lymphocytes T CD4-CD8- (DN T, double négatif) sont une population de cellules T immunorégulatrices ayant la particularité d’inhiber les réponses immunitaires de façon spécifique à l’antigène, présentant donc un grand potentiel d’utilisation en immunothérapie. Des résultats précédents du laboratoire ont démontré sur des modèles murins qu’un transfert de cellules T DN contribuait à diminuer l’incidence du diabète de type 1 (T1D). De plus, d’autres groupes ont montré que ces cellules contribueraient également à la suppression de certaines lignées tumorales ainsi qu’à la médiation de la suppression de la maladie du greffon contre l’hôte (GVHD). L’étude présentée dans ce mémoire avait donc pour but d’évaluer le potentiel clinique des cellules DN T humaines en tant que thérapie cellulaire pour des pathologies telles que le diabète de type 1, le myélome multiple et la GVHD. Les cellules DN T circulent en très petite proportion dans le sang périphérique (1-5 %). Nous nous sommes donc penchés sur le potentiel de prolifération en culture cellulaire des cellules DN T, en développant un protocole adapté à leurs caractéristiques, qui permettrait de générer un nombre de cellules suffisant pour étudier leur phénotype et leur fonction in vitro et in vivo. Des études de cytométrie en flux ont révélé que les cellules DN T ayant subi le protocole d’activation et de culture cellulaire optimisé avaient un phénotype activé et non épuisé. De plus, des études fonctionnelles in vitro ont montré que les cellules DN T possédaient un pouvoir cytotoxique similaire aux cellules T CD8+ envers les lignées cellulaires tumorales Jurkat, NALM et RAJI. Enfin, nous avons tiré profit du modèle de souris NRG (NOD-Rag1nullIL2rgnull) pour étudier la survie en périphérie des cellules DN T humaines greffées, et leur pouvoir de prévention de la xéno-GVHD et d’un modèle de myélome multiple. L’ensemble de ces travaux a permis d’élargir les connaissances sur le phénotype et la fonction des cellules DN T chez l’humain, montrant qu’elles possèdent un potentiel thérapeutique intéressant pour certaines pathologies auto-immunes et néoplasiques en tant que thérapie cellulaire. / CD4-CD8- T lymphocytes (DN T, double negative) are a population of immunoregulatory T cells which seem to inhibit immune responses in an antigen-specific manner, and thus represent a great potential for use in immunotherapy. Previous studies in mice have shown that adoptive transfer of DN T cells decreases type 1 diabetes (T1D) incidence in otherwise autoimmune diabetes-prone mice. In addition, DN T cells also suppress the growth of certain tumor lines as well as reduce the severity of graft-versus-host disease (GVHD). The work presented in this thesis aimed to assess the clinical potential of human DN T cells as cell therapy for pathologies such as type 1 diabetes, multiple myeloma and GVHD. DN T cells compose 1 to 5% of lymphocytes in the peripheral blood. To circumvent the challenge of working with low cell numbers, we examined the proliferation potential of DN T cells in culture. Specifically, we adapted a cellular expansion protocol to their characteristics, in order to generate a sufficient number of cells to study their phenotype and their function in vitro and in vivo. Phenotypic characterization by flow cytometry revealed that DN T cells subjected to the optimized cell culture and activation protocol had an activated and not exhausted phenotype. In addition, in functional in vitro studies, DN T cells were shown to exhibit similar cytotoxic activity to CD8+ T cells, when the Jurkat, NALM and RAJI tumor cell lines were used as targets. Finally, we took advantage of the NRG mouse model (NOD-Rag1nullIL2rgnull) to study the peripheral survival of transplanted human DN T cells, and their potential to prevent xeno-GVHD and a model of multiple myeloma. All of this work has enabled us to broaden our knowledge of the phenotype and function of DN T cells in humans, showing that they have an interesting therapeutic potential for certain autoimmune and neoplastic pathologies as cell therapy.

Page generated in 0.0773 seconds