Rôle de l'ubiquitine ligase MARCH I dans l'induction de la tolérance des cellules dendritiques dans le diabète de type 1 (DT1) chez la souris NOD

Benabdallah, Ahmed

January 2012

Le diabète de type 1 (DT1) est une maladie auto-immune qui est caractérisée par la destruction des cellules R des îlots de pancréas. L'utilisation des modèles animaux comme la souris NOD a facilité la compréhension de la physiopathologie du DT1, car ces souris développent spontanément le diabète d'une façon similaire à l'homme. Les lymphocytes T auto-réactifs CD4 + et CD8+ jouent un rôle majeur dans le développement de cette maladie. Dans les conditions non pathologiques, les lymphocytes T auto-réactifs sont éliminés dans le thymus (tolérance centrale) ou maintenus en états d'anergie en périphérie (tolérance périphérique). En périphérie, les cellules dendritiques (CDs) de type tolérogènes induisent l'expansion et/ou la différenciation d'une population spécifique de lymphocyte T (Treg), qui contribue à la suppression de la prolifération et l'activation des lymphocytes T auto-réactifs. Certaines fonctions tolérogènes des CDs telle que la présentation d'antigènes est sous le contrôle de l'ubiquitine ligase MARCH I. MARCH I ubiquitine le CMH de classe II et les molécules de costimulation CD86 et prévient donc leurs expressions à la surface des cellules dendritiques, et ainsi l'inhibition de la stimulation de lymphocytes T. Le but de ce projet est: 1) de caractériser les niveaux d'expression de MARCH I dans les CDs tolérogènes générées en présence d'IL-10 en comparaison aux CDs immunogènes générées en absence d'IL-10, 2) de déterminer si la sur-expression de MARCH I chez CDs immunogènes de souris NOD rétablit leurs fonctions tolérogènes. Nos résultats montrent que les CDs de souris NOD générées en absence d'IL-10 expriment des niveaux très élevés de CMH de classe II et de molécules de costimulation (CD80 et CD86). Au contraire, les CDs générées en présence d'IL-10 résistent à la maturation, puisqu'une faible augmentation de l'expression du CMH II et des molécules de co-stimulation est observée suite à leur stimulation au LPS. Ces dernières produisent des quantités importantes d'IL-10 et des faibles quantités d'IL-12 et d'INF-y et expriment des niveaux très élèvés d'ARNm de MARCH I comparativement aux CDs générées en absence d'IL-10. Nous avons aussi montré que la transduction des CDs immunogènes par un lentivirus contenant le gène qui code pour MARCH I leur permet d'acquérir les propriétés des CDs tolérogènes. En effet, les CDs transduites par MARCH I expriment de faibles niveaux du CMH II, de CD80 et CD86 après stimulation au LPS. Nous avons aussi montré que les CDs transduites par le gène qui code pour MARCH I, dont la partie N-terminale 1 à 40 (? 1-40 ) ou 1 à 60 (?1-66 ) a été délétée, stabilisent l'expression de MARCH I tout en préservant leur capacité à diminuer l'expression du CMH de classe II et de CD86. Ainsi, ces conditions permettent d'obtenir des CDs tolérogènes qui pourront être utilisées comme thérapie cellulaire pour prévenir ou empêcher le développement du diabète chez la souris NOD. [Symboles non conformes]

Les molécules de costimulation CD86

CMH de classe II

MARCH I

Cellules dendritiques

Diabète de type 1

Therapeutic Implications of the 4-1BB Costimulatory Pathway on CD8 T Cells during Chronic HIV Infection

Wang, Chao

26 July 2013

A hallmark of chronic human immunodeficiency virus (HIV) infection is the impairment of CD8 T cell survival and effector functions, which likely contributes to HIV pathogenesis. A number of factors could be attributed to this impairment, including the declining number of CD4 T cells, progressive destruction of secondary lymphoid tissues and an increasingly inhibitory environment. As highly active antiretroviral therapy shows limited efficacy in improving CD8 T cell functions, this thesis explores the therapeutic application of costimulatory molecules in directly stimulating non-functional HIV-specific CD8 T cells and ultimately their relevance to the control of chronic HIV infection. Costimulatory molecules are adjuvants for functional activation of T cells that act in concert with the antigen-specific signal. The Tumor Necrosis Factor (TNF) family member, 4-1BBL, emerges as the most effective costimulatory molecule in the antigen-specific expansion of human memory CD8 T cells as compared to the related TNF family members CD70 and LIGHT. As well, 4-1BBL improves the cytolytic function of T lymphocytes on a per cell basis. Furthermore, 4-1BBL is identified as a key component in the therapeutic rescue of CD8 T cell function and its effect is at least partially dependent on its signaling adaptor TNF receptor associated factor 1 (TRAF1), both in vitro and in vivo. This thesis also identifies the loss of TRAF1 as a new mechanism of immune dysregulation of HIV-specific CD8 T cells during the chronic phase of HIV infection and offers a means to correct it. The loss of TRAF1 has functional relevance in HIV suppression and HIV-specific CD8 T cell responses. Finally, a combination therapy involving agonistic anti-4-1BB antibody is shown to be successful in a proof of concept treatment of chronic lymphocytic chroriomeningitis virus (LCMV) infection in mice, resulting in sustained reduction in viral load. A new model of HIV-specific CD8 T cell dysfunction is constructed based on these findings.

HIV

CD8 T cell dysfunction

Costimulation

TRAF1

4-1BB

therapy

chronic infection

0982

The Role of TNFR Family Members GITR and CD30 on CD8 T Cell Responses

Snell, Laura Margaret Lucette

16 August 2013

GITR and CD30 are T cell costimulatory members of the TNFR superfamily known to regulate T cell responses. Elucidating the mechanisms whereby these receptors modulate T cell responses is crucial for maximizing their potential for immunotherapy. In this thesis, I examine the role of GITR and CD30 on CD8 T cell responses to influenza virus. I show that CD8 T cell intrinsic GITR is required for both maximal primary and secondary CD8 T cell expansion to influenza, while in contrast, CD30 is dispensable for anti-influenza CD8 T cell responses. GITR does not impact on CD8 T cell proliferation or homing, however, it mediates CD8 T cell survival signaling. GITR induces TRAF2/TRAF5 dependent, but TRAF1 independent, NF-κB activation, resulting in the upregulation of the pro-survival molecule Bcl-xL. Furthermore, I show that GITR on CD8 T cells can augment viral clearance and confer protection from death upon severe influenza infection of mice. Similarly, CD30 also elicits protection from death upon severe influenza infection, although the cells responsible for this effect remain to be elucidated. In this thesis, I also show that in unimmunized mice GITR expression is upregulated to higher than basal levels on a population of CD8 memory phenotype cells in the bone marrow. In contrast, CD8 memory phenotype T cells in the spleen and LN have GITR levels similar to that on naïve T cells. The upregulation of GITR in the bone marrow is IL-15 dependent and therefore, GITR serves as a marker for cells that have recently received an IL-15 signal. Furthermore, GITR is required for the persistence, but not for the homeostatic proliferation of CD8 memory phenotype T cells in the bone marrow. Therefore, GITR plays a key role for CD8 T cell intrinsic responses to influenza, as well as for the persistence of CD8 memory phenotype T cells.

CD8 T cell

GITR

influenza

T cell memory

CD30

costimulation

TNFR superfamily

0982

Therapeutic Implications of the 4-1BB Costimulatory Pathway on CD8 T Cells during Chronic HIV Infection

Wang, Chao

26 July 2013

A hallmark of chronic human immunodeficiency virus (HIV) infection is the impairment of CD8 T cell survival and effector functions, which likely contributes to HIV pathogenesis. A number of factors could be attributed to this impairment, including the declining number of CD4 T cells, progressive destruction of secondary lymphoid tissues and an increasingly inhibitory environment. As highly active antiretroviral therapy shows limited efficacy in improving CD8 T cell functions, this thesis explores the therapeutic application of costimulatory molecules in directly stimulating non-functional HIV-specific CD8 T cells and ultimately their relevance to the control of chronic HIV infection. Costimulatory molecules are adjuvants for functional activation of T cells that act in concert with the antigen-specific signal. The Tumor Necrosis Factor (TNF) family member, 4-1BBL, emerges as the most effective costimulatory molecule in the antigen-specific expansion of human memory CD8 T cells as compared to the related TNF family members CD70 and LIGHT. As well, 4-1BBL improves the cytolytic function of T lymphocytes on a per cell basis. Furthermore, 4-1BBL is identified as a key component in the therapeutic rescue of CD8 T cell function and its effect is at least partially dependent on its signaling adaptor TNF receptor associated factor 1 (TRAF1), both in vitro and in vivo. This thesis also identifies the loss of TRAF1 as a new mechanism of immune dysregulation of HIV-specific CD8 T cells during the chronic phase of HIV infection and offers a means to correct it. The loss of TRAF1 has functional relevance in HIV suppression and HIV-specific CD8 T cell responses. Finally, a combination therapy involving agonistic anti-4-1BB antibody is shown to be successful in a proof of concept treatment of chronic lymphocytic chroriomeningitis virus (LCMV) infection in mice, resulting in sustained reduction in viral load. A new model of HIV-specific CD8 T cell dysfunction is constructed based on these findings.

HIV

CD8 T cell dysfunction

Costimulation

TRAF1

4-1BB

therapy

chronic infection

0982

The Role of TNFR Family Members GITR and CD30 on CD8 T Cell Responses

Snell, Laura Margaret Lucette

16 August 2013

GITR and CD30 are T cell costimulatory members of the TNFR superfamily known to regulate T cell responses. Elucidating the mechanisms whereby these receptors modulate T cell responses is crucial for maximizing their potential for immunotherapy. In this thesis, I examine the role of GITR and CD30 on CD8 T cell responses to influenza virus. I show that CD8 T cell intrinsic GITR is required for both maximal primary and secondary CD8 T cell expansion to influenza, while in contrast, CD30 is dispensable for anti-influenza CD8 T cell responses. GITR does not impact on CD8 T cell proliferation or homing, however, it mediates CD8 T cell survival signaling. GITR induces TRAF2/TRAF5 dependent, but TRAF1 independent, NF-κB activation, resulting in the upregulation of the pro-survival molecule Bcl-xL. Furthermore, I show that GITR on CD8 T cells can augment viral clearance and confer protection from death upon severe influenza infection of mice. Similarly, CD30 also elicits protection from death upon severe influenza infection, although the cells responsible for this effect remain to be elucidated. In this thesis, I also show that in unimmunized mice GITR expression is upregulated to higher than basal levels on a population of CD8 memory phenotype cells in the bone marrow. In contrast, CD8 memory phenotype T cells in the spleen and LN have GITR levels similar to that on naïve T cells. The upregulation of GITR in the bone marrow is IL-15 dependent and therefore, GITR serves as a marker for cells that have recently received an IL-15 signal. Furthermore, GITR is required for the persistence, but not for the homeostatic proliferation of CD8 memory phenotype T cells in the bone marrow. Therefore, GITR plays a key role for CD8 T cell intrinsic responses to influenza, as well as for the persistence of CD8 memory phenotype T cells.

CD8 T cell

GITR

influenza

T cell memory

CD30

costimulation

TNFR superfamily

0982

Ciblage de la molécule de costimulation ICOS pour l'immunothérapie du cancer du sein dans un modèle de souris humanisée / Targeting the ICOS costimulatory molecule for breast cancer immunotherapy in a humanized mouse model

Burlion, Aude

19 September 2016

Au cours de ces 20 dernières années, les inhibiteurs de "checkpoint blockade" sont une des stratégies les plus prometteuses pour l’immunothérapie du cancer. une partie de l'effet anti-tumoral de ces inhibiteurs reposerait sur la déplétion des lymphocytes T régulateurs (TREG). ici, nous avons examine si la forte expression d'ICOS sur ces cellules pourrait être utilisée comme marqueur pour cibler les TREG et améliorer le rejet tumoral. nous rapportons qu'un nouvel acm anti-ICOS humain deplete préférentiellement les TREG dans un modèle de souris nsg humanisées (cd34+) menant a une augmentation du rapport cd8+/treg. toutefois, cela ne suffisait pas a influer sur la croissance de la lignée de cancer du sein mda-mb-231. nous avons administre du cyclophosphamide (CTX) a faible dose pour induire de la mort cellulaire immunogène et stimuler la réponse anti-tumorale. le traitement des animaux avec une combinaison CTX + anti-ICOS conduit 0 une réduction drastique de la croissance tumorale alors que les traitements individuels ont des effets modérés. Grâce a la cytométrie de masse (cytof), nous avons observe une plus forte expression de cd45ro, hla-dr et ki-67 sur les ltcd8+ du groupe traite par la combinaison. de plus, d'autres analyses suggèrent que les monocytes et PDC humains et les cellules myéloïdes murines pourraient être impliqués dans cet effet. au final, nos résultats sont la première démonstration que les souris humanisées peuvent être utilisées pour développer de nouvelles immunothérapies anti-cancer et indiquent que le ciblage TREG avec une combinaison d'ACM anti-ICOS et la chimiothérapie est une strat2gie pertinente pour renforcer la réponse anti-tumorale. / Checkpoint blockade inhibitors are the most promising and effective strategy for t-cell mediated cancer immunotherapy of the past 20 years. Part of the anti-tumoral effect of these checkpoint inhibitors might be due to regulatory T cell (treg) depletion. Here, we investigated whether the reported high expression of icos on treg might be used as a flag to target treg and improve tumor rejection. We report that a novel anti-human icos mab preferentially depleted treg in immunodeficient nsg mice reconstituted with cd34+ progenitors, leading to an increased cd8+/treg ratio. However, this was insufficent to affect growth of the breast cancer cell line mda-mb-231. We thus administered low dose cyclophosphamide (ctx) to induce immunogenic cell death and stimulate anti-tumor response. Treatment of humanized mice with a combination of ctx+ anti-icos mab led to a drastic reduction in tumor growth whereas single treatments had only moderated effect. Using mass cytometry (cytof), we observed higher expression of cd45ro, hla-dr and ki67 on tcd8+ of the combined-treatment group. Accordingly, depletion of cd8+ t cells partly abolished the therapeutic effect of the combination. Moreover, additional analyses suggest that human monocytes and pdc and murine myeloid cells are involved in this effect. Altogether, our results represent the first demonstration that humanized mice can be used to develop novel therapeutic strategies for cancer immunotherapy and indicate that targeting treg with a combination of anti-icos mab and chemotherapy is a relevant strategy to release the immune response to the tumor.

ICOS

Immunothérapie

Lymphocytes T

Costimulation

Souris humanisée

Tumeur

ICOS

Immunotherapy

Regulatory T cell

616.9

ROLE OF COSTIMULATION IN EXPERIMENTAL LEISHMANIA MEXICANA INFECTION

Tuladhar, Rashmi

06 June 2014

No description available.

Microbiology

Immunology

Parasitology

Leishmania

costimulation

cutaneous lesihmaniasis

B7-1

B7-2

OX40L

OX40

Costimulation and tolerance in T cell immunotherapy

Lute, Kenneth D.

15 March 2006

No description available.

Health Sciences, Immunology

costimulation

tolerance

T cell

Treg

autoimmune disease

antibody

immunotherapy

Therapeutic peptidomimetic strategies for costimulation blockade in multiple sclerosis and transplantation / conformational peptide vaccines of the HER-2/neu dimerization loop are effective in inhibiting mammary tumor growth in vivo

Allen, Stephanie D.

12 September 2006

No description available.

Costimulation

CD28

CD40L

Multiple Sclerosis

Transplantation

Peptide Mimics

HER-2/neu

Breast Cancer

Peptide Vaccines

Mechanismen des Immunprivilegs im Zentralen Nervensystem nach axonaler Läsion

Bechmann, Ingo

29 May 2001

Myelin-assoziierte Epitope können Ziel destruktiver T-Zell Antworten während autoimmuner Erkrankungen wie der Multiplen Sklerose oder der experimentellen autoimmunen Enzephalomyelitis werden. Dagegen reagieren selbstspezifische T-Zellen nach axonaler Degeneration nicht mit destruktiver Autoimmunität, obwohl die entsprechenden Epitope durch Myelin-phagozytierende Mikroglia präsentiert werden. Im Modell der entorhinalen Kortexläsion von Ratte und Mause zeigten wir, daß Autoimmunität nach solchen Läsionen durch die Expression des Todesliganden CD95L (FasL, Apo1L) auf Astrozyten verhindert wird, da hochaktivierte T-Zellen durch CD95L apoptotisch eliminiert werden. Myelin-phagozytierende Mikroglia reguliert MHC-II und B7-2 hoch, nicht aber das kostimulatorische B7-1 Moleküle, das mit Autoimmunität im Gehirn assoziiert ist. In Zonen retrograder Degeneration, wo Axone am Sproutingprozess beteiligt sind, zeigen Mikrogliazellen bis mindestens 90 Tage nach Läsion einen MHC-II und B7-2 positiven Immunphänotyp. Trotz Anwesenheit von CD4/B7-2 positiven a/b T-Zellen, behält Mikroglia ihre ramifizierte, ruhende Morphologie. Im Gegensatz zu autoimmunen Erkrankungen im Gehirn, erfolgt die Antigenpräsentation nach axonaler Läsion durch Mikroglia also nicht über das B7-1 Molekül. Dies kann der Grund für das Ausbleiben destruktiver Autoimmunität nach axonaler Schädigung sein. / Myelin-associated epitopes are targets of destructive T cell responses during autoimmune diseases such as multiple sclerosis (MS) and its animal model, experimental autoimmune encephalomyelitis (EAE). On the other hand, autoimmune T cells do not respond in a destructive way to mechanically-induced axonal degeneration despite myelin phagocytosis and presentation by local microglia. Using entorhinal cortex lesion, a model of axonal degeneration and reactive sprouting, we showed that autoimmunity in the brain is prevented by the expression of the death Ligand CD95L expressed on astrocytes lading to apoptosis of highly activated T cells. Moreover, myelin phagocytosing microglia upregulate MHC-II and B7-2, but lack expression of B7-1, a costimulatory molecule related to destructive immunity. In zones of retrograde axonal degeneration, where axons undergo secondary damage and later contribute to the sprouting response, MHC-II/B7-2 positive microglia are still found at 90 days post lesion. These cells exhibit the ramified morphology of resting microglia in the presence of CD4/B7-2 positive a/b T cells. Thus, in contrast to autoimmune brain disease, axonal degeneration is lacking a signal to induce B7-1 on microglial cells and the recruited T cells do not induce microglial activation. Differences in B7-phenotype of local antigen-presenting cells might provide an explanation for the important finding that autoimmune T cells elicit protective rather than destructive effects following axonal degeneration in the CNS.

Kostimulation

Antigenpräsentation

Immunprivileg

Multiple Sklerosis

costimulation

antigen-presentation

immune privilege

Multiple Sclerosis

610 Medizin

33 Medizin

YG 6000

ddc:610