The Role of Id Proteins in the Development and Function of T and B Lymphocytes

Lin, Yen-Yu

January 2014

<p>E and Id proteins are members of the basic helix-loop-helix (bHLH) transcription regulator family. These proteins control a broad range of lymphocyte biology, from the development of multiple lineages to execution of their effector functions. With the development of new experiment models, novel functions of E and Id proteins continued to be discovered. In this thesis, I focused my study on the role of Id2 in gamma delta T cells and CD4<super>+</super> alpha beta T cells, as well as the role of Id3 in B cells.</p><p> Id proteins have been shown to control gamma delta T cell development. Id3 knockout mice demonstrate a dramatic expansion of innate-like Vgamma1.1<super>+</super> Vdelta6.3<super>+</super> T cells in the neonatal stage, suggesting that Id3 is an inhibitor of their development. Interestingly, Id3 knockout mice with a B6/129 mix background have much less expansion of the Vgamma1.1<super>+</super> Vdelta6.3<super>+</super> T cells compared to mice with pure B6 background. Genetic studies showed that this difference is strongly influences by a chromosome region very close to the Id2 locus. Using the Id2<super>f/f</super> CD4Cre<super>+</super> mice, I found that Id2 is also an inhibitor of gamma delta T cell development. Deletion of Id2 alone is sufficient to enhance the maturation of these cells in the thymus and induce a moderate expansion of gamma delta T cells in the periphery. This study demonstrated the delicate balance of transcription control in cells of the immune system.</p><p> The Id2<super>f/f</super> CD4Cre<super>+</super> mice also enabled me to study the role of Id2 in peripheral CD4<super>+</super> alpha beta T cell functions, which was difficult in the past because Id2 knockout mice lack lymph node development. I found that CD4 T cells in these mice have a profound defect in mounting immune responses, demonstrated by a complete resistance to induction of experimental autoimmune encephalomyelitis (EAE). I found that Id2-deficient CD4 T cells fail to infiltrate the central nervous system, and the effector CD4 T cell population is smaller compared to that in control mice. Id2 is important for the survival and proliferation of effector CD4 T cells, and this phenotype was correlated with an increased expression of <italic>Bim</italic> and <italic>SOCS3</italic>. This study revealed a novel role of Id2 in the functioning of CD4<super>+ </super>alpha beta T cells.</p><p> Switching my focus to B cells, recent next generation sequencing of human Burkitt lymphoma samples revealed that a significant proportion of them have mutations of Id3. This finding suggests that Id3 may be a tumor suppressor gene in the lymphoid system. Utilizing various Id3 knockout and conditional knockout mouse models, I showed that Id3 deficiency can accelerate lymphoid tumor genesis driven by the over-expression of oncogene c-Myc. This work may lead to development of a more realistic mouse model of human Burkitt lymphoma, allowing more mechanistic studies and perhaps preclinical tests of new therapies.</p> / Dissertation

Immunology

Burkitt lymphoma

CD4 T cell

gamma delta T cell

Id2

Id3

Expansion of circulatory Vγ9Vδ2 T cells in tularemia and Pontiac fever, two intracellular bacterial diseases with widely different clinical expression

Kroca, Michal

January 2003

<p>Although well established that human Vγ9Vδ2 T cells may expand in circulation during intracellular bacterial infections, most underlying studies included only a few cases and only some diseases had been studied so far. In tularemia, a severe invasive disease, only one patient had been described. Legionellosis, including the mild flue-like Pontiac disease caused by Legionella micdadei, had not been studied at all. The aim of the present thesis was to study the circulatory Vγ9Vδ2-T cell response in these two intracellular bacterial diseases. The number of cases included was large enough to draw general conclusions. At various intervals, Vγ9Vδ2-T-cell counts and the capability of the cells to produce proinflammatory cytokines were assayed. Finally, the nature of the stimulating antigens was determined.</p><p>In the acute phase of tularemia, we showed a marked increase of circulatory Vγ9Vδ2 T cells. When 181 samples from 108 patients with ulceroglandular tularemia were assayed, the percentage of Vγ9Vδ2 T cells was found to increase from ~5 to > 20% after the first week of disease. During the ensuing 24 months, levels were normalized. Vaccination with the live attenuated vaccine strain Francisella tularensis LVS, on the other hand, did not cause an increase in numbers of Vγ9Vδ2 T cells.</p><p>Within an outbreak of Pontiac fever, 14 cases were well defined with regard to incubation time and onset of disease. In samples obtained 4 to 6 days after onset of disease, the mean percentage of Vγ9Vδ2 T cells was ~ 1%, i.e., 20% of normal values. Thereafter, a pronounced increase occurred and at 2 to 7 weeks after onset of disease, values were ~ 15%. Later, values slowly decreased. In both tularemia and Pontiac fever, the capacity of Vγ9Vδ2 T cells to produce TNF-α in response to phorbol myristate acetate in vitro was transiently decreased, in tularemia up to 6 weeks after onset of disease and in Pontiac fever in samples obtained 5-7 weeks after onset of disease.</p><p>Nonpeptidic pyrophosphorylated molecules, referred to as phosphoantigens, are powerful stimuli for Vγ9Vδ2 T cells. Various strains of F. tularensis, including LVS, and a strain of L. micdadei were shown to produce Vγ9Vδ2 T-cell stimulating phosphoantigen. Notably, stimulation with an extract from each agent caused a similar degree of expansion of cells from subjects infected with the homologous and heterologous agent and also of cells from healthy subjects. Thus no immunospecific memory was detected in the Vγ9Vδ2-T cell response.</p><p>Since it had been suggested that homologs of the conserved heat shock protein, chaperon-60, may be recognized by human Vγ9Vδ2 T cells, we determined the subpopulation of T cells responding to this protein as well as to DnaK, another heat-shock protein. Under in vitro conditions allowing a vigorous expansion of Vγ9Vδ2 T in response to a phosphoantigen, no expansion of γδ T cells in response to Cpn60 or DnaK of F. tularensis occurred. αβ T cells of tularemia-primed subjects, on the other hand, responded vigorously to the heat-shock proteins.</p><p>In conclusion, two intracellular bacterial diseases with widely varying clinical expression were both associated with expansion of circulating Vγ9Vδ2 T cells. The expansion was prominent, long-lasting, and consistent within large numbers of individuals tested. In Pontiac fever, the expansion of Vγ9Vδ2 T cells was preceded by a depletion of the cells in circulation, implicating a possible extravasal migration into an infected site before the occurrence of rapid expansion and reentrance to blood. Both in tularemia and Pontiac fever, a modulation of the cytokine expression of Vγ9Vδ2 T cells was demonstrated in vitro, suggesting the presence of modulation of the inflammatory response. In extracts from in vitro culture of F. tularensis and L. micdadei, Vγ9Vδ2 T-cell stimulating phosphoantigens were identified and according to cross stimulation experiments, they induced expansion in vitro of Vγ9Vδ2 T cells without regard to immunospecific memory.</p>

Immunology

Francisella tularensis

Gamma-delta T cell

Legionella

Legionellosis

Lymphocyte

T cell Tularemia

Immunologi

Immunology

Immunologi

Expansion of circulatory Vγ9Vδ2 T cells in tularemia and Pontiac fever, two intracellular bacterial diseases with widely different clinical expression

Kroca, Michal

January 2003

Although well established that human Vγ9Vδ2 T cells may expand in circulation during intracellular bacterial infections, most underlying studies included only a few cases and only some diseases had been studied so far. In tularemia, a severe invasive disease, only one patient had been described. Legionellosis, including the mild flue-like Pontiac disease caused by Legionella micdadei, had not been studied at all. The aim of the present thesis was to study the circulatory Vγ9Vδ2-T cell response in these two intracellular bacterial diseases. The number of cases included was large enough to draw general conclusions. At various intervals, Vγ9Vδ2-T-cell counts and the capability of the cells to produce proinflammatory cytokines were assayed. Finally, the nature of the stimulating antigens was determined. In the acute phase of tularemia, we showed a marked increase of circulatory Vγ9Vδ2 T cells. When 181 samples from 108 patients with ulceroglandular tularemia were assayed, the percentage of Vγ9Vδ2 T cells was found to increase from ~5 to &gt; 20% after the first week of disease. During the ensuing 24 months, levels were normalized. Vaccination with the live attenuated vaccine strain Francisella tularensis LVS, on the other hand, did not cause an increase in numbers of Vγ9Vδ2 T cells. Within an outbreak of Pontiac fever, 14 cases were well defined with regard to incubation time and onset of disease. In samples obtained 4 to 6 days after onset of disease, the mean percentage of Vγ9Vδ2 T cells was ~ 1%, i.e., 20% of normal values. Thereafter, a pronounced increase occurred and at 2 to 7 weeks after onset of disease, values were ~ 15%. Later, values slowly decreased. In both tularemia and Pontiac fever, the capacity of Vγ9Vδ2 T cells to produce TNF-α in response to phorbol myristate acetate in vitro was transiently decreased, in tularemia up to 6 weeks after onset of disease and in Pontiac fever in samples obtained 5-7 weeks after onset of disease. Nonpeptidic pyrophosphorylated molecules, referred to as phosphoantigens, are powerful stimuli for Vγ9Vδ2 T cells. Various strains of F. tularensis, including LVS, and a strain of L. micdadei were shown to produce Vγ9Vδ2 T-cell stimulating phosphoantigen. Notably, stimulation with an extract from each agent caused a similar degree of expansion of cells from subjects infected with the homologous and heterologous agent and also of cells from healthy subjects. Thus no immunospecific memory was detected in the Vγ9Vδ2-T cell response. Since it had been suggested that homologs of the conserved heat shock protein, chaperon-60, may be recognized by human Vγ9Vδ2 T cells, we determined the subpopulation of T cells responding to this protein as well as to DnaK, another heat-shock protein. Under in vitro conditions allowing a vigorous expansion of Vγ9Vδ2 T in response to a phosphoantigen, no expansion of γδ T cells in response to Cpn60 or DnaK of F. tularensis occurred. αβ T cells of tularemia-primed subjects, on the other hand, responded vigorously to the heat-shock proteins. In conclusion, two intracellular bacterial diseases with widely varying clinical expression were both associated with expansion of circulating Vγ9Vδ2 T cells. The expansion was prominent, long-lasting, and consistent within large numbers of individuals tested. In Pontiac fever, the expansion of Vγ9Vδ2 T cells was preceded by a depletion of the cells in circulation, implicating a possible extravasal migration into an infected site before the occurrence of rapid expansion and reentrance to blood. Both in tularemia and Pontiac fever, a modulation of the cytokine expression of Vγ9Vδ2 T cells was demonstrated in vitro, suggesting the presence of modulation of the inflammatory response. In extracts from in vitro culture of F. tularensis and L. micdadei, Vγ9Vδ2 T-cell stimulating phosphoantigens were identified and according to cross stimulation experiments, they induced expansion in vitro of Vγ9Vδ2 T cells without regard to immunospecific memory.

Immunology

Francisella tularensis

Gamma-delta T cell

Legionella

Legionellosis

Lymphocyte

T cell Tularemia

Immunologi

Immunology

Immunologi

Discerning the Mechanism of Gamma Delta T Cell-Mediated Damage in Multiple Sclerosis: the Potential Role of Antibodies in Disease Pathogenesis

Black, Jennifer

January 2015

Background: Both the innate and adaptive immune systems contribute to autoimmune injury in multiple sclerosis (MS). We have been particularly interested in elucidating the role of the innate γδ T-cell population in MS pathogenesis. In particular, some γδ T-cells that express Fc receptors (FcR), such as CD16, that bind antibody are more prominent with MS disease progression and have been shown to exert cytolysis via antibody-dependent cellular cytotoxicity (ADCC). We postulated that if there were also relevant and detectable antibodies in MS patients that might engage these FcR-bearing γδ T-cells then this might be a purported mechanism of neuro-axonal injury. A search for antibodies specific to axonal elements in MS revealed the presence of antibodies to neurofascin (Nfasc). Methods: Anti-Nfasc antibody titres, and concentrations of the light and heavy chains of neurofilament (NfL and NfH, respectively), markers of neuro-axonal injury, were measured in the sera and cerebrospinal fluid (CSF) of MS patients using enzyme-linked immunosorbent assays (ELISA), including those that underwent autologous hematopoietic stem cell transplantation (aHSCT), both prior to and yearly for 3 years thereafter. HeLa cells were transfected with the axonal variant of Nfasc, Nfasc-186, and were utilized as targets in ADCC assays involving γδ T-cells as the effectors, and anti-Nfasc antibodies that were enriched from MS patient sera. Results: Positive anti-Nfasc antibody titres were detected in of 22% and 25% of MS patient sera and CSF, respectively. The most elevated serum titres were in secondary progressive MS (SPMS), and highest CSF titres in relapsing-remitting MS (RRMS) (p<0.05 and p<0.0001, respectively, vs. other neurological disease [OND] controls). Patient serum and CSF antibody titres correlated and, in the CSF, the titres correlated positively with the concentration of NfL. Though NfL and NfH concentrations declined markedly following aHSCT in the CSF, anti-Nfasc antibody titres failed to decline. When co-cultured with CD16+ γδ T-cells in the presence of MS patient-derived anti-Nfasc antibodies, the percent specific cytolysis of the Nfasc-transfected HeLa cells was significantly greater than that of the non-transfected control HeLa cells, at 18% and 1%, respectively, indicating cytolytic kill via ADCC. Summary: Anti-Nfasc antibodies were detectable in the sera and CSF of MS patients, and rarely in OND controls, suggesting they are relevant to MS. Higher titres in the serum support peripheral synthesis, while higher CSF titres in the relapsing phase, that correlate with serum titres, imply that antibodies access the CNS during periods of active inflammation that are associated with disruption of the blood-CSF barrier. CSF anti-Nfasc antibody titres correlated strongly with the release of NfL, suggesting that axonal injury could be related to the presence of Nfasc-specific antibodies. Following aHSCT, CSF NfL and NfH release were reduced without concomitant CSF anti-Nfasc antibody reductions, suggesting that the presence alone of anti-Nfasc antibodies is not enough to cause axonal injury. Indeed, when co-cultured with CD16+ γδ T-cells in the presence of MS patient-derived anti-Nfasc antibodies, the percent specific cytolysis of the Nfasc-transfected HeLa cells was significantly greater than that of the non-transfected control HeLa cells, proving that FcR-bearing γδ T-cells can cause axonal damage by lysing axonal membranes via ADCC, when armed with axon-specific antibodies such as anti-Nfasc. This is the first report of γδ T-cell-mediated cytolysis by ADCC using both γδ T-cells and antibodies derived from MS patients.

Multiple Sclerosis

gamma delta T-cell

neurofascin

neurofilament

antibody-dependent cellular cytotoxicity

antibody

Cytomégalovirus : réponse des lymphocytes T γδ et impact sur le développement tumoral / Cytomegalovirus : response of γδ T cells and impact on tumor development

Massara, Layal

01 October 2018

Le cytomégalovirus (CMV), un β-herpes virus, est considéré comme un modèle d'immuno-évasion virale. Il s'agit d'un agent pathogène opportuniste fréquent chez les patients immunodéprimés et une cause majeure de malformations congénitales lors de l'acquisition in utero. Le CMV code pour des protéines (i) qui empêchent la présentation de l'antigène aux lymphocytes T αβ notamment par l'inhibition de l'expression des molécules HLA-I et (ii) qui suppriment les fonctions des cellules NK en imitant ou en régulant à la baisse les ligands des récepteurs NK (NKR). Ces mécanismes d'évasion ne devraient pas affecter les lymphocytes T γδ dont la reconnaissance antigénique est indépendante du HLA-I, et d’ailleurs leur réponse au CMV a été largement rapportée dans de nombreux contextes physiopathologiques. Notre objectif était de comprendre comment les mécanismes d’immuno-évasion du CMV affectent la réponse des lymphocytes T γδ. Nous avons utilisé des adénovirus recombinants exprimant chacun des quatre gènes du CMV impliqués dans l’inhibition de l’expression du HLA-I, et un mutant du HCMV déficient pour ces 4 gènes (CMV-∆US). Nous avons observé une induction de l'expression de HLA-I par l'adénovirus control, et une inhibition par US2, US3 et US11. Lors de l'utilisation de CMV-∆US, les cellules infectées exprimaient beaucoup plus de HLA-I que les cellules infectées par CMV-WT. De façon intéressante et à l’opposé des lymphocytes T αβ, les lymphocytes T γδ produisent plus d'IFNy en présence de fibroblastes infectés par le CMV-WT, qu’avec des fibroblastes infectés par CMV-∆US. Ces résultats indiquent que les molécules HLA-I régulent les lymphocytes T γδ grâce à des mécanismes qui sont en cours d'investigation dans notre équipe. Les processus d'échappement immunitaire développés par le CMV pourraient ainsi favoriser la réponse des lymphocytes T γδ par rapport à celle des lymphocytes T αβ et expliquer le rôle important des cellules T γδ dans le contrôle du virus chez les individus immunodéprimés. D'autre part, les acides nucléiques et les protéines du HCMV ont été trouvés dans les tissus tumoraux, mais la relation précise entre le HCMV et le cancer reste un sujet de débat. La plupart du temps, HCMV est décrit comme un virus oncomodulateur avec un rôle pro-tumoral. Notre objectif était d'utiliser le modèle de la souris pour tester in vivo l'impact de CMV de souris (MCMV) sur la croissance des cellules tumorales. Nous avons observé que MCMV pourrait inhiber la croissance de tumeurs sous-cutanées de côlon MC38 chez les souris immunodéficientes. Encore plus surprenant lorsque l'on considère la spécificité d’espèce des CMV, l'infection par le MCMV inhibe de la même façon la croissance des cellules cancéreuses du côlon humain HT29, qui n’est pas affectée par le HCMV. In vitro, les protéines MCMV précoces (IE-1) sont détectées dans des cellules cancéreuses humaines et murines après l'infection. Cependant, peu de cellules cancéreuses sont retrouvées positives pour le MCMV dans les tumeurs HT29 prélevées sur des souris infectées par le MCMV. De manière surprenante, le MCMV inhibe la prolifération des cellules cancéreuses de côlon humain contrairement au HCMV. De plus, la transcription de l'interféron β humain est induite après une infection par le MCMV. Cette induction n'a pas été observée après l'infection par le HCMV. En conclusion, nos données suggèrent un potentiel effet anti-tumoral de MCMV sur les cellules cancéreuses du côlon humain (HT29), qui pourrait être au moins partiellement médiée par l'interféron β. Ces résultats ouvrent la voie à l'utilisation potentielle du MCMV en tant que traitement du cancer du côlon humain. / Cytomegalovirus (CMV), a Beta Herpes virus, is considered as a paradigm for viral evasion.It is an important opportunistic pathogen in immunocompromised patients and a major cause of congenital birth defects when acquired in utero. CMV encodes molecules to prevent antigen presentation to αβ T cells through inhibition of MHC Class I expression and to suppress NK cell functions by mimicking or down-regulating ligands of NK receptors (NKR). These evasion mechanisms are not expected to affect γδ T cells and, as a matter of fact, their response to CMV has been widely reported in many different physiopathological contexts as well as in CMV-seropositive healthy donors (Dechanet et al, 1999)( Scheper, 2013). Our aim was to understand how CMV induce γδ T cell response. We used recombinant adenoviruses expressing each of the four US genes, and a mutant HCMV deleted for these 4 genes (CMV-DUS). We observed an induction of HLA-I expression by the control adenovirus, and an inhibition by US2, US3 and US11. When using CMV-DUS, infected cells expressed much more native HLA-I than CMV-WT infected cells. Interestingly and in sharp contrast to αβ T cells, γδ T cell were activated to produce IFNg when cultured with fibroblasts infected with CMV-WT, but not when fibroblasts were infected with CMV-DUS. These results indicate that HLA-I molecules regulate γδ T cells through mechanisms that are under investigation in our team. The immune escape processes developed by CMV could thus promote γδ over αβ T cell response and explain the important response of γδ T cells to the virus in immunosuppressed individuals.

Cytomegalovirus

Lymphocytes T gamma-Delta

Cancer

Stress

Developpement tumoral

HLA

Cytomegalovirus

Cancer

Gamma-Delta T cell

Stress

Free heavy chain HLA

HLA