Pertussis toxin activates dendritic cells and naive CD4 T lymphocytes in humans/La toxine de Bordetella pertussis active les cellules dendritiques et les lymphocytes T CD4 naïfs chez l'homme.

Tonon, Sandrine J

03 July 2006

La toxine de pertussis (PTX) est une A-B protéine considérée comme l’un des principaux facteurs de virulence de Bordetella pertussis, l’agent bactérien responsable de la coqueluche. Aujourd’hui, cette maladie représente encore un réel danger pour les nouveaux-nés et les nourrissons non ou partiellement immunisés. Actuellement, la coqueluche provoque encore la mort d’environ 350.000 individus par an. La toxicité de la PTX est liée à l’activité enzymatique de sa sous-unité A capable d’inhiber les voies de signalisation associées aux protéines Gi. La partie B, quant à elle, permet l’entrée de cette sous-unité A dans le cytoplasme des cellules cibles en se liant spécifiquement à son ou ses récepteurs membranaires toujours inconnus de nos jours. Des études réalisées chez la souris et chez l’homme ont montré que les vaccins anticoquelucheux combinés à différents antigènes vaccinaux étaient capables de moduler leurs réponses humorales spécifiques. Par ailleurs, la PTX est couramment qualifiée d’agent immunostimulant. En effet, des modèles murins de vaccination permirent d’identifier des propriétés adjuvantes de la PTX coadministrée avec des antigènes non relevants. Le travail développé dans ce manuscrit étudie les effets de la PTX sur 2 types cellulaires primordiaux sollicités lors d’une vaccination : la cellule dendritique (DC) et le lymphocyte T CD4+ naïf. Les DC sont les seules cellules présentatrices d’antigènes aptes à initier une réponse immune primaire. Dans un premier temps, nous avons montré que la PTX était capable d’activer des DC générées in vitro à partir de monocytes. En effet, elles acquièrent un phénotype mature caractérisé par une augmentation de l’expression membranaire des molécules costimulatrices et du CMH de classe II, démontrant un effet direct et spécifique de la PTX sur les DC myéloïdes. Parallèlement, ces DC produisent du TNF-a, de l’IL-12p40 et de l’IL-12p70 et activent NF-kappaB, un facteur de transcription essentiel au processus de maturation. Nous avons obtenu des résultats similaires avec une toxine génétiquement modifiée qui est enzymatiquement inactive. A partir de sang total incubé avec la PTX, nous avons par ailleurs observé que les DC circulantes du nouveau-né étaient déficientes dans leur maturation et leur sécrétion d’IL-12p70 comparées aux DC de l’adulte. D’autre part, il a été décrit précédemment que la PTX exerçait des effets mitogènes sur les lymphocytes T humains et murins. Cependant, le rôle qu’elle joue sur la population des lymphocytes T CD4 naïfs reste peu connu. A l’issue de notre second travail, nous pouvons dès lors affirmer que la PTX est également capable d’activer des lymphocytes T CD4+CD45RA+ naïfs isolés à partir des cellules mononuclées du sang périphérique, et ce indépendamment de son activité enzymatique. En effet, ces lymphocytes T CD4+ naïfs stimulés par la PTX prolifèrent, synthétisent des quantités non négligeables d'ARN messagers codant pour l’IL-2 et le TNF-a, augmentent l’expression membranaire des molécules CD40L, CD69 et CD25 et expriment la protéine Foxp3. Cette activation s’accompagne de la translocation nucléaire de NF-kappaB et NFAT. Parallèlement à l’adulte, la PTX active les lymphocytes T CD4 néonataux. Néanmoins, ceux-ci prolifèrent moins bien et expriment plus faiblement le CD40L à leur surface. Enfin, la PTX induit la sécrétion de taux importants d’IFN-g par des T CD4+CD45RA+ naïfs adultes mis en présence de DC autologues. Nous terminerons en proposant l’hypothèse suivante : La PTX pourrait exercer ses propriétés adjuvantes par l’intermédiaire de différents mécanismes comprenant notamment la maturation des DC d’origine myéloïde et l’activation des lymphocytes T CD4+CD45RA+ naïfs. Ces 2 populations cellulaires sont en effet les principaux protagonistes impliqués dans la réponse immune primaire.

Pertussis toxin (PTX)

Dendritic cells (DC)

Newborns

Neonates

Naive CD4 T lymphocytes

Insufficiency of DNA Repair Enzyme ATM Promotes Naive CD4 T-cell Loss in Chronic Hepatitis C Virus Infection

Zhao, Juan, Dang, Xindi, Zhang, Peixin, Nguyen, Lam Nhat, Cao, Dechao, Wang, Lin, Wu, Xiaoyuan, Morrison, Zheng D., Zhang, Ying, Jia, Zhansheng, Xie, Qian, Wang, Ling, Ning, Shunbin, El Gazzar, Mohamed, Moorman, Jonathan P., Yao, Zhi Q.

10 April 2018

T cells have a crucial role in viral clearance and vaccine response; however, the mechanisms regulating their responses to viral infections or vaccinations remain elusive. In this study, we investigated T-cell homeostasis, apoptosis, DNA damage, and repair machineries in a large cohort of subjects with hepatitis C virus (HCV) infection. We found that naive CD4 T cells in chronically HCV-infected individuals (HCV T cells) were significantly reduced compared with age-matched healthy subjects. In addition, HCV T cells were prone to apoptosis and DNA damage, as evidenced by increased 8-oxoguanine expression and γH2AX/53BP1-formed DNA damage foci—hallmarks of DNA damage responses. Mechanistically, the activation of DNA repair enzyme ataxia telangiectasia mutated (ATM) was dampened in HCV T cells. ATM activation was also diminished in healthy T cells exposed to ATM inhibitor or to HCV (core protein) that inhibits the phosphoinositide 3 kinase pathway, mimicking the biological effects in HCV T cells. Importantly, ectopic expression of ATM was sufficient to repair the DNA damage, survival deficit, and cell dysfunctions in HCV T cells. Our results demonstrate that insufficient DNA repair enzyme ATM leads to increased DNA damage and renders HCV T cells prone to apoptotic death, which contribute to the loss of naive T cells in HCV infection. Our study reveals a novel mechanism for T-cell dysregulation and viral persistence, providing a new strategy to improve immunotherapy and vaccine responses against human viral diseases.

DNA Repair Enzyme

ATM

Naive CD4

Chronic Hepatitis C Virus

Internal Medicine

Internal Medicine

MODULATION OF NAIVE CD4+ T CELL ACTIVATION AND DENDRITIC CELL FUNCTION IN THE LUNGS DURING PULMONARY MYCOBACTERIAL INFECTION

Anis, Mursalin M.

18 July 2007

No description available.

Biology, Limnology

naive CD4+ T-cell activation

lung dendritic cells

pulmonary mycobacterial infection

Toll-like Receptor Tolerance in Dendritic Cells During Hepatitis C and HIV Infections: Collapsing the Bridge Between Innate and Adaptive Immunity

Yonkers, Nicole L.

January 2011

No description available.

Immunology

Hepatitis C

HIV

dendritic cell

NK cell

naive CD4 T cell

TLR

tolerance

immune response

Perfil de expressão de genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ de camundongos BALB/c / Gene expression profile of Wnt/beta-catenin pathway elements in thymocytes and CD4 + T lymphocytes of BALB/c mice.

Ali, Taccyanna Mikulski

27 August 2015

INTRODUÇÃO: A molécula HIG2 pode atuar como agonista da via Wnt/beta-catenina, pois se liga ao receptor Frizzled 10 e induz a expressão de genes da mesma. Dados recentes do nosso grupo mostraram expressão diferencial do gene HIG2 em células mononucleares do sangue periférico e em especial linfócitos T CD4+ naïve, mas não em células diferenciadas de memória em indivíduos sadios. Também observamos in vitro em linfócitos T CD4+ de indivíduos saudáveis que o peptídeo sintético HIG2 induziu a ativação da via Wnt/beta-catenina, produção de HIG2 e outros produtos da via, além da proliferação de células T CD4+ naïve sugerindo um papel do HIG2 na proliferação homeostática de linfócitos T CD4+. HIPÓTESE: Como as células T CD4+ naïve são diretamente exportadas pelo timo, os níveis aumentados de HIG2 neste tipo celular sejam decorrentes da ativação da via Wnt/?-catenina nos estágios tardios da diferenciação de timócitos. Portanto, as células T CD4+ naïve e timócitos simples positivos para CD4 (SP CD4) apresentariam perfil semelhante de expressão de HIG2 e genes da via Wnt/beta-catenina, incluindo receptores, fatores de transcrição, genes estruturais da via e alvos quando comparadas as demais populações celulares. OBJETIVO: Avaliar a expressão de HIG2 e outros genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ naïve e memória de camundongos. MÉTODOS: Isolamos timócitos duplo negativos (DN), timócitos duplo positivos (DP), simples positivos para CD4 e CD8 (SP CD4 e SP CD8) de timo e também células T CD4+ naïve e memória do baço dos mesmos camundongos pelo procedimento de citometria de fluxo. Analisamos a expressão de vários genes da via Wnt/beta-catenina por PCR em tempo real. RESULTADOS: Em timócitos DN há expressão significativa dos genes que codificam para Frizzled 6, LRP5, TCF-1 e TCF-4 em relação as outras populações celulares. Nos timócitos DP há maior expressão dos genes que codificam para LRP5, LRP6, beta-catenina, GSK-3beta, TCF-1 e Bcl-XL em relação às demais populações. Em timócitos SP CD4 foi detectada expressão diferencial de genes que codificam para Frizzled 10, LRP6, beta-catenina, LEF-1 e HIG2 enquanto que na população de timócitos SP CD8 não observamos expressão significativa de nenhum gene da via Wnt/beta-catenina. Nas células T CD4+ naïve há expressão significativa de Frizzled 5 e Frizzled 10 quando comparadas a timócitos SP CD8 e células T CD4+ de memória . Já nos linfócitos T CD4+ de memória, detectamos maior expressão de Frizzled 6, TCF-4, Bcl-XL e ciclina D1 em relação as demais populações. CONCLUSÃO: Cada população apresenta um perfil distinto de expressão gênica. As maiores semelhanças ocorrem entre os timócitos DN e DP onde as principais diferenças são a expressão de Frizzled 6 e Ciclina D1.Os timócitos SP CD4 e as células T CD4+ naïve não apresentaram níveis semelhantes de expressão gênica de elementos da via Wnt canônica, o que não corrobora a hipótese de que o perfil transcripcional de timócitos SP CD4 e linfócitos T CD4+ naïve é semelhante. Ainda, não observamos expressão aumentada de HIG2 em linfócitos T CD4+ naïve comparados aos de memória, o que contrasta com os resultados obtidos anteriormente por nosso grupo com amostras humanas sugerindo que camundongos não regulam a expressão de HIG2 em linfócitos T CD4+ como os seres humanos / INTRODUCTION: HIG2 molecule can act as an agonist of Wnt/?-catenin pathway, because it able to bind to Frizzled 10 receptor and induce the expression of the genes related to this pathway. Recent data from our group have shown differential expression of the HIG2 gene in peripheral blood mononuclear cells, and particularly in naive CD4 + T cells, but not in memory T cells in healthy individuals. We have also observed that inducing the CD4 + T lymphocytes from healthy individuals with HIG2 synthetic peptide in vitro, led to the activation of Wnt/beta-catenin pathway, HIG2 production and expression of other target genes of this pathway and the proliferation of naïve CD4 + T cells, suggesting that HIG2 may play a role in homeostatic proliferation of CD4+ T cells. HYPOTHESIS: As naïve CD4 + T cells are directly exported from the thymus, we have hypothesized that increased levels of HIG2 in this cell type is due to the activation of Wnt/beta-catenin pathway in the later stages of thymocyte differentiation. Therefore, naïve CD4 + T cells and CD4 single-positive thymocytes (CD4 SP) may share a similar pattern of gene expression of HIG2 and Wnt/beta-catenin genes (genes that encodes receptors and co-receptors, transcription factors, structural and target genes) when compared to other cell populations. AIM: our major aim is to evaluate the expression of HIG2 and other genes of the Wnt/beta-catenin in thymocytes, naïve CD4 + T lymphocytes and memory CD4+ T cells from mice. METHODS: We have isolated thymocytes double negative (DN) T cells, positive double positive (DP) T cells, CD4 and CD8 single-positive thymocytes (CD4 SP and CD8 SP) of thymus from BALB/c mice and we have also isolated naïve CD4 + T cells and memory CD4+ T cells of the spleen from the same mice we have used the thymus. We have analysed the expression of several genes of Wnt/beta-catenin by real time PCR RESULTS: In DN cells there was expression of the Frizzled 6, LRP5, TCF-1 and TCF-4 genes compared to other cell populations. In DP thymocytes it could be observed a greater expression of LRP5, LRP6, beta-catenin, GSK-3beta, TCF-1 and Bcl-XL genes compared to other populations. In CD4 SP thymocytes, it was detected differential expression of the Frizzled 10, LRP6, beta-catenin, LEF-1 HIG2 genes and in CD8 SP cells we could not observe significant expression of any gene of Wnt/?-catenin pathway. In naïve CD4 + T cells there was a significant expression of Frizzled5 and Frizzled 10 genes when compared to all the samples. In memory CD4 + T cells, we have detected higher expression of Frizzled 6, TCF-4, Bcl-XL and cyclin D1 genes than in any other populations. CONCLUSION: Each population has a distinct gene expression pattern. The biggest similarities occur between DN and DP thymocytes where the main differences are the expression of Frizzled 6 and cyclin D1.However, the pattern of gene expression in SP thymocytes is not similar to those presented by naïve CD4+ T cells. Moreover, we have not observed increased expression of HIG2 in naïve CD4 + lymphocytes compared to memory CD4+ T cells, which contrasts the results obtained previously by our group with human samples suggesting that mice might not regulate the HIG2 expression in CD4 + T lymphocytes as human beings do

Células T CD4+ naive

HIG2

HIG2

Naive CD4+ T cells

Thymocytes

Timócitos

Via Wnt/beta-catenina

Wnt/beta-catenin pathway

Perfil de expressão de genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ de camundongos BALB/c / Gene expression profile of Wnt/beta-catenin pathway elements in thymocytes and CD4 + T lymphocytes of BALB/c mice.

Taccyanna Mikulski Ali

27 August 2015

INTRODUÇÃO: A molécula HIG2 pode atuar como agonista da via Wnt/beta-catenina, pois se liga ao receptor Frizzled 10 e induz a expressão de genes da mesma. Dados recentes do nosso grupo mostraram expressão diferencial do gene HIG2 em células mononucleares do sangue periférico e em especial linfócitos T CD4+ naïve, mas não em células diferenciadas de memória em indivíduos sadios. Também observamos in vitro em linfócitos T CD4+ de indivíduos saudáveis que o peptídeo sintético HIG2 induziu a ativação da via Wnt/beta-catenina, produção de HIG2 e outros produtos da via, além da proliferação de células T CD4+ naïve sugerindo um papel do HIG2 na proliferação homeostática de linfócitos T CD4+. HIPÓTESE: Como as células T CD4+ naïve são diretamente exportadas pelo timo, os níveis aumentados de HIG2 neste tipo celular sejam decorrentes da ativação da via Wnt/?-catenina nos estágios tardios da diferenciação de timócitos. Portanto, as células T CD4+ naïve e timócitos simples positivos para CD4 (SP CD4) apresentariam perfil semelhante de expressão de HIG2 e genes da via Wnt/beta-catenina, incluindo receptores, fatores de transcrição, genes estruturais da via e alvos quando comparadas as demais populações celulares. OBJETIVO: Avaliar a expressão de HIG2 e outros genes da via Wnt/beta-catenina em timócitos e linfócitos T CD4+ naïve e memória de camundongos. MÉTODOS: Isolamos timócitos duplo negativos (DN), timócitos duplo positivos (DP), simples positivos para CD4 e CD8 (SP CD4 e SP CD8) de timo e também células T CD4+ naïve e memória do baço dos mesmos camundongos pelo procedimento de citometria de fluxo. Analisamos a expressão de vários genes da via Wnt/beta-catenina por PCR em tempo real. RESULTADOS: Em timócitos DN há expressão significativa dos genes que codificam para Frizzled 6, LRP5, TCF-1 e TCF-4 em relação as outras populações celulares. Nos timócitos DP há maior expressão dos genes que codificam para LRP5, LRP6, beta-catenina, GSK-3beta, TCF-1 e Bcl-XL em relação às demais populações. Em timócitos SP CD4 foi detectada expressão diferencial de genes que codificam para Frizzled 10, LRP6, beta-catenina, LEF-1 e HIG2 enquanto que na população de timócitos SP CD8 não observamos expressão significativa de nenhum gene da via Wnt/beta-catenina. Nas células T CD4+ naïve há expressão significativa de Frizzled 5 e Frizzled 10 quando comparadas a timócitos SP CD8 e células T CD4+ de memória . Já nos linfócitos T CD4+ de memória, detectamos maior expressão de Frizzled 6, TCF-4, Bcl-XL e ciclina D1 em relação as demais populações. CONCLUSÃO: Cada população apresenta um perfil distinto de expressão gênica. As maiores semelhanças ocorrem entre os timócitos DN e DP onde as principais diferenças são a expressão de Frizzled 6 e Ciclina D1.Os timócitos SP CD4 e as células T CD4+ naïve não apresentaram níveis semelhantes de expressão gênica de elementos da via Wnt canônica, o que não corrobora a hipótese de que o perfil transcripcional de timócitos SP CD4 e linfócitos T CD4+ naïve é semelhante. Ainda, não observamos expressão aumentada de HIG2 em linfócitos T CD4+ naïve comparados aos de memória, o que contrasta com os resultados obtidos anteriormente por nosso grupo com amostras humanas sugerindo que camundongos não regulam a expressão de HIG2 em linfócitos T CD4+ como os seres humanos / INTRODUCTION: HIG2 molecule can act as an agonist of Wnt/?-catenin pathway, because it able to bind to Frizzled 10 receptor and induce the expression of the genes related to this pathway. Recent data from our group have shown differential expression of the HIG2 gene in peripheral blood mononuclear cells, and particularly in naive CD4 + T cells, but not in memory T cells in healthy individuals. We have also observed that inducing the CD4 + T lymphocytes from healthy individuals with HIG2 synthetic peptide in vitro, led to the activation of Wnt/beta-catenin pathway, HIG2 production and expression of other target genes of this pathway and the proliferation of naïve CD4 + T cells, suggesting that HIG2 may play a role in homeostatic proliferation of CD4+ T cells. HYPOTHESIS: As naïve CD4 + T cells are directly exported from the thymus, we have hypothesized that increased levels of HIG2 in this cell type is due to the activation of Wnt/beta-catenin pathway in the later stages of thymocyte differentiation. Therefore, naïve CD4 + T cells and CD4 single-positive thymocytes (CD4 SP) may share a similar pattern of gene expression of HIG2 and Wnt/beta-catenin genes (genes that encodes receptors and co-receptors, transcription factors, structural and target genes) when compared to other cell populations. AIM: our major aim is to evaluate the expression of HIG2 and other genes of the Wnt/beta-catenin in thymocytes, naïve CD4 + T lymphocytes and memory CD4+ T cells from mice. METHODS: We have isolated thymocytes double negative (DN) T cells, positive double positive (DP) T cells, CD4 and CD8 single-positive thymocytes (CD4 SP and CD8 SP) of thymus from BALB/c mice and we have also isolated naïve CD4 + T cells and memory CD4+ T cells of the spleen from the same mice we have used the thymus. We have analysed the expression of several genes of Wnt/beta-catenin by real time PCR RESULTS: In DN cells there was expression of the Frizzled 6, LRP5, TCF-1 and TCF-4 genes compared to other cell populations. In DP thymocytes it could be observed a greater expression of LRP5, LRP6, beta-catenin, GSK-3beta, TCF-1 and Bcl-XL genes compared to other populations. In CD4 SP thymocytes, it was detected differential expression of the Frizzled 10, LRP6, beta-catenin, LEF-1 HIG2 genes and in CD8 SP cells we could not observe significant expression of any gene of Wnt/?-catenin pathway. In naïve CD4 + T cells there was a significant expression of Frizzled5 and Frizzled 10 genes when compared to all the samples. In memory CD4 + T cells, we have detected higher expression of Frizzled 6, TCF-4, Bcl-XL and cyclin D1 genes than in any other populations. CONCLUSION: Each population has a distinct gene expression pattern. The biggest similarities occur between DN and DP thymocytes where the main differences are the expression of Frizzled 6 and cyclin D1.However, the pattern of gene expression in SP thymocytes is not similar to those presented by naïve CD4+ T cells. Moreover, we have not observed increased expression of HIG2 in naïve CD4 + lymphocytes compared to memory CD4+ T cells, which contrasts the results obtained previously by our group with human samples suggesting that mice might not regulate the HIG2 expression in CD4 + T lymphocytes as human beings do

Células T CD4+ naive

HIG2

Timócitos

Via Wnt/beta-catenina

HIG2

Naive CD4+ T cells

Thymocytes

Wnt/beta-catenin pathway

TLR2 Involved in Naive CD4+ T Cells Rescues Stress-Induced Immune Suppression by Regulating Th1/Th2 and Th17

Zhao, Jing, Liu, Jing, Denney, James, Li, Chen, Li, Fang, Chang, Fen, Chen, Mingyou, Yin, Deling

01 January 2015

Stress, either physical or psychological, can have a dramatic impact on our immune system. There has been little progress, however, in understanding chronic stress-induced immunosuppression. Naive CD4+ T cells could modulate immune responses via differentiation to T helper (Th) cells. In this study, we showed that stress promotes the release of the Th1 cytokines interferon (IFN)-γ and tumor necrosis factor (TNF)-α, the Th2 cytokines interleukin (IL)-4 and IL-10 and the Th17 cytokine IL-17 of splenic naive CD4+ T cells. This suggests that stress promotes the differentiation of naive CD4+ T cells to Th1, Th2 and Th17 cells. Knockout strategies verified that TLR2 might modulate the differentiation of Th1/Th2 cells by inhibiting p38 mitogen-activated protein kinase (MAPK). Taken together, our data suggest that chronic stress induces immune suppression by targeting TLR2 and p38 MAPK in naive CD4+ T cells.

chronic stress

immune suppression

mitogen-activated protein kinase

naive CD4+ T cells

toll-like receptor 2

Internal Medicine

Contact-Dependent Activation of Macrophages by Naive CD4⁺ T cells.

Hoellman, John Richard

01 August 2000

Naive T cells are positioned at the origin of adaptive immune responses. The activation of naive T cells is usually viewed from the perspective of IL-2 production and entry into the cell cycle. This activation is antigen specific and MHC restricted via TCR ligation/CD3 signaling but also demands the simultaneous ligation of and signaling via CD28. Naive T cell TCR ligation without appropriate co-stimulus produces an anergic state, in which the naive T cell fails to produce IL-2 or expand clonally. It is implied that cells that might present self-destructive antigens would be incapable of delivering required costimulus thus avoiding initiation of inappropriate immune responses. However, CD45RBhi expressing THP cells express high levels of CD40L that is sustained following extended periods of TCR/CD3 stimulation. CD40L is the major T cell molecule involved in contact-dependent signaling of both B-cell and macrophage effector functions. This suggests that naive CD4+ T cells are capable of participating in and contributing to on-going immune responses following signaling via TCR/CD3 alone. This dissertation represents efforts to analyze the contact signaling capability of naive CD4+ T cells and their ability to trigger macrophage cytocidal/tumoricidal functions. The data generated by this research demonstrate that: Naive T cell purification by endothelial panning was superior to the standard method of CD44 panning for studies on T cell mediated macrophage activation. The activation requirements for contact signaling of macrophages by naive T cells are less stringent than the requirements for activation of naive T cell proliferation. Viable naive THP and antigen presenting splenic macrophages are capable of delivering reciprocal activating signals. Viable naive THP responding to presented antigen were able to trigger IFNg-primed macrophages to produce nitric oxide by both CD40L-dependent and CD40L-independent signaling pathways.

macrophage activation

cell contact-signaling

naive CD4 T cells

Life Sciences

Medical Sciences

Medicine and Health Sciences

Microbiology

Caractérisation in vivo de la réponse des lymphocytes T CD4+ naïfs spécifiques d'un néoantigène à différents stades du développement tumoral / Characterization of the in vivo response of naive CD4+ T cells upon tumor neoantigen recognition at different stages of tumor development

Alonso Ramirez, Ruby

23 November 2016

Au cours du développement tumoral, le système immunitaire est constamment exposé aux antigènes tumoraux, mais le plus souvent dans un contexte non-inflammatoire qui favorise l'induction d'une tolérance envers ces antigènes. La tolérance peut être médiée par des mécanismes passifs (ignorance, anergie ou délétion des clones spécifiques de la tumeur) ou actifs, pour lesquels les lymphocytes T régulateurs (Tregs) jouent un rôle prépondérant. Les lymphocytes T (LT) CD4+ sont la source principale des Tregs mais présentent également des fonctions antitumorales directes et indirectes. Les connaissances actuelles sur le rôle des LT CD4+ au cours du développement tumoral proviennent en grande partie d'études de modèles murins de tumeurs transplantées. Cependant, l'inflammation initiée lors de l'inoculation de ces tumeurs due à une mort cellulaire importante favorise la présentation persistante par le MHC-II des antigènes tumoraux dans un environnement inflammatoire artificiel. Nous tentons ici de contourner ce problème en utilisant deux modèles murins différents: le premier est un modèle de tumeur transplantée dans lequel un néoantigène de classe II (DBY) est induit à distance du moment de l'inoculation de la tumeur. Le deuxième est un modèle d'adénocarcinome pulmonaire induit génétiquement exprimant l’epitope DBY, dans lequel la tumorigenèse est initiée par l'expression d’un oncogène associée à la délétion d’un gène suppresseur de tumeurs. La réponse antitumorale des LT CD4+ est suivie par le transfert de LT CD4+ spécifiques de DBY "Marilyn". Dans le modèle de tumeur transplantée, nous montrons que l'apparition d'un néoantigène dans une tumeur bien établie n'est pas ignorée par le système immunitaire. Bien au contraire, le néoantigène arrive au ganglion drainant la tumeur et induit une activation efficace des cellules Marilyn, qui prolifèrent, produisent de l'IFN-γ et recirculent jusqu'à la tumeur. En revanche, malgré une activation efficace des LT CD4+, les tumeurs ne sont pas rejetées. Dans le modèle génétiquement induit, nous montrons que des néoantigènes exprimés dès le début du développement tumoral, arrivent jusqu'au ganglion drainant la tumeur en quantité suffisante pour induire l'activation et la prolifération des LT CD4+, mais que cette activation est non-optimale et ne permet qu'une faible migration vers le site de la tumeur. En revanche, une partie des cellules Marilyn acquièrent l'expression de FOXP3 ainsi qu'une signature transcriptomique de Tregs et ce dès les stades précoces du développement tumoral, tandis que le reste des cellules Marilyn présentent un phénotype anergique (CD44hiCD73hiFR4hi). L'administration de CpG n'empêche pas la conversion en Treg des cellules Marilyn, malgré l'augmentation de la maturation des cellules dendritiques dans le poumon et le ganglion drainant la tumeur. La déplétion des Tregs de l'hôte en revanche inhibe cette conversion et favorise l'activation des cellules Marilyn en cellules effectrices compétentes, capables de migrer jusqu'au site tumoral. Enfin, les cellules Marilyn, lorsqu'elles sont activées hors du ganglion drainant la tumeur échappent à l'inhibition induite par la tumeur et deviennent des cellules effectrices compétentes. Ainsi, dans un modèle tumoral reproduisant le développement naturel progressif des tumeurs humaines, un état de tolérance est induit par la tumeur. Cette tolérance est dépendante des Tregs présents dans le ganglion drainant la tumeur, qui confèrent une tolérance aux LT CD4+ naïfs arrivant dans le ganglion. / During tumor development, the immune system is persistently exposed to tumor-associated antigens, frequently in a non-inflammatory context, favoring the establishment of tolerance. Passive (ignorance, anergy or deletion of tumor-specific T cells) or active mechanisms mediated by regulatory T cells (Tregs) may be involved in tolerance. CD4+ T cells are the main source of Tregs but they also display indirect and direct antitumor activity. So far, the contribution of CD4+ T cells during tumor development has been mainly addressed in murine transplanted tumor models. However, in these models the artificial inflammation associated with the presence of dying tumor cells at the time of tumor inoculation favors a long-lasting MHC-II-restricted tumor antigen presentation in an artificial inflammatory context. Here, we addressed this issue using two different models: a transplanted one in which the MHC-II neoantigen (DBY) is induced long after tumor implantation and a genetically engineered mouse (GEM) model of lung adenocarcinoma also expressing the DBY epitope, in which malignant transformation results from both the expression of an oncogene and the deletion of a tumor suppressor gene. Tumor-specific CD4+ T cell response was followed by transfer of naive DBY-specific Marilyn CD4+ T cells. In the transplanted tumor model, we found that the appearance of a neoantigen in established tumors was not ignored by the immune system. On the contrary, the neoantigen reached the tumor-draining lymph node (TdLN) and induced efficient priming of Marilyn cells that proliferated, produced IFN-γ, and recirculated to the tumor site. However, despite efficient induction of a tumor-specific CD4+ T cell response, tumors were not rejected. In the GEM model, we found that starting at the early tumor stages, neoantigens were expressed and reached the TdLN in sufficient amount to induce activation and proliferation of naive Marilyn T cells. However, this priming was suboptimal and resulted in a weak migration to the tumor site. Instead, some of the activated Marilyn cells acquired the expression of FOXP3 and a Treg gene signature while the remaining FOXP3- cells displayed a CD44hiCD73hiFR4hi anergic phenotype. CpG administration did not revert the Marilyn Treg conversion despite reinforcing dendritic cell maturation in the lung and the TdLN. Depletion of the host Treg compartment however, inhibited this conversion and favored Marilyn cell activation into full-blown effector cells able to migrate to the tumor site. Finally, Marilyn cells that were primed at distance of the TdLN, escaped tumor induced inhibition and became full effectors. Thus, in a tumor model reproducing the natural development of slowly growing human tumors, a tumor-associated dominant tolerance is established in the lymph node draining the tumor. This state of unresponsiveness is highly dependent on the presence of Treg cells in the TdLN, conferring tolerance to incoming tumor-specific naive CD4+ T cells.

Lymphocytes T CD4+ naïfs

Ganglion drainant la tumeur

Cellules anergiques

Cellules T régulatrices

Tolérance immune

Naive CD4+ T cells

Tumor-draining lymph node

Anergic cells

Regulatory T cells

Immune tolerance

616.99

La toxine de Bordetella pertussis active les cellules dendritiques et les lymphocytes T CD4 naïfs chez l'homme / Pertussis toxin activates dendritic cells and naive CD4 T lymphocytes in humans

Tonon, Sandrine

03 July 2006

La toxine de pertussis (PTX) est une A-B protéine considérée comme l’un des principaux facteurs de virulence de Bordetella pertussis, l’agent bactérien responsable de la coqueluche. Aujourd’hui, cette maladie représente encore un réel danger pour les nouveaux-nés et les<p>nourrissons non ou partiellement immunisés. Actuellement, la coqueluche provoque encore la<p>mort d’environ 350.000 individus par an. La toxicité de la PTX est liée à l’activité<p>enzymatique de sa sous-unité A capable d’inhiber les voies de signalisation associées aux<p>protéines Gi. La partie B, quant à elle, permet l’entrée de cette sous-unité A dans le<p>cytoplasme des cellules cibles en se liant spécifiquement à son ou ses récepteurs<p>membranaires toujours inconnus de nos jours.<p><p>Des études réalisées chez la souris et chez l’homme ont montré que les vaccins anticoquelucheux combinés à différents antigènes vaccinaux étaient capables de moduler<p>leurs réponses humorales spécifiques. Par ailleurs, la PTX est couramment qualifiée d’agent<p>immunostimulant. En effet, des modèles murins de vaccination permirent d’identifier des<p>propriétés adjuvantes de la PTX coadministrée avec des antigènes non relevants.<p><p>Le travail développé dans ce manuscrit étudie les effets de la PTX sur 2 types cellulaires<p>primordiaux sollicités lors d’une vaccination :la cellule dendritique (DC) et le lymphocyte T<p>CD4+ naïf.<p><p>Les DC sont les seules cellules présentatrices d’antigènes aptes à initier une réponse immune<p>primaire. Dans un premier temps, nous avons montré que la PTX était capable d’activer des<p>DC générées in vitro à partir de monocytes. En effet, elles acquièrent un phénotype mature<p>caractérisé par une augmentation de l’expression membranaire des molécules costimulatrices<p>et du CMH de classe II, démontrant un effet direct et spécifique de la PTX sur les DC<p>myéloïdes. Parallèlement, ces DC produisent du TNF-a, de l’IL-12p40 et de l’IL-12p70 et<p>activent NF-kappaB, un facteur de transcription essentiel au processus de maturation. Nous<p>avons obtenu des résultats similaires avec une toxine génétiquement modifiée qui est<p>enzymatiquement inactive. A partir de sang total incubé avec la PTX, nous avons par ailleurs<p>observé que les DC circulantes du nouveau-né étaient déficientes dans leur maturation et leur<p>sécrétion d’IL-12p70 comparées aux DC de l’adulte.<p><p>D’autre part, il a été décrit précédemment que la PTX exerçait des effets mitogènes sur les<p>lymphocytes T humains et murins. Cependant, le rôle qu’elle joue sur la population des<p>lymphocytes T CD4 naïfs reste peu connu. A l’issue de notre second travail, nous pouvons<p>dès lors affirmer que la PTX est également capable d’activer des lymphocytes T<p>CD4+CD45RA+ naïfs isolés à partir des cellules mononuclées du sang périphérique, et ce<p>indépendamment de son activité enzymatique. En effet, ces lymphocytes T CD4+ naïfs stimulés par la PTX prolifèrent, synthétisent des quantités non négligeables d'ARN messagers<p>codant pour l’IL-2 et le TNF-a, augmentent l’expression membranaire des molécules CD40L,<p>CD69 et CD25 et expriment la protéine Foxp3. Cette activation s’accompagne de la translocation nucléaire de NF-kappaB et NFAT. Parallèlement à l’adulte, la PTX active les lymphocytes T CD4 néonataux. Néanmoins, ceux-ci prolifèrent moins bien et expriment plus faiblement le CD40L à leur surface.<p><p>Enfin, la PTX induit la sécrétion de taux importants d’IFN-g par des T CD4+CD45RA+ naïfs<p>adultes mis en présence de DC autologues.<p><p>Nous terminerons en proposant l’hypothèse suivante :La PTX pourrait exercer ses propriétés<p>adjuvantes par l’intermédiaire de différents mécanismes comprenant notamment la maturation<p>des DC d’origine myéloïde et l’activation des lymphocytes T CD4+CD45RA+ naïfs. Ces 2 populations cellulaires sont en effet les principaux protagonistes impliqués dans la réponse<p>immune primaire. / Doctorat en sciences pharmaceutiques / info:eu-repo/semantics/nonPublished

Sciences pharmaceutiques

Bordetella pertussis

Whooping cough

Pertussis vaccines

Newborn infants -- Immunology

Dendritic cells

T cells

Bordetella pertussis

Coqueluche

Vaccins anticoquelucheux

Nouveau-nés -- Immunologie

Cellules dendritiques

Lymphocytes T

Neonates

Newborns

Dendritic cells (DC)

Pertussis toxin (PTX)

Naive CD4 T lymphocytes