Perpetuation of immunological memory through common MHC-I binding modes of peptidomimic and antigenic peptides

Understanding the molecular mechanisms of immunological memory assumes importance in vaccine design. We had earlier hypothesized a mechanism for the maintenance of immunological memory through the operation of a network of idiotypic and anti-idiotypic antibodies (Ab2). Peptides derived from an internal image carrying anti-idiotypic antibody are hypothesized to facilitate the perpetuation of antigen specific T cell memory through similarity in peptide-MHC binding as that of the antigenic peptide. In the present work, the existence of such peptidomimics of the antigen in the Ab2 variable region and their similarity of MHC-I binding was examined by bioinformatics approaches. The analysis employing three known viral antigens and one tumor-associated antigen shows that peptidomimics from Ab2 variable regions have structurally similar MHC-I binding patterns as compared to antigenic peptides, indicating a structural basis for memory perpetuation. (C)) 2007 Elsevier Inc. All rights reserved.

Modelling Immunological Memory

Accurate immunological models offer the possibility of performing highthroughput experiments in silico that can predict, or at least suggest, in vivo phenomena. In this chapter, we compare various models of immunological memory. We first validate an experimental immunological simulator, developed by the authors, by simulating several theories of immunological memory with known results. We then use the same system to evaluate the predicted effects of a theory of immunological memory. The resulting model has not been explored before in artificial immune systems research, and we compare the simulated in silico output with in vivo measurements. Although the theory appears valid, we suggest that there are a common set of reasons why immunological memory models are a useful support tool; not conclusive in themselves.

Structural basis for the function of anti-idiotypic antibody in immune memory

We had earlier proposed a hypothesis to explain the mechanism of perpetuation of immunological memory based on the operation of idiotypic network in the complete absence of antigen. Experimental evidences were provided for memory maintenance through anti-idiotypic antibody (Ab2) carrying the internal image of the antigen. In the present work, we describe a structural basis for such memory perpetuation by molecular modeling and structural analysis studies. A three-dimensional model of Ab2 was generated and the structure of the antigenic site on the hemagglutinin protein H of Rinderpest virus was modeled using the structural template of hemagglutinin protein of Measles virus. Our results show that a large portion of heavy chain containing the CDR regions of Ab2 resembles the domain of the hemagglutinin housing the epitope regions. The similarity demonstrates that an internal image of the H antigen is formed in Ab2, which provides a structural basis for functional mimicry demonstrated earlier. This work brings out the importance of the structural similarity between a domain of hemagglutinin protein to that of its corresponding Ab2. It provides evidence that Ab2 is indeed capable of functioning as surrogate antigen and provides support to earlier proposed relay hypothesis which has provided a mechanism for the maintenance of immunological memory.

Structural basis for the function of anti-idiotypic antibody in immune memory

We had earlier proposed a hypothesis to explain the mechanism of perpetuation of immunological memory based on the operation of idiotypic network in the complete absence of antigen. Experimental evidences were provided for memory maintenance through anti-idiotypic antibody (Ab(2)) carrying the internal image of the antigen. In the present work, we describe a structural basis for such memory perpetuation by molecular modeling and structural analysis studies. A three-dimensional model of Ab(2) was generated and the structure of the antigenic site on the hemagglutinin protein H of Rinderpest virus was modeled using the structural template of hemagglutinin protein of Measles virus. Our results show that a large portion of heavy chain containing the CDR regions of Ab(2) resembles the domain of the hemagglutinin housing the epitope regions. The similarity demonstrates that an internal image of the H antigen is formed in Ab(2), which provides a structural basis for functional mimicry demonstrated earlier. This work brings out the importance of the structural similarity between a domain of hemagglutinin protein to that of its corresponding Ab(2). It provides evidence that Ab(2) is indeed capable of functioning as surrogate antigen and provides support to earlier proposed relay hypothesis which has provided a mechanism for the maintenance of immunological memory.

Targeting antigen to diverse APCs inactivates memory CD8+ T cells without eliciting tissue-destructive effector function

Memory T cells develop early during the preclinical stages of autoimmune diseases and have traditionally been considered resistant to tolerance induction. As such, they may represent a potent barrier to the successful immunotherapy of established autoimmune diseases. It was recently shown that memory CD8+ T cell responses are terminated when Ag is genetically targeted to steady-state dendritic cells. However, under these conditions, inactivation of memory CD8+ T cells is slow, allowing transiently expanded memory CD8+ T cells to exert tissue-destructive effector function. In this study, we compared different Ag-targeting strategies and show, using an MHC class II promoter to drive Ag expression in a diverse range of APCs, that CD8+ memory T cells can be rapidly inactivated by MHC class II+ hematopoietic APCs through a mechanism that involves a rapid and sustained downregulation of TCR, in which the effector response of CD8+ memory cells is rapidly truncated and Ag-expressing target tissue destruction is prevented. Our data provide the first demonstration that genetically targeting Ag to a broad range of MHC class II+ APC types is a highly efficient way to terminate memory CD8+ T cell responses to prevent tissue-destructive effector function and potentially established autoimmune diseases. Copyright © 2010 by The American Association of Immunologists, Inc.

A CD8(+) T cell clone specific for antigen also recognizes peptidomimics present in anti-idiotypic antibody: Implications for T cell memory

The relay hypothesis [R. Nayak, S. Mitra-Kaushik, M.S. Shaila, Perpetuation of immunological memory: a relay hypothesis, Immunology 102 (2001) 387-395] was earlier proposed to explain perpetuation of immunological memory without requiring long lived memory cells or persisting antigen. This hypothesis envisaged cycles of interaction and proliferation of complementary idiotypic B cells (Burnet cells) and anti-idiotypic B cells (Jerne cells) as the primary reason for perpetuation of immunological memory. The presence of pepti-domimics of antigen in anti-idiotypic antibody and their presentation to antigen specific T cells was postulated to be primary reason for perpetuation of T cell memory. Using a viral hemagglutinin as a model, in this work, we demonstrate the presence of peptidomimics in the variable region of ail anti-idiotypic antibody capable of functionally mimicking the antigen derived peptides. A CD8(+) CTL clone was generated against the hemagglutinin protein which specifically responds to either peptidomimic synthesizing cells or peptidomimic pulsed antigen presenting cells. Thus, it appears reasonable that a population of activated antigen specific T cells is maintained in the body by presentation of peptidomimic through Jerne cells and other antigen presenting cells long after immunization. (C) 2007 Elsevier Inc. All rights reserved.

Gradual Decline in Malaria-Specific Memory T Cell Responses Leads to Failure to Maintain Long-Term Protective Immunity to Plasmodium chabaudi AS Despite Persistence of B Cell Memory and Circulating Antibody

The mechanisms responsible for the generation and maintenance of immunological memory to Plasmodium are poorly understood and the reasons why protective immunity in humans is so difficult to achieve and rapidly lost remain a matter for debate. A possible explanation for the difficulty in building up an efficient immune response against this parasite is the massive T cell apoptosis resulting from exposure to high-dose parasite Ag. To determine the immunological mechanisms required for long-term protection against P. chabaudi malaria and the consequences of high and low acute phase parasite loads for acquisition of protective immunity, we performed a detailed analysis of T and B cell compartments over a period of 200 days following untreated and drug-treated infections in female C57BL/6 mice. By comparing several immunological parameters with the capacity to control a secondary parasite challenge, we concluded that loss of full protective immunity is not determined by acute phase parasite load nor by serum levels of specific IgG2a and IgG1. Abs, but appears to be a consequence of the progressive decline in memory T cell response to parasites, which occurs similarly in untreated and drug-treated mice with time after infection. Furthermore, by analyzing adoptive transfer experiments, we confirmed the major role of CD4(+) T cells for guaranteeing long-term full protection against P. chabaudi malaria. The Journal of Immunology, 2008, 181: 8344-8355.

Immunological parameters related to the adjuvant effect of the ordered mesoporous silica SBA-15

In 2006, the first report of a nanostructured material as adjuvant was described establishing the effectiveness of the ordered mesoporous SBA-15 silica as an immune adjuvant. The present study evaluated the SBA-15 capacity to modulate the immune responsiveness of High and Low responder mice immunized with BSA encapsulated/adsorbed in SBA-15 by the intramuscular or oral route and the adjuvant effect was compared with the responsiveness induced by BSA in aluminum hydroxide salts or emulsified in Incomplete Freund adjuvant. These results demonstrate the ability of the non-toxic SBA-15 nanoparticles to increase the immunogenicity and repair the responsiveness of the constitutively low responder individuals inducing both the IgG2a and the IgG1 isotypes, independently of the immune cell committed and conditioning the low phenotype. This new adjuvant may reveal novel therapeutic targets for immune modulation and vaccine design. (C) 2010 Elsevier Ltd. All rights reserved.

Analysis of the memory B cell response against glycoconjugate vaccines

The development of vaccines directed against polysaccharide capsules of S. pneumoniae, H. influenzae and N. meningitidis have been of great importance in preventing potentially fatal infections. Bacterial capsular polysaccharides are T-cell-independent antigens that induce specific antibody response characterized by IgM immunoglobulins, with a very low IgG class switched response and lack of capability of inducing a booster response. The inability of pure polysaccharides to induce sustained immune responses has required the development of vaccines containing polysaccharides conjugated to a carrier protein, with the aim to generate T cell help. It is clear that the immunogenicity of glycoconjugate vaccines can vary depending on different factors, e.g. chemical nature of the linked polysaccharide, carrier protein, age of the target population, adjuvant used. The present study analyzes the memory B cell (MBC) response to the polysaccharide and to the carrier protein following vaccination with a glycoconjugate vaccine for the prevention of Group B streptococcus (GBS) infection. Not much is known about the role of adjuvants in the development of immunological memory raised against GBS polysaccharides, as well as about the influence of having a pre-existing immunity against the carrier protein on the B cell response raised against the polysaccharide component of the vaccine. We demonstrate in the mouse model that adjuvants can increase the antibody and memory B cell response to the carrier protein and to the conjugated polysaccharide. We also demonstrate that a pre-existing immunity to the carrier protein favors the development of the antibody and memory B cell response to subsequent vaccinations with a glycoconjugate, even in absence of adjuvants. These data provide a useful insight for a better understanding of the mechanism of action of this class of vaccines and for designing the best vaccine that could result in a productive and long lasting memory response.

Microbe-induced activation of inflammatory cytokine response in human cells

Human body is in continuous contact with microbes. Although many microbes are harmless or beneficial for humans, pathogenic microbes possess a threat to wellbeing. Antimicrobial protection is provided by the immune system, which can be functionally divided into two parts, namely innate and adaptive immunity. The key players of the innate immunity are phagocytic white blood cells such as neutrophils, monocytes, macrophages and dendritic cells (DCs), which constantly monitor the blood and peripheral tissues. These cells are armed for rapid activation upon microbial contact since they express a variety of microbe-recognizing receptors. Macrophages and DCs also act as antigen presenting cells (APCs) and play an important role in the development of adaptive immunity. The development of adaptive immunity requires intimate cooperation between APCs and T lymphocytes and results in microbe-specific immune responses. Moreover, adaptive immunity generates immunological memory, which rapidly and efficiently protects the host from reinfection. Properly functioning immune system requires efficient communication between cells. Cytokines are proteins, which mediate intercellular communication together with direct cell-cell contacts. Immune cells produce inflammatory cytokines rapidly following microbial contact. Inflammatory cytokines modulate the development of local immune response by binding to cell surface receptors, which results in the activation of intracellular signalling and modulates target cell gene expression. One class of inflammatory cytokines chemokines has a major role in regulating cellular traffic. Locally produced inflammatory chemokines guide the recruitment of effector cells to the site of inflammation during microbial infection. In this study two key questions were addressed. First, the ability of pathogenic and non-pathogenic Gram-positive bacteria to activate inflammatory cytokine and chemokine production in different human APCs was compared. In these studies macrophages and DCs were stimulated with pathogenic Steptococcus pyogenes or non-pathogenic Lactobacillus rhamnosus. The second aim of this thesis work was to analyze the role of pro-inflammatory cytokines in the regulation of microbe-induced chemokine production. In these studies bacteria-stimulated macrophages and influenza A virus-infected lung epithelial cells were used as model systems. The results of this study show that although macrophages and DCs share several common antimicrobial functions, these cells have significantly distinct responses against pathogenic and non-pathogenic Gram-positive bacteria. Macrophages were activated in a nearly similar fashion by pathogenic S. pyogenes and non-pathogenic L. rhamnosus. Both bacteria induced the production of similar core set of inflammatory chemokines consisting of several CC-class chemokines and CXCL8. These chemokines attract monocytes, neutrophils, dendritic cells and T cells. Thus, the results suggest that bacteria-activated macrophages efficiently recruit other effector cells to the site of inflammation. Moreover, macrophages seem to be activated by all bacteria irrespective of their pathogenicity. DCs, in contrast, were efficiently activated only by pathogenic S. pyogenes, which induced DC maturation and production of several inflammatory cytokines and chemokines. In contrast, L. rhamnosus-stimulated DCs matured only partially and, most importantly, these cells did not produce inflammatory cytokines or chemokines. L. rhamnosus-stimulated DCs had a phenotype of "semi-mature" DCs and this type of DCs have been suggested to enhance tolerogenic adaptive immune responses. Since DCs have an essential role in the development of adaptive immune response the results suggest that, in contrast to macrophages, DCs may be able to discriminate between pathogenic and non-pathogenic bacteria and thus mount appropriate inflammatory or tolerogenic adaptive immune response depending on the microbe in question. The results of this study also show that pro-inflammatory cytokines can contribute to microbe-induced chemokine production at multiple levels. S. pyogenes-induced type I interferon (IFN) was found to enhance the production of certain inflammatory chemokines in macrophages during bacterial stimulation. Thus, bacteria-induced chemokine production is regulated by direct (microbe-induced) and indirect (pro-inflammatory cytokine-induced) mechanisms during inflammation. In epithelial cells IFN- and tumor necrosis factor- (TNF-) were found to enhance the expression of PRRs and components of cellular signal transduction machinery. Pre-treatment of epithelial cells with these cytokines prior to virus infection resulted in markedly enhanced chemokine response compared to untreated cells. In conclusion, the results obtained from this study show that pro-inflammatory cytokines can enhance microbe-induced chemokine production during microbial infection by providing a positive feedback loop. In addition, pro-inflammatory cytokines can render normally low-responding cells to high chemokine producers via enhancement of microbial detection and signal transduction.

Desenvolvimento e manutenção de memória imunológica após imunização contra Neisseria meningitidis B com a vacina VA-MENGOC-BC

Neisseria meningitidis é uma das principais causas de meningite bacteriana e septicemia em todo o mundo, acometendo principalmente crianças menores de 4 anos. Atualmente, não existe uma vacina universal contra o meningococo B (MenB). A imunidade protetora contra o meningococo caracteriza-se pela presença e persistência de anticorpos bactericidas, porém pouco se sabe sobre os mecanismos de desenvolvimento desta memória sorológica. Avaliamos em modelo animal e em humanos, a geração e manutenção das células secretoras de anticorpos (ASC) e dos linfócitos B de memória (LBm) após vacinação contra MenB. Utilizamos como referência a vacina diftérica (dT ou DTP), considerada ter ótima eficácia em humanos. Para o estudo em modelo animal, grupos de 6 a 8 camundongos suíços, fêmeas, de 5 a 6 semanas, foram imunizados com 3 doses da vacina VA-MENGOC-BC ou DTP, via intramuscular, com intervalo de 2 semanas entre as doses. Aproximadamente 2, 4 ou 6 meses após a última dose, os animais receberam a dose reforço. A vacina anti-MenB induziu uma resposta primária de ASC maior que a resposta à dose reforço. Ao contrário, a resposta de ASC à vacina dT foi maior após o booster. A resposta de LBm anti-MenB permaneceu constante (média de 1%) ao longo de todo o estudo, mas a resposta ao toxóide diftérico (TD) foi maior após o booster (média de 1,9%) que após a imunização primária. A concentração de IgG, anticorpos bactericidas e opsonizantes contra MenB foi dose-dependente e foi reativada após a administração das doses reforços. Esses resultados sugerem que os LBm presentes no baço foram responsáveis pela forte resposta de anticorpos observada após a dose reforço. Para o TD, ambos ASC e LBm foram importantes na manutenção da memória sorológica. Para o estudo em humanos, seis voluntários foram imunizados com 3 doses da vacina VA-MENGOC-BC, via intramuscular, com intervalo de 6 a 7 semanas entre as doses. Seis meses após a imunização primária, os indivíduos receberam uma dose reforço. Outro grupo de voluntários (n = 5) foi imunizado com uma dose reforço da vacina dT. Somente após a terceira dose da vacina anti-MenB foi possível detectar a presença de LBm em todos os indivíduos. Seis meses após a imunização primária, a frequência de LBm voltou ao seu nível basal e não foi reativada após a dose booster. A vacina dT também induziu uma resposta de LBm heterogênea, mas esta foi 5 vezes maior que a induzida por VA-MENGOC-BC. A resposta de anticorpos funcionais anti-MenB foi de curta duração com pequena reativação após a dose reforço. As duas vacinas induziram diferentes frequências de LT de memória central (TCM) e de memória efetora (TEM) após a vacinação primária e após o booster. A resposta à dose booster foi caracterizada pelo aumento da população de linfócitos TCM e diminuição de TEM. A população de linfócitos TCM apresentou maior ativação (CD69+) que os linfócitos TEM, especialmente após a vacinação contra MenB. Concluindo, os dados desta tese indicam que a administração de 3 doses da vacina VA-MENGOC-BC teve uma eficiência limitada em humanos e sugerem que a baixa eficácia da vacina, quando utilizada na década de 90 em São Paulo e no Rio de Janeiro, pode estar relacionada à deficiência na geração e manutenção de LBm específicos.

Avaliação da resposta imunológica após vacinação ou infecção por Neisseria meningitidis

A doença meningocócica (DM) é, ainda hoje, um sério problema de saúde pública, estando associada a elevadas taxas de morbidade e letalidade no mundo. A DM evoca proteção imunológica persistente contra a doença em pessoas com sistema imunológico normal. Em contraste, a proteção induzida por vacinas meningocócicas sempre requer a administração de doses reforço (booster) da vacina. No Brasil, Neisseria meningitidis dos sorogrupos C (MenC) e B (MenB) são as principais causas de DM durante os últimos anos. Atualmente, não existe uma vacina universal contra o meningococo B (MenB). A infecção pelo vírus da imunodeficiência humana (HIV) tem sido apontada como um fator de risco para a mortalidade da DM. Um dos pilares do tratamento do HIV é a utilização de vacinas para doenças imuno-preveníveis. A vacina conjugada anti-MenC é frequentemente recomendada para crianças e adolescentes infectados pelo HIV no Brasil e em muitos outros países. Poucos estudos têm abordado os mecanismos pelos quais as vacinas meningocócicas geram e sustentam a memória imunológica. Os objetivos deste estudo foram: 1) avaliar a resposta de anticorpos bactericidas e de linfócito T (LT) CD4 de memória contra o meningococo após a infecção; 2) avaliar a resposta de anticorpos bactericidas e de LT CD4 de memória e linfócito B de memória (LBm) contra o meningococo após o booster da vacina cubana VA-MENGOC-BC em voluntários imunizados há aproximadamente 17 anos; 3) investigar a resposta de anticorpos funcionais (bactericidas e opsonizantes) após imunização com a vacina conjugada anti-MenC (CRM197) em indivíduos infectados pelo vírus HIV. Após a infecção, 83% dos pacientes diagnosticados como tendo DM pelo teste de látex e/ou cultura tiveram títulos de anticorpos bactericidas protetores, mas não houve uma associação entre os títulos de anticorpos bactericidas e a concentração de imunoglobulina total específica. Houve aumento na frequência de linfócitos T de memória central (TCM) (mediana de 15%) ativados, principalmente após estímulo com a cepa MenC. Nos voluntários pré-vacinados, 3 de 5 indivíduos soroconverteram 7 ou 14 dias após a administração da dose booster. Houve um aumento importante da população TCM 14 dias após o booster, mas sem ativação celular diferenciada dos grupos controles. Observamos resposta positiva de LBm na maioria dos voluntários, mas sem correlação com os anticorpos bactericidas. Em relação aos pacientes HIV positivos, os resultados mostraram a necessidade de uma segunda dose da vacina, já que apenas 15% soroconverteram a uma única dose e a segunda dose resultou em soroconversão de cerca de 55% dos indivíduos. Observamos correlação positiva (r= 0,43) e significativa (P= 0,0007) entre os anticorpos opsonizantes e bactericidas após a vacinação. Não observamos diferenças significativas quando relacionamos os títulos de anticorpos bactericidas com o número absoluto de LT CD4 P= 0,051) e LT CD4 nadir (P= 0,09) entre os pacientes que soroconverteram (n= 43) ou não soroconverteram (n= 106) após a primeira dose. Desta forma, os resultados desta tese indicaram que: 1) os pacientes convalescentes da DM adquirem anticorpos bactericidas após infecção por N. meningitidis; 2) nos voluntários vacinados, a dose booster da vacina anti-MenB não foi plenamente eficaz em ativar a memória imunológica através da produção de anticorpos bactericidas ou ativação de LTm; 3) os pacientes HIV positivos necessitam de uma dose booster da vacina conjugada anti-MenC.

The expression of peptidoglycan recognition protein-S1 gene in the scallop Chlamys farreri was enhanced after a second challenge by Listonella anguillarum

A more rapid and powerful response against repeated exposure of same pathogen in vertebrates is usually considered as the reflection of immunological memory, but it is not well understood in invertebrates. In the present Study, the temporal expression profiles of Chlamys farreri peptidoglycan recognition protein-S1 (CfPGRP-S1) gene after two challenges of Listonella anguillarum were examined to evaluate priming response in scallops. The up-regulation of CFPGRP-S1 mRNA occurred 3 h earlier, and the expression level was significant higher (P < 0.05), after the second challenge than that after the first challenge. The preliminary results Provided new insights into invertebrate immunological memory, and they also would be helpful to develop strategies for disease control. (C) 2008 Elsevier Inc. All rights reserved.

Étude de l’implication de la force du signal transmis par le récepteur des cellules T dans le développement et la survie des lymphocytes T mémoires

Suite à la rencontre d’un antigène (Ag) présenté à la surface des cellules présentatrice de l’Ag (CPA), les lymphocytes T naïfs, ayant un récepteur des cellules T (RCT) spécifique de l’Ag, vont proliférer et se différencier en LT effecteurs (1). Suite à l’élimination de l’Ag la majorité des LTe vont mourir par apoptose alors que les restants vont se différencier en LT mémoire (LTm) protégeant l’organisme à long terme. Les mécanismes qui permettent la différenciation des LTe en LTm sont encore inconnus. Pour comprendre comment les LTm CD8+ sont générés à partir des LTe, nous avons émis l’hypothèse que la densité de l’Ag présenté par les CPA peut avoir un impact sur la sélection des LT CD8+ répondant l’Ag à se différencier en LTm. De manière intéressante, nos résultats montrent qu’une immunisation avec des cellules dendritiques (DCs) exprimant un haut niveau de complexe CMH/peptide à sa surface permet le développement de LTm. À l’inverse, le développement des LTm est fortement réduit (10-20X) lorsque les souris sont immunisées avec des DCs exprimant un niveau faible de complexes CMH/peptide à leur surface. De plus, la quantité d’Ag n’a aucune influence ni sur l’expansion des LT CD8+ ni sur l’acquisition de leurs fonctions effectrices, mais affecte de manière critique la génération des LTm. Nos résultats suggèrent que le nombre de RCT engagé lors de la reconnaissance de l’Ag est important pour la formation des LTm. Pour cela nous avons observé par vidéo-microscopie le temps d’interaction entre des LTn et des DCs. Nos résultats montrent que le temps et la qualité de l’interaction sont dépendants de la densité d’Ag présenté par les DCs. Effectivement, nous observons une diminution dans le pourcentage de LT faisant une interaction prolongée avec les DCs quand le niveau d’Ag est faible. De plus, nous observons des variations de l’expression des facteurs de transcription clefs impliqués dans la différenciation des LTm tels qu’Eomes, Bcl-6 et Blimp-1. Par ailleurs, la densité d’Ag fait varier l’expression du Neuron-derived orphan nuclear receptor 1 (Nor-1). Nor-1 est impliqué dans la conversion de Bcl-2 en molécule pro-apoptotique et contribue à la mort par apoptose des LTe pendant la phase de contraction. Notre modèle propose que la densité de l’épitope contrôle la génération des CD8+ LTm. Une meilleure compréhension des mécanismes impliqués dans la génération des LTm permettra le développement de meilleures stratégies pour la génération de vaccin. Dans un second temps, nous avons évalué le rôle du signal RCT dans l’homéostasie des LTm. Pour ce faire, nous avons utilisé un modèle de souris transgénique pour le RCT dont son expression peut être modulée par un traitement à la tétracycline. Ce système nous a permis d’abolir l’expression du RCT à la surface des LTm. De manière intéressante, en absence de RCT exprimé, les LTm CD8+ peuvent survivre à long terme dans l’organisme et rester fonctionnels. De plus, une sous population des LTm CD4+ a la capacité de survivre sans RCT exprimé dans un hôte lymphopénique alors que l’autre sous population nécessite l’expression du RCT.