The Characterization of Zebrafish Natural Killer Cells and Their Role in Immunological Memory

Muire, Preeti Judith

08 December 2017

Rag1-/- mutant zebrafish lack lymphocytes and were used to study the basis of acquired protective immunity in the absence of lymphocytes to the intracellular bacterium Edwardsiella ictaluri. This study morphologically identified and quantified lymphocyte like cells (LLCs) present in the liver, kidney and spleen of these fish. LLCs included Natural Killer (NK) cells and non-specific cytotoxic cells (NCCs) and were discriminated by size, and by the presence of cytoplasmic granules. The antibodies anti-NITR9, anti-NCCRP-1 (5C6) and anti-MPEG-1 were used to evaluate these cell populations by flow cytometry. Gene expression profiles in these tissues were evaluated after the Rag1-/- mutants were intra coelomically injected with the toll like receptor (TLR)-2 ligand, β glucan, TLR3 ligand, Poly I:C, or TLR 7/8 ligand, R848. The genes interferon y (infγ), expressed by activated NK cells and macrophages, tumor necrosis factor α (tnfα), expressed by activated macrophages, myxovirus resistance (mx) expressed by cells induced by IFNα, T-cell transcription factor (t-bet) expressed by NK cells and novel immune type-receptor 9 (nitr-9) expressed by NK cells were evaluated. The TLR ligands induced different patterns of expression and stimulated both macrophages and NK cells. Then fish were vaccinated with an attenuated mutant of E. ictaluri (RE33®) with or without the TLR ligands then challenged with WT E. ictaluri to evaluate protection. RE33® alone and each TLR ligand alone provided protection. Coministration of β glucan and RE33® or R848 and RE33® resulted in survival higher than RE33® alone showing an adjuvant effect. Tissue specific gene expression of ifnγ, t-bet, nitr9, NK cell lysin a (nkla), nklb, nklc and nkld were correlated to protection. The final component of this study was the development of tools to discriminate NK cell populations and evaluate the contribution of macrophages. Rag1-/- zebrafish were modified to express cherry red in lymphocyte like cells using the Lymphocyte specific tyrosine kinase (lck) promotor. Also, rag1-/- zebrafish were modified so that the gene encoding the proto-oncogene serine/threonine-protein kinase that is involved in macrophage training (raf1) is disrupted. This study indicated that the acquired protection in the absence of lymphocytes likely involves NK cells with possible contribution by macrophages.

rag1-/- mutant zebrafish

immunological memory

Natural killer cells

Lymphocytes T CD4 et réponses vaccinales: du processus de différenciation à la mémoire immunologique.

Stubbe, Muriel

05 November 2007

Les lymphocytes T CD4 (LT CD4) jouent un rôle central dans la régulation des réponses immunitaires vis-à-vis des agents infectieux et des vaccins. Cependant, leur différenciation in vivo est encore mal comprise et les caractéristiques des LT CD4 capables de persister à long terme tout en assurant une réponse immunitaire protectrice sont mal définies. L’approfondissement de ces connaissances est indispensable pour le développement de nouveaux vaccins. Pour approcher cette question, nous avons utilisé deux approches expérimentales. La première est un suivi de la différenciation des LT CD4 au cours de la réponse immune primaire chez des sujets vaccinés contre l’hépatite B ; la deuxième est la caractérisation phénotypique et fonctionnelle des LT CD4 mémoires antigène(Ag)-spécifiques pendant la phase d’état. Cette analyse a été réalisée au sein des LT CD4 spécifiques d’Ag vaccinaux, l’Ag de surface du virus de l’hépatite B (HBs) et la toxine tétanique (TT), ainsi que ceux spécifiques des Ag du cytomégalovirus (CMV). Les LT CD4 Ag-spécifiques ont été mis en évidence par cytométrie de flux après marquage intracytoplasmique du ligand du CD40 (CD40L) exprimé en réponse à une stimulation de courte durée par l’Ag. Des expériences basées sur la stimulation par la toxine du syndrome du choc toxique et le marquage du segment Vbeta2 du récepteur des LT ont démontré la bonne sensibilité et spécificité de cette méthode. Le suivi de la réponse primaire chez 11 donneurs jusqu’à plus d’un an après immunisation par le vaccin anti-hépatite B a permis d’établir un modèle de différenciation des LT CD4 Ag-spécifiques in vivo chez l’homme. Nous avons mis en évidence des LT CD4 spécifiques d’un nombre limité de peptides immunodominants de la protéine HBs suggérant une réponse de type oligoclonale. Grâce à l’utilisation d’un cytomètre neuf couleurs, nous avons mené une analyse détaillée de l’hétérogénéité de la population mémoire HBs-spécifique. L’expression du CCR7 permet de distinguer des cellules de type mémoire centrale (LTCM, CCR7+) et effectrice (LTEM, CCR7-) se distinguant notamment par leur capacité à migrer vers les ganglions lymphatiques ainsi que par leurs propriétés fonctionnelles. Nous avons montré l’existence de ces deux sous-populations au sein des cellules HBs-spécifiques mais par opposition à leur définition initiale, ces LTCM sont capables de produire des cytokines effectrices. La proportion importante de LTCM exprimant le Ki67 témoigne d’une activité proliférative persistante in vivo et suggère la capacité de ces cellules à s’auto-renouveler et éventuellement à alimenter le pool des LTEM. La proportion importante de LTCM exprimant la chaîne alpha du récepteur à l’IL-7 (CD127) suggère que ces cellules sont sensibles aux signaux émanant de l’IL-7, une cytokine dont le rôle dans le maintien de la mémoire lymphocytaire T est connu. Compte tenu de la relevance potentielle de ces caractéristiques uniques pour le développement de vaccins et de l’accumulation de travaux montrant l’avantage sélectif des LTCM à conférer une immunité protectrice, nous avons focalisé la dernière partie de ces recherches sur cette sous-population. Une étude transversale des LTCM spécifiques de plusieurs types d’Ag (éliminés (HBs et TT) ou persistants (CMV)) a été menée. Nos résultats montrent une hétérogénéité, variable selon l’Ag, de la capacité de ces cellules à produire des cytokines effectrices et de leur phénotype de différenciation. Cette donnée nouvelle soulève la possibilité que les LTCM soient hétérogènes dans leur capacité à conférer une immunité protectrice. L’acquisition du marqueur KLRG1 par une fraction des LTCM s’associe à une capacité accrue à produire des cytokines effectrices et à une expression élevée du CD127. La possibilité que ces cellules soient particulièrement aptes à conférer une immunité protectrice et durable est discutée, tout comme les mécanismes menant à leur génération et l’intérêt de ces connaissances pour la conception de nouveaux vaccins.

mémoire immunolgique

vaccin

humain

vaccine

T lymphocyte

immunological memory

human

lymphocytes T

Caractérisation phénotypique et fonctionnelle des différentes populations de Lymphocytes T CD4 Folliculaires Mémoires / Phenotypic and functional characterization of different populations of memory folicular helper T cells

Asrir, Assia

15 July 2015

Les LT CD4 folliculaires (TFH) forment un lignage distinct de LT contrôlant spécifiquement les lymphocytes B (LB) et la mise en place de la mémoire B. Alors que ces cellules étaient considérées comme des cellules effectrices uniquement, récemment il a été identifié, chez l'Homme et la souris, l'existence de TFH mémoires. Les TFH mémoires en tant que LT CD4 mémoires sont nécessaires, en cas de nouvelle rencontre avec l'antigène (Ag), à la mise en place d'une réponse Anticorps (Ac) rapide, efficace et de forte affinité. En effet, leur présence est corrélée à la génération et le maintien à long terme d'Ac de forte affinité lors d'infections virales. De plus, des études récentes montrent que l'analyse des TFH mémoires dans le sang périphérique peut fournir des indices pour comprendre le mode d'action des vaccins ainsi que la pathogenèse de maladies auto-immunes. Par ailleurs, dans le contexte de nombreuses maladies, de récents travaux suggèrent que l'évaluation de la fréquence et du phénotype des TFH mémoires dans le sang périphérique pourrait servir de bio-marqueur à l'établissement de diagnostique. Tout comme les cellules B mémoires qui sont subdivisées en différentes sous-populations en fonction de leur localisation et de la nature de leur Ac, différentes populations de TFH mémoires ont été récemment identifiées. Certaines se situent dans les organes lymphoïdes secondaires (OLS) drainants le site d'immunisation, de vaccination ou d'infection, ou circulantes dans les OLS non-drainants ou à proximité des plasmocytes à longue durée de vie dans la MO. Ces observations soulèvent donc la question majeure de leurs phénotypes, différences fonctionnelles et interactions face aux différentes populations de cellules B mémoires. L'objectif de mes travaux de Thèse a consisté à étudier l'hétérogénéité phénotypique et fonctionnelle présente entre ces différentes populations de TFH mémoires aux localisations diverses. De plus au vu de l'hétérogénéité existante au sein des LB mémoires (nœuds lymphatiques ou rate) et plasmocytes à longue durée de vie (MO), nous avons aussi évalué l'interaction cellulaire et fonctionnelle qui a lieu entre ces populations mémoires. Dans ce contexte, nous avons développé un modèle expérimental unique de vaccination protéique chez la souris sauvage non modifiée. / T Helper Follicular (TFH) cells form a distinct lineage of helper T cells and they specifically control B cells and memory B cell generation. While these cells were considered as effector cells, recently it was identified in Human and in mouse, the existence of memory TFH cells. Memory TFH cells, as CD4 memory T cells, are necessary in case of antigen (Ag) rechallenge to establish a fast, efficient and high affinity Antibody (Ab) response. Indeed, their presence is correlated with the generation and the long-term maintenance of high affinity Ac during viral infections. Moreover, recent studies have shown that analysis of memory TFH cells in the blood may provide clues to understanding the mode of action of vaccines and the pathogenesis of autoimmune diseases. In addition, in the context of many diseases, recent works have also suggested that the frequency and phenotype of memory TFH cells in the blood could serve as a biomarker for diagnosis. Likewise to memory B cells that are subdivided into different cell populations based on their location and the nature of their Ab, different populations of memory TFH cells have recently been identified. Some are in secondary lymphoid organs (SLO) draining the site of immunization, vaccination or infection, or circulating in the non-draining SLO or near the long-lived plasma cells (PC) in bone marrow (BM). These observations raise the question of their phenotypes, functional differences and interactions with the different subsets of memory B cells. The aim of my thesis was to study the phenotypic and functional heterogeneity between the different subsets of memory TFH cells. Due to the heterogeneity of memory B cells (draining lymph nodes or non-draining spleen) and long-lived PCs (BM), we also evaluated the cellular and functional interaction that occurs between these different memories populations. In this context, we have developed a unique experimental model of protein vaccination in unmodified wild-type mice. Specifically, after immunization, we evaluated the development of memory TFH cells and memory B cells specific for the same Ag in the draining SLO and circulating in the spleen and BM. We demonstrated that local memory TFH cells (that reside in the draining SLO) exhibit a more polarized phenotype than their circulating counterparts (present in non-draining SLO).

Lymphocyte T CD4 folliculaire

Vaccin

Mémoire immunologique

Follicular helper T cells

Vaccine

Immunological memory

Rôle de la protéine Pleckstrin dans la génération de lymphocytes T CD8 mémoires et la mise en place d'une immunité tissulaire / Role of Pleckstrin protein in the generation and tissue localization of memory CD8 T cells

Calvez, Mathilde

02 July 2018

Les lymphocytes T CD8 sont des acteurs clés de l'immunité adaptative, impliqués dans la lutte contre les pathogènes intracellulaires et les cellules tumorales. En outre, les lymphocytes T CD8 sont capables, lors d’une réponse primaire, de se différencier en cellules mémoires capables de se maintenir dans l’organisme et de le protéger efficacement contre une nouvelle rencontre avec ces dangers. Ceci est permis grâce à leurs fonctions effectrices améliorées, leur plus grand potentiel prolifératif et leur capacité à migrer dans les tissus non-lymphoïdes, des propriétés toutes trois régulées au niveau moléculaire par le cytosquelette d'actine.            Récemment, notre équipe a montré que pleckstrin, un gène impliqué dans la régulation du cytosquelette d'actine, était fortement exprimé dans les lymphocytes T CD8 mémoires (générés suite à une infection virale), par comparaison avec des cellules T CD8 naïves. Grâce à des expériences d'infection par le virus de la Vaccine in vivo, nous avons pu mettre en évidence que l'absence de pleckstrin n'altère pas les fonctions effectrices des lymphocytes T CD8 (i. e. cytotoxicité et production de cytokines). En revanche, pleckstrin semble nécessaire à la génération des lymphocytes T CD8 mémoires et à leur localisation au sein des tissus infectés.            Ces travaux de recherche apportent ainsi un regard nouveau sur les mécanismes cellulaires et moléculaires impliqués dans la mise en place d'un compartiment T CD8 mémoire au sein des tissus non-lymphoïdes. / CD8 T cells are key players of adaptive immunity, and are involved in the elimination of intracellular pathogens and cancer cells. During a primary immune response, memory CD8 T cells are generated, and are able to maintain long-term and protect efficiently the organism against a secondary encounter with these threats. Indeed, memory CD8 T cells mediate durable protection through enhanced effector functions, increased proliferative capacity and distinct migratory behaviors, three processes that are tightly regulated by actin cytoskeleton.            Recently, the laboratory has shown that pleckstrin, a gene involved in actin cytoskeleton, is highly up-regulated in pathogen-induced memory CD8 T cells compared to naïve cells. Using pleckstrin deficient CD8 T cells, we show in an in vivo model of Vaccinia virus infection that pleckstrin deficiency does not affect global CD8 functions, in terms of cytokine production and cytotoxicity. However, pleckstrin is required for the optimal generation and localization of memory CD8 T cells within infected tissues.            As a whole, this work gives new insight into the molecular and cellular mechanisms that allow the establishment of a memory CD8 T cell compartment within non-lymphoid tissues.

Pleckstrin

Lymphocytes T CD8

Mémoire immunitaire

Immunité tissulaire

Pleckstrin

CD8 T cells

Immunological memory

Immunity within tissues

Role Of Idiotypic Anti-Idiotypic Network In The Sustenance Of Immunological Memory

Gangadhar, Vidya

02 1900

Living amidst a milieu of pathogenic organisms, vertebrates are in constant threat of contracting one or the other disease. As a mechanism of protection against such ‘invasions’, the vertebrate immune system has evolved to serve two main functions. One, to generate a specific immune response against the invading pathogen (in the from of specific antibodies and cell mediated immune responses). And two, to ‘remember’ the pathogen after the first exposure and mount a heightened and quicker immune response upon subsequent encounters. This phenomenon is called immunological memory, or anamnestic response and is achieved by the generation of memory B and T cells. The generation of specific Immunological memory is indeed the most important requirement/purpose of prophylactic vaccination Though different mechanisms are known to operate to maintain memory B and T cells, some aspects are still debatable. The ‘relay hypothesis’ (Nayak etal., Immunology.102(4)(2001); Nayak R etal., Microbes. Infect.(2005)), addresses some of those key issues. It describes that antigen specific memory B cells can be maintained by the interaction of membrane bound idiotypic (Id, Ab1) and anti-idiotypic (α-Id, Ab2) antibodies on B cells. Anti-Ids binding to idiotopes on Abs (Ab1) are known to be potential regulators of immunity in a variety of diseases, such as autoimmunity, cancer as well as viral, bacterial or parasitic infections. The relay hypothesis outlines the mechanism of persistence of memory cells in the absence of persisting antigen. This is achieved through the ‘internal image’ of the antigen on the Ab2 variable region, which serves as surrogate antigen thus helping in maintenance of immunological memory even in the absence of persisting antigen. It also explains that all antigens, protein or nonprotein can be converted to the common “coinage” of internal image peptides, otherwise called peptido-mimics. Peptido-mimics that have similar binding properties to MHC as the antigenic epitope, will ensure that the antigen specific memory T cells are also maintained. Hence T cell activation could also occur in the absence of nominal antigen, a potentially important process in T-B cooperation and immune regulation. Scope and objectives of this work: To demonstrate the presence of idiotypic and cognate anti-idiotypic antibody for the given antigen  To examine the likelihood of the three dimensional structural similarity between antigen and Ab2 variable region  To demonstrate the presence of peptido-mimics of the antigenic epitope in the Ab2 variable region; and if those peptido-mimics have structural and functional similarity with antigenic peptides when bound to MHC-I To examine the (immunological) memory associated phenotype of thediotypic anti-idiotypic B cells. The antigen of choice for the current study is Heamagglutinin-Neuraminidase (HN) protein of peste des petits ruminants virus (PPRV). Idiotypic (Id, Ab1), antiidiotypic (α-Id, Ab2) hybridoma against a deletion mutant of PPRV HN were generated and characterized. These hybridoma served as surrogate B cells for the study of Id α-Id B cell interactions. Anti-anti-idiotypic (Ab3) lymphocytes were also generated by immunizing syngenic BALB/c mice with Ab2 hybridoma. Results not only indicated the interplay of idiotypic and anti-idiotypic B and T cells in this cascade but also the mimicry of the antigen by Ab2. Ab2 Mab could recognize idiotopes of anti-PPRV HN Ab1 raised in diff species of animals, thus demonstrating that Ab2 was indeed an antigen mimic that interacts with Ab1 paratope irrespective of which species the Ab1 originates from. Ab2 Mab also mimicked the antigen (Hemagglutinin-neuraminidase) in functional assays by bringing about hemagglutination. Similarly, Polyclonal Ab3 which reacts with Ab2 Mab and with antigen, inhibits hemagglutination, just as Ab1 does, albeit to a lesser extent. This suggests Ab3 has functional similarity with Ab1. It is imperative that T cells be involved in this network of B cells for the maintenance of antigen specific immunological memory. This is because B cells require T cell help in the form of cytokines for proliferation and Cytotoxic T Lymphocytes (CTLs) are needed to control the specific population of Id and anti-Id B cells to maintain homeostasis. The Ab2 hybridoma as well as soluble Ab2 stimulated the proliferation of antigen specific T cells. Similarly, Ab3 splenocytes were stimulated to proliferate by the Ab2 as well as the antigen. Peptides generated from monoclonal Ab2 heavy and light chain variable regions (VH and VL) showed structural and functional similarity to the antigenic peptides in terms of p-MHC binding. These peptides stimulated the proliferation of antigen and Ab2 specific T cells, and also triggered 4-5 times higher CTL targeted cell lysis of peptide pulsed RMAS-Kd cells, as compared to a control peptide. VH, VL and antigenic peptides stabilized MHC-I on the cell surface of the TAP deficient, RMAS-Kd cell line for upto six hrs as compared to the ‘empty’ MHC-I, which remained on the surface only for one hr. The presence of peptido-mimics in the Ab2 variable region, which have structural similarity with antigenic peptide (when bound to MHC I), was also established using insilico software tools. Antigenic peptides and VH and VL peptides were modeled onto MHC-I crystal structures using the molecular modeling software InsightII and the minimization program, CNS. Putative MHC-I binding peptides from these sequences were generated using the p-MHC-I binding prediction algorithm, BIMAS. By replacing these peptides in the respective crystal structure of MHC I and superimposing the two structures, we have tried to establish that through structural similarity in binding to MHC-I, peptidomimics have a role in the maintenance of antigen-specific CTL memory. Consequently CTL memory specific to antigenic epitope can be preserved even in the absence of antigen by its peptidomimic. Following long-term immunizations, as expected of a secondary immune response, the serum Ab1 titre was found to be higher than the titer during primary response. It was also noted that though the number of Ab1 and Ab2 cell number was comparable in the total splenocyte population, Ab1 titre in the serum was higher than Ab2, immaterial of Ag/Ab2 booster. The same trend was noticed in prolifertion assay and CTL assays when the splenocytes were stimulated by Ag/Ab2 pulsed bone-marrow derived dendritic cells (BMDCs) as APCs. That is, irrespective of immunization and boost with Ag/Ab2, Ag pulsed BMDCs stimulated the proliferation and CTL lysis of long term immunized splenocytes to a greater extent than Ab2 pulsed BMDCs. Memory markers present on B and T cell surface might help maintain their close interactions in the idiotypic network. CD27/CD70 (CD27L) might play a role in maintaining these cells in a memory state. The Id α-Id B cells in addition to being triggered through the membrane bound Id, α-Id antibodies, can also be activated through CD27/CD70 to differentiate into plasma cells upon activation by antigen. Id and α-Id B cells were demonstrated to possess the CD27 memory marker on their surface in addition to the membrane bound IgM. Antigen specific IgM and CD27 double positive cells were detected in the range of 1-3% in the total splenocyte population. In conclusion: PPRV HN immunization triggered the generation of Ab1, Ab2, Ab3 (Id, α-Id, α-α-Id) cascade through the interaction of membrane bound immunoglobulin of the corresponding B cells. Ab2 was demonstrated to be a significant structural and functional mimic of the antigen. Peptidomimics of the antigenic epitope, present in the Ab2 variable region, can serve the purpose of maintaining antigen specific T cell memory response. These findings re-confirm the importance of anti-id antibodies in the regulation of immune responses. Ever since the concept of antigen mimicry by anti-Id antibody has been confirmed by several laboratories, the utility of anti-Ids as surrogate antigens for the purpose of prophylactic vaccination has received great attention. The results of the current work are especially significant for the purpose of development of vaccines for diseases related to antigens that are very cumbersome to purify (for ex., in case of several cancers) or when it is too dangerous to immunize with the antigen itself (for ex., in case of some pathogenic organisms). The results also signify that immaterial of the nature of the antigen, their respective petidomimics can establish and maintain immunological memory.

Vertebrates - Immunology

Immunological Memory

Idiotypic Antibodies

Anti-Idiotypic Antibodies

Relay Hypothesis

Peptido-Mimics

Peptides - Insilico Modelling

Ab2

Immunology

Antígenos candidatos à vacina contra as formassanguíneas de Plasmodium vivax: avaliação da memória imunológica de longa duração

Melo, Ana Luiza de Oliveira

January 2016

Submitted by Nuzia Santos (nuzia@cpqrr.fiocruz.br) on 2016-09-09T16:09:40Z No. of bitstreams: 1 Dissertacao_DIP_AnaLuizadeOliveiraMelo.pdf: 1146825 bytes, checksum: f9548418adf5b24a482d3266c5926802 (MD5) / Approved for entry into archive by Nuzia Santos (nuzia@cpqrr.fiocruz.br) on 2016-09-09T17:55:26Z (GMT) No. of bitstreams: 1 Dissertacao_DIP_AnaLuizadeOliveiraMelo.pdf: 1146825 bytes, checksum: f9548418adf5b24a482d3266c5926802 (MD5) / Made available in DSpace on 2016-09-09T17:55:27Z (GMT). No. of bitstreams: 1 Dissertacao_DIP_AnaLuizadeOliveiraMelo.pdf: 1146825 bytes, checksum: f9548418adf5b24a482d3266c5926802 (MD5) Previous issue date: 2016 / Fundação Oswaldo Cruz. Centro de Pesquisa René Rachou. Belo Horizonte, MG, Brasil / A invasão dos eritrócitos pelos parasitos da malária garante o sucesso da infecção humana e, consequentemente, o desenvolvimento da doe nça clínica. Desse modo, existe grande interesse no desenvolvimento de vacina s que possam induzir anticorpos que bloqueiem o ciclo sanguíneo do parasito . No caso de Plasmodium vivax , o principal antígeno candidato à vacina é a Duffy binding protein II (DBPII), único ligante conhecido para a invasão dos eritrócit os humanos. Embora anticorpos naturalmente adquiridos contra a DBPII induzam proteçã o, faz-se necessário avaliar se esta resposta gera memória imunológica de longa dur ação. O trabalho aqui desenvolvido teve como objetivo principal avaliar s e a DBPII e outros antígenos candidatos à vacina contra P. vivax induzem resposta imune humoral (anticorpos e células B de memória, MBCs) de longa-duração. A popul ação de estudo foi constituída de indivíduos com história de exposição única a P. vivax , ocorrida em 2003, durante um surto de transmissão autóctone na região metropolitana de Belo Horizonte, Minas Gerais. Para tal, foram selecionado s indivíduos que se infectaram (casos, n=13) ou não (não-casos, n=12) durante o pe ríodo de transmissão. Como controle negativo, foram incluídos indivíduos nunca expostos à malária (BH, n=9). A resposta de anticorpos foi avaliada pela sorologia c onvencional (ELISA) utilizando como antígenos diferentes variantes da DBPII (Acre1 e Sa l1) bem como outros antígenos candidatos à vacina (MSP1 19 e EBP2). A resposta de células B de memória para os mesmos antígenos foi avaliada pelo e nsaio imunoenzimático que detecta MBCs diferenciadas em células secretoras de anticorpos IgG (ELISpot). Após padronizar o ensaio de ELISpot com sucesso, os n ossos resultados demonstram que: (1) MBCs antígeno-específicas de vida- longa (12 anos após exposição) foram detectadas em todos os indivíduos do grupo caso e em parte dos indivíduos não-casos (58%), o que sugere que infecções assintomáticas podem ter ocorrido na época do surto; (2) a resposta celular de DBPII foi variante-específica, sendo a variante Acre1 (frequente na Amazônia brasile ira) a mais imunogênica. Neste contexto, a cepa de referência Sal1 ou um antí geno sintético desta cepa (DEKnull) apresentaram pouca ou nenhuma imunogenicidad e; (3) a MSP1 19 , presente na superfície do parasito, foi o antígeno m ais imunogênico, seguido da EBP2, proteína recém-descrita em P. vivax ; (4) em relação a sorologia convencional, anticorpos IgG para os diferente antígenos testados n ão perduraram após 12 anos de exposição única a P. vivax . Em conjunto, os resultados aqui apresentados permitiram concluir que uma única e breve exposição a P. vivax é capaz de induzir MBCs antígeno-específicas de vida longa, reforçando a importância de se estudar estas células na avaliação da memória imunológica da malária, particularmente, aquela induzida por antígenos candidatos à vacina. / Erythrocyte invasion by malaria parasites is a key e vent in ensuring human infeccion and clinical development of the disease. Therefore, there is great interest in generating blocking antibodies through a blood-stage vac cine, preventing erythocyte invasion. Plasmodium vivax Duffy binding protein region II (DBPII) is the only kn own ligand for human reticulocyte invasion, hence being a n attractive vaccine candidate against asexual blood-stage P. vivax . Although there is evidence that naturally acquired anti-DBPII antibodies induce protection, it i s necessary to access if this response produces sustained long-lasting immunologica l memory. Thereafter, the present work aimed to evaluate whether DBPII and other P. vivax vaccine candidates induce long-lasting humoral immune response (antibod ies and memory B cells, MBCs). For this purpose, we studied a population with a single P. vivax exposure in 2003, during an autochthonous outbreak in Minas Gera is state, a non-endemic area of Brazil. We selected 25 individuals exposed to the outbreak being 13 with confirmed P. vivax infection (cases) and 12 who had not being diagnosed with malaria (non-cases). As negative control, were includ ed 9 individuals never exposed to malaria (residents in Belo Horizonte). Antibody re sponses to P. vivax blood antigens were evaluated by conventional serology (ELISA), focusing on two DBPII variants (Acre1 e Sal1) and other vaccine candidates (MSP1 19 e EBP2). B cell memory responses to the same antigens were evaluated through Enzyme-Linked ImmunoSpot (ELISpot) targeting IgG secreting cells. After stablishment of the ELISpot assay, our results showed that: (1) long-last ing antigen-specific MBCs were detected 12 years after exposure in all of the case s and in part of the non-cases (58%), wich suggests the occurrence of asymptomatic i nfections during the outbreak; (2) cellular response to DBPII was variant-specific, wi th greater immunogenicity of variant Acre1 (most frequent in the Amazon region). Re garding cellular response, the reference strain Sal1 and the synthetic construct ( DEKnull) showed low or absence of immunogenicity; (3) MSP1 19 , presente in the parasite’s surfasse, was highly immunogenic, followed by EBP2, P. vivax ’s new predicted protein; (4) regarding conventional serology, IgG antibody responses to the different antigens here tested did not last after 12 years of exposure to P. vivax . Altogether our results showed that a single brief exposure to P. vivax is able to induce antigen-specific long-lasting MBCs, reinforcing the importance of this cells in acc essing immunological memory in malaria, particularly, that induced by vaccine cand idates.

memória imunológica

P. vivax

vacina

células B

vaccine

P. vivax

immunological memory

alária Vivax/imunologia

Plasmodium vivax /parasitologi

acinas/imunologia

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

Leignadier, Julie

06 1900

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. / Following antigen (Ag) encounter presented at surface of antigen presenting cell (APC), naïve T lymphocytes, which express a T cell receptor (TCR) specific for Ag, undergo massive proliferation and differentiate into effector T cells (1). After elimination of the pathogen, most effector T cells die, while the remaining differenciates into memory T cells (LTm) which are responsible for long-term protection of the organism. The mechanism that promotes the differentiation of effectors T cells into memory T cells is still largely unknown. To understand how Tm cells are generated from effectors, we hypothesized that the density of antigen on the APC could have an impact on the selection of CD8+ T cell responders differentiating into memory. Very interestingly, our results show that immunization of mice with dendritic cells (DCs) expressing high levels of peptide-MHC complexes on their surface allow a strong development of LTm. In contrast, the development of memory T cells was strongly reduced (10-20X) when mice were immunized with DCs expressing two-fold less level of peptide-MHC complexes. In agreement with the results described above, the amount of Ag does not have any influence on T cell expansion and acquisition of effector functions, but critically affects memory T cell generation. Our data suggest that the numbers of TCR engaged in MHC/peptide recognition are important for the formation of memory T cells. To do that, we evaluated by time-lapse videomicroscopy the time of interaction between LTn and DCs. Effectively, we observed a significant reduction in the percentage of cells making prolonged interaction with DCs when the level of Ag is decreased. Moreover, we observed a modification in the expression of key transcription factors involved in the differentiation of Tm cells, such as Eomes, Bcl6 and Blimp-1. Further analysis reveals that the Ag density influences the expression of Neuron-derived orphan nuclear receptor 1 (Nor1). Nor-1 is involved in the conversion of Bcl-2 into a pro-apoptotic molecule and contributes to effector death by apoptosis during contraction phase. Our model proposes that density of Ag controls the generation of LTm. A better understanding of the role of TCR signals in the generation of LTm will help to develop better vaccination strategies. Second time, we have evaluated the role of TCR signals in Tm cell homeostasis. To do that, we have used a tetracycline-inducible expression system of the TCR in mice. This system allows us to abolish TCR expression on Tm cells. Interestingly, we show that the ablation of TCR expression did not influence the survival and functionnality of Ag-specific CD8+ LTm cells. Furthermore, our results show that a subset of CD4 Tm cells can survive in the absence of TCR expression in nonlymphopenic hosts while another subset requires the TCR expression to survive.

Lymphocyte T

Récepteur spécifique des cellules T

Mémoire immunologique

Densité d’antigène

T lymphocyte

T cell receptor

Immunological memory

Density of antigen

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

Leignadier, Julie

06 1900

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. / Following antigen (Ag) encounter presented at surface of antigen presenting cell (APC), naïve T lymphocytes, which express a T cell receptor (TCR) specific for Ag, undergo massive proliferation and differentiate into effector T cells (1). After elimination of the pathogen, most effector T cells die, while the remaining differenciates into memory T cells (LTm) which are responsible for long-term protection of the organism. The mechanism that promotes the differentiation of effectors T cells into memory T cells is still largely unknown. To understand how Tm cells are generated from effectors, we hypothesized that the density of antigen on the APC could have an impact on the selection of CD8+ T cell responders differentiating into memory. Very interestingly, our results show that immunization of mice with dendritic cells (DCs) expressing high levels of peptide-MHC complexes on their surface allow a strong development of LTm. In contrast, the development of memory T cells was strongly reduced (10-20X) when mice were immunized with DCs expressing two-fold less level of peptide-MHC complexes. In agreement with the results described above, the amount of Ag does not have any influence on T cell expansion and acquisition of effector functions, but critically affects memory T cell generation. Our data suggest that the numbers of TCR engaged in MHC/peptide recognition are important for the formation of memory T cells. To do that, we evaluated by time-lapse videomicroscopy the time of interaction between LTn and DCs. Effectively, we observed a significant reduction in the percentage of cells making prolonged interaction with DCs when the level of Ag is decreased. Moreover, we observed a modification in the expression of key transcription factors involved in the differentiation of Tm cells, such as Eomes, Bcl6 and Blimp-1. Further analysis reveals that the Ag density influences the expression of Neuron-derived orphan nuclear receptor 1 (Nor1). Nor-1 is involved in the conversion of Bcl-2 into a pro-apoptotic molecule and contributes to effector death by apoptosis during contraction phase. Our model proposes that density of Ag controls the generation of LTm. A better understanding of the role of TCR signals in the generation of LTm will help to develop better vaccination strategies. Second time, we have evaluated the role of TCR signals in Tm cell homeostasis. To do that, we have used a tetracycline-inducible expression system of the TCR in mice. This system allows us to abolish TCR expression on Tm cells. Interestingly, we show that the ablation of TCR expression did not influence the survival and functionnality of Ag-specific CD8+ LTm cells. Furthermore, our results show that a subset of CD4 Tm cells can survive in the absence of TCR expression in nonlymphopenic hosts while another subset requires the TCR expression to survive.

Lymphocyte T

Récepteur spécifique des cellules T

Mémoire immunologique

Densité d’antigène

T lymphocyte

T cell receptor

Immunological memory

Density of antigen

Desenvolvimento e manutenção de memória imunológica após imunização contra Neisseria meningitidis B com a vacina VA-MENGOC-BC / Development and maintenance of immune memory after immunization against Neisseria meningitidis B with VA-MENGOC-BC .

Simone da Costa Cruz

08 July 2011

Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro / 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.

Memória imunológica

Neisseria meningitidis B

Anticorpo bactericida

Anticorpo opsonizante

Vacina

Immunological memory

Neisseria meningitidis B

Bactericidal antibody

Opsonic antibody

Vaccine

MICROBIOLOGIA MEDICA

Avaliação da resposta imunológica após vacinação ou infecção por Neisseria meningitidis / Evaluation of the immune response after vaccination or infection with Neisseria meningitidis

Aline da Costa Cruz

17 January 2014

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. / Meningococcal disease (MD) is still a serious public health problem and is associated with high morbidity and mortality rates worldwide. MD evokes persistent immune protection against disease in people with normal immune systems. In contrast, protection induced by meningococcal always requires booster injections of the vaccine. In Brazil, Neisseria meningitidis serogroup C (MenC) and B (MenB) have been the main causes of MD for the past years. Currently, there is no universal vaccine against serogroup B. HIV infection has been implicated as a risk factor for the mortality of meningococcal disease. One of the cornerstones of HIV treatment is the use of vaccines for immunopreventable diseases. The anti-MenC conjugated vaccine is often recommended for children and adolescents infected with HIV in Brazil and many other countries. Few studies have addressed the mechanisms by which meningococcal vaccines generate and sustain immunological memory. The aims of this study were: 1) to evaluate the response of bactericidal antibody and memory CD4 T lymphocyte against meningococcus after infection; 2) to evaluate the bactericidal antibody response and memory T cells and memory B cells against meningococcal booster after the Cuban vaccine VA-MENGOC-BC in volunteers immunized for about 17 years; 3) to investigate the functional antibody response (bactericidal and opsonizing) after immunization with anti-MenC conjugated vaccine (CRM197) in individuals infected with HIV. After infection, 83% of patients diagnosed as having DM by latex and/or culture test, had protective titers of bactericidal antibodies, but there was no association between the titers of bactericidal antibodies and the total specific immunoglobulin concentration and an increase in frequency of TCM (median of 15%) activated mainly after stimulation with MenC strain. In pre-vaccinated volunteers, 3 of 5 subjects seroconverted 7 or 14 days after administration of the booster dose. There was a significant increase in TCM population 14 days after the booster dose but without differentiated cell activation of control groups. We observed positive response of memory B lymphocyte in most volunteers, but no correlation with bactericidal antibodies. Regarding HIV infected patients, the results showed the need for a second vaccine dose in this population since only about 15% responded to a single dose and second dose resulted in seroconversion in about 55 % of individuals. We observed a positive (r= 0,43) and significant (P= 0,0007) correlation between the opsonizing and bactericidal antibody after vaccination. No significant differences when we relate the titles of bactericidal antibodies with the absolute number of CD4 (P= 0,051) and CD4 nadir (P= 0,09) among patients who seroconverted (n= 43) or not seroconverted (n= 106) after the first dose. Thus, the results indicated that: 1) convalescent patients of DM acquire bactericidal antibodies after infection with N. meningitides; 2) in vaccinated volunteers, the booster dose of anti-MenB vaccine was not fully effective in activating the immune memory by production of bactericidal antibodies or activation of memory CD4 T lymphocyte; 3) HIV-positive patients need a booster dose of the anti-MenC conjugated vaccine.

Memória imunológica

Neisseria meningitidis

HIV

Anticorpo bactericida

Anticorpo opsonizante

Vacina

Immunological memory

Neisseria meningitidis

HIV

Bactericidal antibody

Opsonizing antibody

Vaccine

MICROBIOLOGIA