Identificação dos mecanismos de regulação das células Natural Killer pelo fator de transcrição C/EBPG (CCAAT/enhancer binding protein gamma) / Identification of Natural Killer cells regulation mechanisms by the transcription factor C/EBPG (CCAAT/enhancer binding protein gamma)

Izabela Aparecida Lopes

05 July 2018

Os C/EBP (CCAAT/enhancer-binding proteins) são uma família de fatores de transcrição implicados numa variedade de processos da hematopoese, regulando tanto a diferenciação terminal como a proliferação celular. Dentre estes, sabe-se que o C/EBP gamma (C/EBPG) está envolvido na maturação funcional de células Natural Killer (NK). Entretanto, os mediadores dessa regulação não são conhecidos. As células NK são linfócitos com funções efetoras de citotoxicidade e de produção de citocinas, dependentes de um equilíbrio dinâmico entre a expressão de receptores ativatórios e inibitórios bem como de receptores de citocinas. As duas funções (citotóxica e secretora), fazem das células NK importantes componentes da hematopoese, capazes de eliminar alvos susceptíveis bem como de recrutar outras células e amplificar a resposta inflamatória. Diante de incompatibilidade entre as células-alvo e células NK efetoras, os efeitos citotóxicos preponderam; enquanto na ausência de incompatibilidade, os efeitos mediados por citocinas sobre as demais células hematopoéticas se sobressaem. Por exemplo, citocinas como IFN?, TNF?, TGF?, GM-CSF e IL-10, produzidas por células NK, são potenciais reguladoras da função das células-tronco hematopoéticas (CTH). Com o objetivo de estudar a regulação das células NK pelo C/EBPG, utilizamos células NK isoladas de animais transgênicos knockout (KO) para o C/ebpg e seus controles para analisar sua expressão gênica e função diferencial, com especial foco nos genes-alvo com potencial para regulação da hematopoese. Visando identificar potenciais genes-alvo do C/EBPG, isolamos células NK deficientes para o C/ebpg e controles, por meio de sorting, e realizamos posterior isolamento do RNA seguido de análise de expressão gênica em larga escala. A validação da expressão diferencial dos genes-alvo do C/ebpg, de interesse para a função secretória das células NK, foi realizada por PCR em Tempo Real para oito genes diferencialmente expressos na análise de expressão gênica em larga escala, a saber: Il-10, Gmcsf, Ifng, Tnfa, Tgfb, Tlr4, Myd88 e Irak4. Os dados referentes à expressão basal e estimulada com IL-2, destes genes em células NK de animais KO para o C/ebpg e seus controles, revelaram uma tendência ao aumento da expressão de Myd88 nos animais KO quando comparados aos controles. Foram verificados os níveis das citocinas IL-2, IL-4, IL-6, IL-10, IL-17A, TNF? and IFN? por meio de citometria de fluxo, utilizando o sobrenadante da cultura de NK de ambos os animais, observando-se que, após a ativação com IL-2, a produção de IFN? mostrou-se diminuída em células NKdeficientes para o C/ebpg em comparação aos controles. Para caracterizar as células NK Cebpg-deficientes, analisamos a sua frequência (células linhagem-/CD3- /NK1.1+) e expressão dos receptores NKG2D, Ly49D e NKG2A, não sendo observadas diferenças numéricas ou de expressão de receptores entre células NK deficientes ou não para o C/ebpg. Os subtipos funcionais destas células foram caracterizados de acordo com a expressão de CD27 e CD11b, que permitem identificar as subpopulações de células NK imaturas secretórias, secretórias, citotóxicas e tolerantes. Os animais KO mostraram maior percentagem de células secretórias e redução percentual e numérica de células citotóxicas quando comparadas às células NK dos controles. Para demonstrar a deficiência funcional realizamos um ensaio de ativação de células. Em concordância, após a coincubação de esplenócitos totais com células YAC-1, o ensaio de detecção do CD107 revelou que as células dos animais KO para o C/ebpg são cinco vezes menos ativadas do que células NK controles. Ademais, foi realizado um ensaio de citotoxicidade por citometria de fluxo utilizando o CTO (Cell Tracker Orange) como sonda fluorescente, o qual se incorpora às células-alvo da linhagem YAC-1. Como resultado, para a razão 10:1 NK: células-alvo, as células NK C/ebpg KO foram menos citotóxicas do que as células NK dos controles. Concluímos que as células NK de animais transgênicos KO para o C/ebpg têm função deficiente, menor potencial citotóxico e expressão de genes e citocinas alteradas em relação aos seus controles. Os mediadores apontados, em especial, o IFN?, são alvos importantes para a regulação da função secretória das células NK. / C/EBP (CCAAT/enhance-binding proteins) are a family of transcription factors involved in a variety of hematopoietic processes, regulating both terminal differentiation and cellular proliferation. Among these, it is known that C/EBP gamma (C/EBPG) is involved in the functional maturation of Natural Killer (NK) cells. However, the mediators of this regulation are unknown. NK cells are lymphocytes with effector functions of cytotoxicity and production of cytokines, both dependent on a dynamic equilibrium between the expression of activating and inhibitory receptors as well as cytokine receptors. The two functions (cytotoxic and secretory) make NK cells important components of hematopoiesis, able to eliminate susceptible targets as well as recruit other cells to amplify inflammatory responses. In face of incompatibility between target cells and NK effector cells, cytotoxic effects predominate; while in the absence of incompatibility, cytokine-mediated effects that influence other hematopoietic cells prevail. For example, cytokines such as IFN?, TNF?, TGF?, GMCSF and IL-10, produced by NK cells, are potential regulators of hematopoietic stem cells (HSC). With the aim of studying the regulation of NK cells by C/EBPG, we isolated NK cells from transgenic C/ebpg knockout (KO) animals and controls to analyze their differential gene expression and function, with a special focus on hematopoiesis regulation. In order to identify potential C/EBPG target genes, we isolated C/ebpg-deficient and control NK cells by the use of sorting by flow cytometry and isolated RNA for gene expression analysis. Differential expression of C/ebpg target genes was performed by Real-time PCR for eight genes differentially expressed in the microarray analysis: Il-10, Gmcsf, Ifng, Tnfa, Tgfb, Tlr4, Myd88 e Irak4. When compared to controls, non-activated and IL-2-stimulated C/ebpg KO NK cells presented a tendency to have higher expression of Myd88. Cytokine levels of IL-2, IL-4, IL-6, IL-10, IL-17?, TNF? and IFN?, obtained from NK culture supernatants, were verified by flow cytometry, after IL-2 activation. Among these cytokines, the production of IFN? by C/ebpg-deficient NK cells was found to be reduced. To further characterize NK cells, we analyzed their frequency (Lineage- /CD3-/NK1.1+ cells) and the expression of the receptors NKG2D, Ly49D and NKG2A, and both analyses presented similar expression between control or C/epbg KO NK cells. The functional subtypes of these cells were characterized according to the expression of CD27 and CD11b, which allow the identification of NK subpopulationsas immature secretory, mature secretory, cytotoxic or tolerant. The KO animals showed higher percentage of secretory cells and percentual and numerical reduction of cytotoxic cells when compared to the NK control cells. In agreement, CD107a expression was 5-times lower in C/ebpg KO splenocytes than in control splenocytes after co-incubation with YAC-1 cells. In addition, a cytotoxicity assay by flow cytometry was performed. The fluorescent probe CTO (Cell Tracker Orange) was incorporated to YAC-1 cells, used as target cells. As a result, in the 10:1 NK:target cells ratio, C/ebp KO cells were less cytotoxic than NK control cells. We concluded that C/ebpg-deficient cells are dysfunctional, have a greater secretory potential and an altered expression of genes and cytokines as compared to their controls. The potential mediators revealed by our study, in particular, IFN?, may be important targets for the regulation of NK secretory function.

Caracterização das células T Natural Killer de células mononucleares de sangue periférico em indivíduos de diferentes continentes / Characterization of T cells Natural Killer (NKT) cells in peripheral blood mononuclear cells of healthy individuals from different continents

Bianca Almeida Natali dos Santos Detilio

01 March 2012

As células T Natural Killer (NKT) são linfócitos que expressam o rearranjo V24V11 com TCR invariante e reconhecem glicolipídeos como o alfagalactosilceramida (-GalCer) apresentado no contexto da molécula MHC-não clássica chamada CD1d. As NKT são divididas em subgrupos distintos: os fenótipos CD4+ e CD4- em camundongos e humanos, e CD8+ e CD4-CD8- em humanos. Após estímulo, as NKT secretam citocinas Th1 e Th2. A frequência das NKT representa menos de 1% da população de linfócitos T no sangue periférico humano. O objetivo deste trabalho é primeiro, identificar a frequência, o fenótipo e a função da população de células NKT nos grupos de indivíduos saudáveis de procedências distintas. Segundo, avaliar a influência da idade, gênero e país de moradia na frequência das NKT, incluindo suas subpopulações, no sangue periférico; Terceiro, verificar se há variabilidade ou não na apresentação da molécula CD1d. Quarto, verificar se há alteração na função das NKT utilizando o estímulo -GalCer e por fim, verificar o perfil das NKT quanto ao seu estado de ativação e migração celular quando submetidas a expansão. As amostras são provenientes de São Paulo, Brasil; São Francisco, Estado Unidos da América e Estocolmo, Suécia. Os parâmetros imunológicos foram analisados por citometria de fluxo. Demonstramos que o grupo de São Paulo, não apresentou maiores valores de linfócitos T CD3+, no entanto, apresentou valores significantes de células NKT V24+/V11+. Não estabelecemos a expressão dos marcadores de ativação e migração nas NKT. Estabelecemos, no grupo de São Paulo, a capacidade funcional das NKT que expressaram IFN- e TNF- assim como de expansão, sob estímulo de -GalCer. Os resultados sugerem que vários fatores podem alterar a quantidade das células NKT na periferia. Mais estudos devem ser endereçados para esclarecer melhor estes fatos / Natural Killer T cells (NKT cells) are lymphocytes that express the invariant TCR rearrangement V24V11 and recognize glycolipid as alpha-galactosylceramide (-GalCer) presented in conjunction with a non-MHC pathway molecule named CD1d. The NKT cells are divided into distinct subsets: the CD4+ and CD4- phenotype in mice and humans and the CD8+ and CD4-CD8- phenotype in humans. After stimulation, the NKT secrete Th1 and Th2 cytokines. The frequencies of NKT cells represent <1% of the population of T lymphocytes in human peripheral blood. The objective of this study is to 1) identify the frequency, phenotype and function of NKT cell population in groups of healthy individuals from different racial/ethnic origins, 2) evaluate the influence of age, gender and country of residence on the frequency of NKT cells/subpopulations, 3) investigate the variability of presentation of the CD1d molecule, 4) investigate the functional variability of NKT cells using -GalCer stimulation, and 5) study the activation and migration profile of NKT cells after expansion. Immunologic parameters of clinical samples from Sao Paulo, Brazil; San Francisco, California and Stockholm, Sweden were analyzed by flow cytometry. We demonstrate that the São Paulo group does not have an elevated number of CD3+ T lymphocytes, but does have significantly more NKT V24+/V11+ cells. We have not yet determined expression of NKT markers for activation and migration. Thus, we have shown that among sample obtained in São Paulo, there is increased functional capacity of IFN- and TNF--expressing NKT cells along with NKT cells expansion under stimulation with the -GalCer. These results suggest that there are several factors that can modulate NKT cell number and function in the peripheral blood and additional studies are needed to further clarify these findings

Ativação celular

Células T natural killer

Citometria de fluxo

Movimento celular

Cell activation

Cell migration

Flow Cytometry

Natural killer T cells

Papel da RAB2A, RAB5A, RAB17 e RAB18 na função efetora de células citotóxicas. / Role of RAB2A, RAB5A, RAB17 andRAB18 in effector functions of cytotoxic cells.

Narciso Junior Vieira

24 November 2016

Linfócitos T CD8 e células NK atuam no combate à infecções por bactérias intracelulares, vírus e células tumorais, provocando a morte dessas células por meio da secreção de grânulos citotóxicos. Proteínas RAB GTPase têm se destacado em estudos de tráfego intracelular, porém, são escassos dados sobre o papel destas proteínas em células citóxicas. Um estudo prospectivo de proteômica realizado por nosso grupo identificou a RAB2A, RAB5A, RAB17 e RAB18 em grânulos citotóxicos. Análises mais aprofundadas revelaram que a RAB2A está associada a proteínas como LAMP-1 e LAMP-2, enquanto que RAB5A, RAB17 e RAB18 estavam presentes na mesma linhagem em um contexto não contemplado neste estudo. Desenvolvemos ainda uma abordagem de silenciamento gênico da RAB2A, e por fim, adaptamos uma série de protocolos de simples execução e baixo custo para avaliar funções efetoras de células NK. O conhecimento da maquinaria secretória é fundamental, uma vez que defeitos nas vias de tráfego intracelular constituem a base de um grande número de doenças que desencadeiam quadros fatais. / CD8 T lymphocytes and NK cells fight against infections by intracellular bacteria, viruses and tumor cells by killing those cells through the secretion of cytotoxic granules. RAB GTPase has been highlighted in studies of intracellular trafficking, however there are scarce reports regarding the role of these proteins in cytotoxic cells. A proteomic study performed by our group identified RAB2A, RAB5A, RAB17 and RAB18 in cytotoxic granules. Further analysis revealed that RAB2A is associated with LAMP-1 and LAMP-2, while RAB5A, RAB17 and RAB18 were present in the same cell line, but in a context not included in this study. We also have developed a gene silencing approach for RAB2A and adapted a number of protocols, simple and low-cost, that can be used to evaluate effector functions of natural killer cells The knowledge of secretory machinery involved in the movement cytotoxic granules of cytotoxic cells is critical, since defects in intracellular trafficking pathways constitute the basis for a large number of diseases which trigger death.

Células citotóxicas

Células natural killer

RAB GTPase

RAB2A

Tráfego intracelular

Cytotoxic cells

Intracellular trafficking

Natural killer cells

RAB GTPase

RAB2A

Humanized Mice as Models to study Human Innate Immunity and Immunotherapies / Les souris humanisées comme modèles d'étude de l'immunité innée humaine et des immunothérapies

Lopez-Lastra, Silvia

17 February 2017

Les modèles animaux ont largement contribué à notre compréhension de l’immunologie humaine et des mécanismes pathologiques associés au développement des maladies. Cependant, les modèles murins ne permettent pas de reproduire toute la complexité des pathologies humaines. Les souris à système immunitaire humain (HIS), par leur capacité à récapituler l’hématopoïèse humaine et à être infectées par des pathogènes humains, constituent une solution de choix pour combler ce fossé inter-espèce. Après greffe de cellules souches hématopoïétiques humaines, des souris hôtes sévèrement immunodéprimées permettent un haut niveau de développement du système hémato-lymphoïde humain tout au long de leur vie. Cependant, certains types cellulaires, comme les cellules lymphoïdes innées, ne parviennent pas à se différencier et à fonctionner normalement dans les modèles murins HIS actuels. Ici, nous décrivons le développement d’un modèle souris HIS original, nommé BRGSF, montrant une amélioration de la maturation, de la fonction et de l’homéostasie des cellules natural killer (NK) humaines et des autres ILCs. De plus, en récapitulant les différentes étapes du développement des ILCs humaines, ce modèle souris BRGSF nous a permis d’identifier pour la première fois un précurseur d’ILC (ILCP) présent à la fois dans notre modèle HIS ainsi que dans le sang périphérique et plusieurs organes lymphoïdes et non-lymphoïdes humains. Cette population circulante d’ILCPs pourrait constituer un substrat pour la production d’ILCs matures dans les tissus périphériques en réponse à des stress environnementaux, inflammatoires et/ou infectieux. Dans une seconde partie de ce travail de thèse, nous avons utilisé ces souris BRGS afin de tester l’efficacité de deux immunothérapies reposant sur les lymphocytes innés pour le traitement d’un carcinome colorectal exprimant EGFR et muté pour KRAS. La première approche a consisté en la co-administration des cellules NK dérivées de sang de cordon ombilical et d'anticorps monoclonal cetuximab afin de promouvoir le mécanisme de cytotoxicité cellulaire dépendante des anticorps (ADCC) contre la tumeur. La seconde stratégie a reposé sur l’injection de nanobodies VHH combinant l’inhibition de l’EGFR et l’activation spécifique du récepteur Vγ9Vδ2 des cellules T effectrices. Les résultats de cette étude soulignent l’importance des modèles murins HIS pour la compréhension du développement des lymphocytes innés humains et pour mieux les mettre à profit dans les thérapies anti-tumeurs / Animal models have extensively contributed to our understanding of human immunobiology and to uncover the underlying pathological mechanisms occurring in the development of the disease. However, mouse models do not always reproduce the genetic complexity inherent in human disease conditions. Human immune system (HIS) mouse models that are susceptible to human pathogens and can recapitulate human hematopoiesis provide one means to bridge the interspecies gap. Severely immunodeficient host mice support life-long, high level human hematolymphoid development after engraftment with human hematopoietic stem cells (HSC). However, the differentiation and function of some blood cell types, including innate lymphoid cells (ILCs), is poorly characterized in current HIS mice. Here we describe the development of a novel HIS mouse model, named BRGSF, which demonstrate enhanced maturation, function and homeostasis of human natural killer (NK) cells and other ILCs. Furthermore, the BRGSF-based HIS mouse model recapitulated the developmental stages of human ILCs. We could identify for the first time an ILC precursor (ILCP) population that is present both in HIS mice and in human peripheral blood as well as in several lymphoid and non-lymphoid human tissues. This circulating human ILCP population may provide a substrate to generate mature ILCs in tissues in response to environmental stressors, inflammation and infection. In a second part of the thesis we used BRGS immunodeficient mice to assess two innate lymphocyte-based immunotherapeutic approaches for treating EGFR-expressing KRAS-mutated colorectal carcinoma in vivo. The first model used a combination of umbilical cord blood (UCB)-derived NK cells and the monoclonal antibody cetuximab to promote antibody dependent cell cytotoxicity (ADCC) against the tumors. In a second model, we evaluated the therapeutic suitability of novel bispecific VHH constructs that combine inhibition of the EGFR with the target-specific activation of effector Vγ9Vδ2-T cells. These studies highlight the utility for HIS-based mouse models to understand human innate lymphocyte development and to harness these potent effectors for anti-tumor therapies.

Souris humanisées

Natural Killer

Cellules lymphoïdes innées

Immunothérapies

Human immune system mice

Natural killer

Innate lymphoid cells

Immunotherapy

Étude génétique et fonctionnelle des Interferon-producing Killer Dendritic Cells

Guimont-Desrochers, Fanny

12 1900

L’idée qu’une cellule puisse effectuer la cytolyse de cellules transformées, comme une cellule Natural Killer (NK), tout en ayant la capacité de présenter des antigènes, comme une cellule dendritique (DC), peut sembler fantaisiste. Cependant, de telles cellules furent bel et bien identifiées chez la souris en 2006. Ces cellules, nommées Interferon-producing Killer Dendritic Cells (IKDC), furent l’objet d’une caractérisation extensive qui révéla leur énorme potentiel immunologique. La combinaison de fonctions associées à des cellules NK et à des DC a doté les IKDC d’un pouvoir antitumoral remarquable. D’ailleurs, il a été démontré que les IKDC sont plus efficaces que les cellules NK pour limiter la croissance tumorale. Ainsi, suite à leur découverte, les IKDC ont suscité beaucoup d’intérêt. Cependant, une controverse émergea sur la nature des IKDC. Plusieurs groupes indépendants tentèrent de reproduire les expériences attestant les fonctions de DC des IKDC, sans y parvenir. De plus, des études additionnelles révélèrent que les IKDC possèdent des similitudes très importantes avec les cellules NK. Ces observations ont mené la communauté scientifique à suggérer que les IKDC sont des cellules NK en état d’activation (aNK). Malgré cette controverse, les caractéristiques antitumorales des IKDC sont si uniques et considérables qu’il est primordial de poursuivre l’étude de ces cellules. Pour y arriver, il est essentiel de déterminer la nature des IKDC et de mettre fin à ce débat. Par la suite, il sera important d’identifier des façons de cibler spécifiquement les IKDC pour permettre leur usage dans le cadre de thérapies antitumorales. Ainsi, l’objectif de cette thèse est de définir l’identité des IKDC, puis de déterminer les facteurs génétiques responsables de la régulation de ces cellules. Nous avons démontré que les IKDC ne sont pas des cellules aNK, contrairement à ce qui avait été suggéré. Nous avons constaté que les IKDC prolifèrent activement et possèdent un phénotype unique, des caractéristiques associées à des cellules NK très immatures. Afin de déterminer si les IKDC peuvent acquérir un phénotype mature, nous avons effectué des expériences de transfert adoptif. Suite à leur injection in vivo, les IKDC acquièrent un phénotype de cellules matures, mais étonnamment, elles se différencient aussi en cellules NK. Ainsi, nous avons révélé que les IKDC sont un intermédiaire dans la différenciation des cellules NK. En parallèle, nous avons démontré que la proportion d’IKDC varie grandement entre des souris de fond génétique différent, indiquant que des facteurs génétiques sont impliqués dans la régulation de ces cellules. Nous avons alors effectué une analyse génétique qui a révélé que les IKDC sont régulées par des facteurs génétiques compris dans une région distale du chromosome 7. Les résultats présentés dans cette thèse constituent une avancée importante pour la recherche sur les IKDC. Ils ont permis de définir la nature des IKDC et d’identifier un intervalle génétique impliqué dans la régulation de ces cellules. Ces découvertes sont des connaissances précieuses pour l’identification des IKDC chez l’Homme et la création de nouvelles thérapies dans la lutte contre le cancer. / The idea that a cell could kill transformed cells, like a Natural Killer (NK) cell, all the while exhibiting also the capacity to present antigens to T cells, like a Dendritic Cell (DC), may seem farfetched. However, in mice, a cell presenting these specific properties was identified in 2006. These cells were named Interferon-producing Killer Dendritic Cells (IKDC) and extensive studies revealed that they were endowed with an important immunological potential. Indeed, the fact that IKDCs exhibit properties of both DC and NK cells conferred them with an exceptional anti-tumor potential. Notably, on a per cell basis, the in vivo anti-tumor activity of IKDCs is more efficient than NK cells. Therefore, following their identification, IKDCs showed great therapeutic promise. However, a debate on the cell lineage origin of IKDCs emerged. Several independent groups could not replicate the finding that IKDCs showed functional antigen-presentation properties similar to DCs. Also, additional studies revealed that IKDCs are very similar to NK cells. These and other observations led the scientific community to believe that IKDCs were activated NK cells. Despite this controversy, IKDCs clearly exhibit a unique and outstanding anti-tumor potential, highlighting the relevance to further explore these cells. We must first close the debate regarding the lineage origin of IKDCs. We subsequently need to identify a means to specifically target IKDCs to facilitate their use in novel anti-tumor therapies. Thus, the objective of my thesis is first, to define the identity of IKDCs and second, to determine the genetic factors implicated in the regulation of these cells. For the first objective, we demonstrated that IKDCs do not represent activated NK cells, as previously suggested. We show that IKDCs are highly proliferative and exhibit a unique phenotype associated with very immature NK cells. In an attempt to verify if IKDCs could acquire a mature phenotype, we conducted an adoptive transfer experiment. We found that, after adoptive transfer, IKDCs adopt a mature phenotype, but also surprisingly differentiate into NK cells. These findings indicate that IKDCs represent an intermediate in NK-cell differentiation. For the second objective, we demonstrated that the IKDC proportion was highly variable between strains of different background origins, indicating that these cells are regulated by genetic factors. A genetic study revealed that genetic factors in distal arm of chromosome 7 associate with the proportion of IKDCs. The results presented in this thesis represent an important breakthrough for the research on IKDCs. They allowed to define the cell lineage origin of IKDCs and to identify a genetic region involved in the regulation of this cell type. These discoveries are valuable knowledge for the identification of human IKDCs and the development of novel anti-tumor therapies.

Cellules dendritiques

Cellules Natural Killer

Immunogénétique

Immunogenetics

Natural Killer cells

Dendritic cells

Caractérisation de l'activité fonctionnelle et métabolique des cellules NK en situation de stress nutritionnels : approche expérimentale in vitro et in vivo / Characterization of functional and metabolic activity of NK cells by nutritional stress : experimental approach in vitro and in vivo

Lamas, Bruno

27 June 2012

Les cellules Natural Killer (NK), actrices majeures de la vigilance anti-tumorale, sont modulées par des facteurs nutritionnels et métaboliques. L'inhibition de leur activité favorise le développement tumoral. Un régime alimentaire hypercalorique induisant l'obésité est un facteur de risque de développer un cancer du sein. Au niveau du micro-environnement tumoral mammaire, la biodisponibilité en certaines molécules contrôle non seulement les cellules néoplasiques mais, également les cellules immunes infiltrées. Ainsi, la leptine, sécrétée à forte concentration par les adipocytes mammaires, pourrait favoriser la croissance tumorale et altérer les cellules NK. L'arginine fortement consommée par les cellules tumorales et les cellules suppresseurs dérivées des myéloïdes pourrait faire défaut aux cellules NK. L'objectif de cette thèse est de caractériser les activités fonctionnelles et métaboliques des cellules NK en situation de stress nutritionnel. Dans un premier temps, nous avons exploré, in vivo, l'impact d'un régime hypercalorique sur l'activité des cellules NK et sur le développement tumoral mammaire. Ensuite, nous avons cherché à identifier les potentielles altérations fonctionnelles des cellules NK en mimant, in vitro, les conditions retrouvées au niveau du micro-environnement tumoral telles que la présence de concentration élevée en leptine et la déplétion en arginine. Des souris Balb-c "nude" femelles ont été soumises à un régime hypercalorique (HC) versus une diète normo-calorique (NC) pendant 6 mois. Au bout de 5 mois, des cellules tumorales mammaires (MCF-7 ; groupes NCT et HCT) ou le véhicule (groupes NC et HC) ont été implantés au niveau de la quatrième paire de glandes mammaires. Sous régime HC, le développement tumoral s'accompagne d'une perte de masse grasse, de masse maigre et de poids corporel avec un volume et un poids de tumeur augmentés. Cette diète induit au niveau tumoral une sur-expression des ARNm d'enzymes impliquées dans la glycolyse et une sous-expression des acteurs du cycle de Krebs. Sous régime HC, l'expression de la caspase 3 clivée et des récepteurs des oestrogènes β et de la progestérone est réduite alors que celle du Ki67 est accrue. Les cellules NK des souris HC ont une cytotoxicité diminuée. Bien que la présence de tumeur stimule l'activité lytique des cellules NK, la cytotoxicité de ces cellules reste inférieure dans le groupe HCT comparativement à celle du groupe NCT. La leptine stimule, in vitro, de façon dose-dépendante l'activité métabolique des cellules NK. A fortes concentrations, elle active leur cytotoxicité vis-à-vis des cellules cibles MDA-MB-231. Cet effet passe par une stimulation de l'expression de TRAIL et de l'IFN-γ par les cellules NK. En revanche, vis-à-vis des cellules cibles MCF7, les cellules NK présentent une activité lytique réduite en présence de fortes concentrations de leptine, probablement en lien avec une réduction de l'expression de la perforine. En réponse à une déplétion en arginine dans le milieu de culture, la prolifération et la cytotoxicité des cellules NK sont abaissées. L'altération de la reconnaissance des cellules cibles par les récepteurs NKp46 et NKp30, la moindre transmission du signal activateur par la chaine ζ et la faible production d'IFN-γ peuvent expliquer l'inhibition de la cytotoxicité des cellules NK. Ainsi, un apport énergétique élevé favorise le développement tumoral mammaire notamment eninhibant la cytotoxicité des cellules NK. De plus, la leptine à fortes concentrations stimule ou réduit, in vitro, la cytotoxicité des cellules NK selon la nature des cellules cancéreuses mammaires cibles. Une déplétion en arginine, in vitro, quant à elle, inhibe la prolifération et la cytotoxicité des cellules NK. Ces travaux contribuent à mieux comprendre l'impact du micro-environnement sur la réponse antitumorale des cellules NK. / Natural killer (NK) cells are critical mediators of anti-tumor immunity. A high-calorie diet inducing obesity is associated with breast cancer development. NK cells are modulated by dietary and metabolic factors and a decrease in their lytic activity promotes mammary tumor development. In the breast microenvironment, high concentration of leptin can be secreted by mammary adipocytes and thereby could stimulate tumor growth and control immune cells. Arginine, strongly consumed by tumor and myeloid-derived suppressor cells, could be lacking to NK cells. The aim of this work is to characterize the functional and metabolic activities of NK cells in response to nutritional stress. Initially, we explored in vivo the impact of a high-calorie diet on NK cells activity and mammary tumor development. Then, we identified potential functional alterations in NK cells by mimicking the conditions found in the tumor microenvironment such as the presence of high leptin concentration and arginine depletion. Female Balb-c nude mice were fed a high-caloric diet (HC) versus a standard caloric diet (SC) for 6 months. After five months, mammary tumor cells (MCF-7, SCT, HCT) or MatrigelTM (SC, HC) were implanted into the fourth mammary fat pads. The tumor development in HC diet-fed mice was associated with a decrease in body weight, body fat and lean mass and an increase in volume and weight of tumors. This diet induced tumor over-expression, at the transcriptional level, of enzymes involved in glycolysis and a down-expression of citrate cycle actors. Protein tumor levels of cleaved caspase 3, estrogen β and progesterone receptors were reduced while Ki67 was increased in the HC diet-fed mice. NK cell cytotoxicity of HC diet-fed mice was reduced. Although the presence of tumor stimulated NK cell lytic activity, this later was lower in the HCT group compared to the one of SCT mice. In vitro, leptin stimulated, in dose-dependent manner, the metabolic activity of NK cells. High leptin concentrations enhanced NK cell cytotoxicity against the MDA-MB-231 target cells. This phenomenon involved the increase of expression of TRAIL and IFN-γ in NK cells. However, against the MCF-7 target cells, NK cell lytic activity was reduced in the presence of high concentrations of leptin, probably in link to the decreased perforin expression. NK cell proliferation and cytotoxicity were impaired in response to arginine depletion. This inhibition of NK cell cytotoxicity could be linked to a low target cells recognition by NKp46 and NKp30, a reduced activating signal transmission by ζ chain and a low production of IFN-γ. Thus, high energy intake promotes mammary tumor development in particular by inhibiting NK cell cytotoxicity. In vitro, high leptin concentrations stimulate or reduce NK cell cytotoxicity according to the breast cancer cell targets. Furthermore, arginine depletion inhibits NK cell proliferation and cytotoxicity in vitro. These findings provide insight into the microenvironment impacts on NK cell antitumor response in tumor development.

Cellules natural killer

Modulation nutritionnelle

Leptine

Arginine

Tumeurs mammaires humaines

Xénogreffe

Souris "nude"

Natural killer cells

Nutritional modulation

Leptin

Arginine

Human mammary tumor

Xenograft

Nude mice

Caractérisation des variations fonctionnelles des cellules NK entre deux lignées murines

Mullins-Dansereau, Victor

08 1900

No description available.

Cellules Natural killer

Maturation fonctionnelle

CD27

CD11b

Fonctions cytotoxiques

Lignée Non-Obese Diabetic

Natural killer cells

Functional maturation

Cytotoxic functions

Perfil fenotípico e funcional de células Natural Killers induzido por ligantes de receptores Toll-like e células T CD8+ antígeno-específicas em indivíduos expostos e não infectados por HIV-1 / Phenotypic and functional profile of Natural Killer cells induced by Toll-like receptors ligands and antigen-specific CD8+ T cells in HIV-1 exposed uninfected individuals

Lima, Josenilson Feitosa de

14 March 2014

Introdução: A resistência a infecção pelo HIV-1 depende de fatores virais, genéticos e imunológicos do hospedeiro, incluindo os componentes da resposta imune inata e adaptativa. As células Natural Killer (NK) e as células T CD8+ são as principais células efetoras que medeiam atividade citotóxica contra células transformadas ou infectadas, que exercem importante papel protetor nos indivíduos expostos e não infectados por HIV-1 (ENI). Objetivo: Avaliar a expressão de receptores de ativação e inibição/exaustão nas células NK e T CD8+, e a capacidade das células NK em secretar citocinas e componentes citotóxicos após estimulação via receptores Toll-like (TLRs), e a resposta de células T CD8+ a peptídeos da Gag do HIV-1 em indivíduos ENI e seus parceiros infectados por HIV-1. Resultados: No grupo ENI foi observado aumento da frequência de células NK CD56bright que expressam moléculas de ativação NKG2D e CD95 na população CD56dim, enquanto no grupo HIV-1 foi mais prevalente a expressão de MIC A/B em ambas populações de células NK, com redução da expressão de NKG2D na população CD56dim. Além disto, foi observado expansão da população de células NK CD56dim que expressam CD94, NKG2C e principalmente de CD57 foi mais prevalente nos indivíduos ENI, com correlação positiva com títulos de anticorpos IgG anti-citomegalovírus humano. Nos indivíduos ENI foi observado que a ativação via TLR-3, TLR-7 ou TLR-7/8 foi capaz de potencializar a expressão de marcadores de desgranulação e de citotoxicidade, CD107a e granzima B, principalmente na população CD56dim, e de IFN-y e TNF nas populações CD56bright e CD56dim. Além disto, somente o grupo ENI, foi detectado aumento da freqüência de células NK secretoras de CD107a, granzima B, IFN-y e TNF, após estimulação com acetato de miristato de forbol e ionomicina. A frequência de expressão de alelos de KIR (killer cell immunoglobulin-like receptors) foi similar entre os grupos analisados. Elevada frequência de células T CD8+ CD38+ e CD8+PD-1+ (programmed cell death protein 1) foi detectado nos grupos ENI e HIV-1, cuja alteração foi observada em todas as fases de maturação celular. Os indivíduos ENI mostraram presença de resposta antígeno-específica de células T CD8+ secretoras de CD107a, granzima B, IFN-y e TNF, semelhante ao grupo HIV-1. Conclusão: Os resultados mostraram que no grupo ENI, as células NK expressam um perfil de ativação, com potente resposta aos estímulos de resposta inata e células NK com perfil de memória. Presença de células TCD8+ antígeno-específica foi evidenciada no grupo ENI, com perfil semelhante, mas de menor magnitude ao detectado no grupo infectado por HIV. Em conjunto, os achados mostraram que no grupo ENI a resposta inata está potencialmente ativa, e que em associação a resposta T CD8+ antígeno-específica podem contribuir para a resistência a infecção pelo HIV-1 / Introduction: Resistance to human immunodeficency virus 1 (HIV-1) is dependent on viral, genetic and immunological host factors, including components of innate and adaptive immune response. Natural Killers cells (NK) and CD8+ T cells are main effectors cells mediating cytotoxic role against transformed or infected cells, playing a crucial role in HIV-1 exposed uninfected individuals (EU). Aim: To evaluate the expression of activation and inhibitory/exhaustion receptors on NK cells and CD8+ T-cells, and to determine the NK cells ability to cytokines and cytotoxic molecules secretion upon Toll-like receptors (TLRs) pathway activation as well as CD8+ T-cells response to HIV Gag peptides in EU individuals and HIV-1 infected partner. Results: Increased frequency of NK CD56bright cells expressing NKG2D and CD95 on CD56dim cells have been observed in EU group, while HIV-1 group was more prevalent MIC A/B expression in both NK cells subsets, with reduced expression of NKG2D in CD56dim cells. Moreover, expansion of NK CD56dim cells expressing CD94, NKG2C, and CD57 was prevalent on ENI group, which positive correlation with anti-human cytomegalovirus IgG serum titers. EU individuals showed that TLR-3, TLR-7 or TLR-7/8 pathway activation was able to enhance CD107a and granzyme B expression in CD56dim cells, and IFN-y and TNF expressions levels in both CD56bright and CD56dim NK cells. Moreover, only in EU group, high frequency of NK cells expressing CD107a, granzyme B, IFN-y and TNF were detected upon phorbol myristate acetate and ionomicyn stimulation. Frequency of KIR alleles (killer cell immunoglobulin-like receptors) was similar between groups. High frequency of CD8+CD38+ and CD8+PD-1+ (programmed cell death protein 1) T-cells were observed in EU and HIV-1 groups, in all stages of cellular differentiation. EU subjects showed presence of antigen-specific response by CD8+ T-cells secreting CD107a, granzyme B, IFN-y and TNF similar to HIV-1 group. Conclusion: The results showed that NK cells in EU subjects express activating profile, with potent ability to innate immune stimuli, as well as NK cells with memory profile. Presence of antigen-specific CD8+ T-cells was detected in EU group, with similar profile, but in less magnitude than HIV-1 group. Taken together, the findings showed an enhanced innate immune response in EU subjects, in association with antigen-specific CD8+ T-cell response can contribute to resistance to HIV-1 infection

CD8-positive T-lymphocytes

Células Natural Killer

HIV-1

HVI-1

Linfócitos T CD8-positivos

Natural Killer cells

Receptores toll-like

Toll-like receptors

Células Natural Killer na modulação da imunidade celular em humanos. / Natural Killer cells in the modulation of cell-mediated immunity in humans.

Salomon, Maria Alejandra Clavijo

17 August 2016

Células dendríticas (DCs) são componentes centrais da imunidade celular, responsáveis pelo priming de linfócitos T naïve. A polarização de linfócitos T é restrita aos sinais fornecidos durante a apresentação do antígeno. Além desses sinais, a origem e natureza de DCs que induzem diferentes perfis de linfócitos T não é totalmente compreendida. Foi investigada a capacidade de células Natural Killer (NK) de modular estágios iniciais da diferenciação de monócitos em DCs e de impactar na sua função de primar e polarizar linfócitos T naïve. DCs derivadas de monócitos pré-co-cultivados com células NK favorecem o priming de linfócitos T CD8 do tipo Tc1/Tc17, com potente capacidade de produção de IFN-&#947;. Este fenômeno foi dependente de interações longas via NKp30 e da maquinaria citotóxica de células NK desencadeada nas etapas inicias da sua interação com monócitos. Esta interação pode ter implicações na compreensão da imunidade mediada por linfócitos T CD8 e pode ser explorada para imunoterapia em que a produção de IFN-&#947; por células T CD8 é necessária ou exacerbada. / Dendritic cells (DCs) are central components of cellular immunity, responsible for the priming of naïve T cells. The polarization of T cells is restricted to signals provided during antigen presentation. Besides such signals, the origin and nature of DCs that induce different T cell profiles is not fully understood. The ability of natural killer cells (NK) to modulate early stages of monocytes differentiation into DCs and to impact on DCs function to prime and polarize naïve T cells was investigated. DCs derived from monocytes co-cultured with NK cells support the priming of type Tc1/Tc17 CD8 T cells with potent IFN-&#947; production capacity. NK cell-mediated cytotoxicity triggered at early stages of NKp30-dependent long-lasting monocytes-NK-cells interactions, mediated the mechanism by which this phenomenon occurred. This interaction may have implications in the understanding of CD8 T cell-mediated immunity and can be exploited for immunotherapy in which IFN-&#947; production by CD8 T cells is required or exacerbated.

CD8 T cells

Células dendríticas

Células Natural Killer

Dendritic cells

IFN-&#947;

IFN-&#947;

Linfócitos T CD8

Monócitos

Monocytes

Natural Killer cells

NKp30

NKp30

Avaliação de aspectos inatos e adaptativos do sistema imune na psoríase: análise fenotípica e funcional de células natural killer e células T / Innate and adaptive features of the immune system in psoriasis: phenotypic and functional analyses of natural killer cells and T cells

Batista, Mariana Dias

06 December 2012

INTRODUÇÃO: A psoríase é doença inflamatória hiperproliferativa da pele, na qual mecanismos imunológicos são cruciais para o processo patogênico. O marcador CD57 denota inabilidade de replicação e imuno-senescência de células T CD8+, e sua expressão foi demonstrada em diversas condições inflamatórias. CD57 também pode ser expresso por células natural killer (NK), nas quais é considerado marcador de maturidade, por ser em geral adquirido pelas formas mais diferenciadas CD56+CD16+. A expressão de CD57 e outros receptores de células NK não foi amplamente investigada na psoríase. OBJETIVOS: Este estudo buscou examinar o fenótipo de células NK em biópsias de pele e células mononucleares do sangue periférico (CMSP) de pacientes com psoríase em relação a controles sadios. Este estudo investigou também o fenótipo e características funcionais de células T isoladas da pele lesional e não afetada de pacientes com psoríase. MÉTODOS: Foram isoladas células NK dos subtipos CD56+CD16- e CD56+CD16+ de pele lesional, não afetada e CMSP de pacientes com psoríase, comparadas com pele normal e CMSP de controles sadios. A expressão de CD57, NKG2A e NKG2C foi determinada nesses subtipos de células por citometria de fluxo. Células T CD4+ e CD8+ foram isoladas da pele lesional e não afetada de pacientes com psoríase, e a expressão de CD57 foi avaliada. Características funcionais de células T foram estudadas através da análise da secreção de diversas citocinas inflamatórias (IL-17A, IFN-\", IL-2, IL-33, TNF- #, IL-21, IL-22 and IL-27) produzidas por células T CD4+ e CD8+ isoladas por sorting celular, a partir de amostras de pele lesional e não afetada de pacientes com psoríase. RESULTADOS: Células NK isoladas das lesões de psoríase apresentaram um fenótipo particular, caracterizado por baixa expressão de CD57 e alta expressão de NKG2A na pele lesional e não afetada em relação aos controles. Em relação às células T, encontrouse frequência de células T CD4+CD57+ e CD8+CD57+ significativamente maior na pele não afetada em relação à pele lesional de pacientes com psoríase. Células T CD4+ isoladas por sorting celular a partir de amostras de pele lesional produziram níveis maiores de IL-17A, IL-22 e IFN-\" em relação às amostras de pele não afetada. Células T CD8+ isoladas da pele lesional secretaram maiores níveis de IL-17A, IFN-\", TNF-# e IL- 2 em relação à pele não afetada. CONCLUSÕES: Esses dados sugerem que células NK presentes nas lesões de psoríase apresentam fenótipo imaturo, que foi previamente associado a maiores capacidades funcionais, e poderiam ser implicadas na patogênese da psoríase. Em relação às células T, as características fenotípicas sugerem menor sobrevivência de células com baixa capacidade replicativa na pele lesional, pelo ambiente inflamatório local ou pelo alto turnover celular da psoríase / INTRODUCTION: Psoriasis is a hyper-proliferative inflammatory disease of the skin in which immunological mechanisms play a direct role in disease pathogenesis. CD57 is a marker of replicative inability and immunosenescence on CD8+ T cells and its expression is increased in a number of inflammatory conditions. CD57 is also expressed by NK cells and is considered a marker of NK cell maturity, being acquired by more differentiated CD56+CD16+ NK cells. The expression of CD57 and other NK cell markers in psoriasis has not been thoroughly investigated. OBJECTIVES: This study sought to examine the phenotype of NK cells in skin biopsies and peripheral blood mononuclear cells (PBMC) from patients with psoriasis and healthy controls. We also investigated the phenotype and functional characteristics of T cells from psoriasis patients, comparing lesional and unaffected skin. METHODS: CD56+CD16- and CD56+CD16+ NK cells were isolated from lesional skin, unaffected skin and PBMC of psoriasis patients, and normal skin and PBMC from healthy controls. The expression of CD57, NKG2A, and NKG2C was assessed by flow cytometry. CD57 expression was also determined on T cells from lesional and unaffected skin by flow cytometry. We assessed functional characteristics of T cells by evaluating the secretion of several inflammatory cytokines (IL-17A, IFN-\", IL- 2, IL-33, TNF-#, IL-21, IL-22 and IL-27), from cell-sorted purified CD4+ and CD8+ T cells isolated from lesional and unaffected skin of psoriasis patients, by multiplex assays. RESULTS: NK cells in psoriasis skin lesions exhibited a distinct phenotype, with CD57 expression significantly reduced and NKG2A expression increased on NK cells in lesional and unaffected skin compared to controls. In relation to T cells, we observed that the frequency of CD57+CD4+ and CD57+CD8+ T cells was significantly increased in unaffected skin of psoriasis patients compared to lesional skin. Sorted CD4+ T cells from psoriasis lesional skin produced higher levels of IL-17A, IL-22 and IFN-\" compared to unaffected skin. CD8+ T cells isolated from lesional skin produced higher levels of IL- 17A, IFN-\", TNF-# and IL-2 compared to unaffected skin. CONCLUSIONS: These data suggest that NK cells in psoriasis lesions exhibit an immature phenotype, that has been previously associated with higher functional abilities, and could implicate NK cells in psoriasis pathogenesis. For T cells, the findings of this study suggest lower survival of cells with low replicative ability in lesional skin, due to the local inflammatory environment or to the high cellular turnover in psoriasis

Adaptive immunity

Antígenos CD57

CD57

Células natural-killer

Citocinas

Cytokines

Imunidade adaptativa

Imunidade inata

Innate immunity

Natural killer cells

NKG2A

NKG2A

Psoríase

Psoriasis