Importância dos genes KIR e dos genes de citocinas no Linfoma difuso de grandes células B / Importance of KIR genes and cytokine genes in diffuse large B cell lymphoma

Marangon, Amanda Vansan, 1985-

24 August 2018

Orientadores: Carmino Antonio de Souza, Jeane Eliete Laguila Visentainer / Tese (doutorado) - Universidade Estadual de Campinas, Faculdade de Ciências Médicas / Made available in DSpace on 2018-08-24T20:55:46Z (GMT). No. of bitstreams: 1 Marangon_AmandaVansan_D.pdf: 2274304 bytes, checksum: 433df5157fab3588b51689f24c4b86cf (MD5) Previous issue date: 2014 / Resumo: O Linfoma difuso de grandes células B (LDGCB) representa o subtipo mais prevalente de linfoma maligno não-Hodgkin, sendo responsável por 30-40% de todos os casos de LNH. O LDGCB não tem etiologia e patogênese bem definidas, porém o seu desenvolvimento parece estar relacionado a respostas imunes ineficazes, devido a frequente associação desse linfoma com estados de imunossupressão. Os fatores genéticos envolvidos no desenvolvimento e evolução da doença não são bem entendidos. Nesse contexto, o objetivo desse trabalho foi avaliar a influência dos genes KIR, dos ligantes HLA e do polimorfismo em genes de citocinas na susceptibilidade ou resistência ao desenvolvimento de LDGCB, bem como na evolução clínica e resposta ao tratamento. Para tanto, foram selecionados 112 pacientes com diagnóstico de LDGCB e 292 doadores de sangue e medula óssea como grupo controle. As tipificações dos genes KIR e dos ligantes HLA foram realizadas com a técnica de PCR-SSOP e a tipificação de citocinas foi realizada com a técnica PCR-SSP. As análises estatísticas foram realizadas pelo pacote estatístico "R" versão 3.0.2 para o programa Windows e os valores de P<0,05 foram considerados significativos. A distribuição dos genes KIR nos grupos estudados mostrou uma menor frequência do gene KIR2DL2 nos pacientes quando comparados aos controles (45,5% vs 58,1%; P=0,036), essa associação mostrou-se significativa também na combinação de KIR2DL2 com C1 (33,0%vs 45,9%; P=0,026) sugerindo um papel de proteção desse gene ao desenvolvimento de LDGCB. Em relação à evolução clínica da doença, os ligantes HLA-Bw4 e HLA-Bw4 80I foram mais frequentes nos pacientes com estádios mais avançados da doença (64,7% vs 40,9%; P=0,020 e 44,1% vs 25,0%; P=0,046, respectivamente) sugerindo que a presença desses ligantes pode ser fator de prognóstico ruim ao LDGCB. Em relação à resposta terapêutica, o gene KIR2DL3 foi associado positivamente ao tratamento do LDGCB, pois esse gene foi mais frequente nos indivíduos com resposta completa que nos indivíduos não respondedores (88,3% vs 71,0%; P=0,044). A respeito dos genes reguladores de citocinas, o genótipo IFN-gama-874/A:A foi associado positivamente ao LDGCB, sendo encontrado mais frequente nos pacientes que nos controles (50,9% vs 27,9%; P=0,001). Contrariamente os genótipos: IFN-gama-874/T:A, IL10-819/C:C e IL10-592/C:C foram menos frequentes nos pacientes que nos controles (P=0,001; P=0,025; P=0,025). Ademais, o genótipo IL10-1082/G:G foi relacionado a maior sobrevida livre de progressão. Os resultados encontrados sugerem que os genes KIR, os ligantes HLA e os genes de citocinas parecem ter envolvimento na proteção, susceptibilidade, evolução clínica e resposta ao tratamento do LDGCB / Abstract: Diffuse large B-cell lymphoma (DLBCL) is the most prevalent subtype of malignant non-Hodgkin lymphoma and affects approximately 30-40 % of all cases. The DLBCL has no clearly defined etiology and pathogenesis, but its development seems to be related to ineffective immune responses due to frequent association of lymphoma with immunosuppression. Genetic factors involved in the development and progression of the disease are not well understood. The aim of this study was to evaluate the influence of KIR genes, HLA ligands and cytokine polymorphisms in the susceptibility or resistance to the development of DLBCL, as well as influence in the clinical course and response to treatment. To this end, we selected 112 patients with DLBCL and 292 bone marrow donors as control group. The typing of KIR genes and HLA ligands were performed by PCR-SSOP and typing of cytokine genes was performed by PCR-SSP technique. Statistical analyzes were performed by the statistical package " R " version 3.0.2 for Windows program. P values < 0.05 were considered significant. The distribution of KIR genes in both groups showed a lower frequency of the KIR2DL2 gene in patients compared to controls (45.5% vs 58.1% P=0.036), this association was significant also in combination KIR2DL2 with C1 (33.0% vs 45.9%, P=0.026) suggesting a protective role of this gene to the development of DLBCL. Regarding the clinical course of the disease, HLA-Bw4 and HLA-Bw4 80I ligands were more frequent in patients with more advanced stages of the disease (64.7% vs 40.9%, P=0.020 and 44.1% vs 25 0%, P=0.046, respectively) suggesting that the presence of these ligands may be poor prognostic factor to DLBCL. In regard to treatment response, the KIR2DL3 gene was positively associated with the treatment of DLBCL, because this gene was more frequent in individuals with complete response than in nonresponders individuals (88.3% vs 71.0%, P=0.044 ). Regarding the cytokine genes , IFN -gamma-874/A genotype:A/A was positively associated with DLBCL, it was more frequently in patients than in controls (50.9% vs 27.9%, P=0.001). On other hand genotypes: IFNG -874 /T:A, IL10-819/C:C and IL10 -592 /C:C were less frequent in patients than in controls (P=0.001, P=0.025, P=0.025 respectively). Moreover, the genotype IL-1082/G:G was related to increased progression-free survival. The results suggest that the KIR genes, HLA ligands and cytokine genes seem to be involved in the protection, susceptibility, clinical course and response to treatment of DLBCL / Doutorado / Clinica Medica / Doutora em Clínica Médica

Receptores KIR

Linfoma difuso de grandes células B

Citocinas

Células matadoras naturais

KIR receptors

Diffuse Large-Cell lymphoma

Cytokines

Natural killer cells

Optimisation de l'activité immunostimulatrice des lymphocytes T Natural Killer invariants : conséquences sur l'immunité anti-tumorale / Optimization of immune stimulatory activities of invariant Natural Killer T lymphocytes : consequences on anti-tumor responses

Ghinnagow, Reem

24 May 2017

Pour optimiser les stratégies vaccinales anti-tumorales, l’activation des cellules du système immunitaire inné est cruciale pour générer l’expansion des lymphocytes T spécifiques des antigènes tumoraux. Les lymphocytes T Natural Killer invariant (iNKT) représentent une famille unique de lymphocytes T innés ayant des propriétés immunomodulatrices puissantes. Ces cellules reconnaissent via leur récepteur T des antigènes glycolipidiques présentés par la molécule CD1d exprimée par les cellules présentatrices d’antigènes. L'alpha-galactosylcéramide (α-GalCer), un puissant activateur des cellules iNKT, est en développement clinique dans le cancer. Les cellules dendritiques (DCs) sont équipées pour activer les cellules iNKT and promouvoir de puissantes réponses immunitaires adaptatives. Considérant la capacité unique des DC CD8α+ à présenter de façon croisée les antigènes aux lymphocytes T CD8+, notre objectif a visé à délivrer l’α-GalCer (considéré ici comme un adjuvant) et des antigènes tumoraux aux DC CD8α+ dans le but de générer de puissantes réponses T cytotoxiques anti-tumorales. Pour cela, les antigènes ont été incorporés dans des nanoparticules de PLGA décorées à leur surface avec des anticorps anti-Clec9a, un marquer exprimé spécifiquement par les DC CD8α+. Nos résultats montrent chez la souris que la co-délivrance simultanée de l’α-GalCer et d’auto-antigènes tumoraux (Trp2 et gp100) aux DC CD8α+ promeut une forte réponse anti-tumorale dans un contexte prophylactique et thérapeutique. Nous démontrons que cet effet vaccinal est dû aux cellules iNKT (mais pas aux lymphocytes T auxiliaires) et aux lymphocytes T CD8+. L’efficacité vaccinale est corrélée à un rapport supérieur entre les lymphocytes T CD8+ spécifiques des antigènes tumoraux et les lymphocytes T CD4+ régulateurs au sein des tumeurs. Chez l’homme, la co-administration de l’α-GalCer et de l’antigène tumoral (Mélan A) aux DC BDCA3+ (les équivalents humains des DC CD8α+) induit une forte expansion des lymphocytes T CD8+ spécifiques du Mélan-A in vitro. Nos résultats montrent pour la première fois que la tolérance aux auto-antigènes tumoraux peut être levée en exploitant la fonction «helper» des cellules iNKT et mettent en évidence de nouvelles approches thérapeutiques contre le développement tumoral. / To optimize anti-tumor vaccine strategies, exploitation of cells of the innate immune system to assist the expansion of tumor antigen-specific T cells is of interest. Invariant Natural Killer T lymphocytes (iNKT) are a unique population of “innate-like” T cells endowed with potent immunomodulatory properties. These cells recognize through their T cell receptor glycolipids presented by the CD1d molecule expressed by antigen presenting cells. Alpha-galactosylceramide (α-GalCer), a potent iNKT cell activator, is in clinical development in cancer. Dendritic cells (DC) are well equipped to trigger iNKT cells activation and to promote adaptive immune responses. Regarding the unique ability of CD8α+ DCs to cross-present antigens to CD8+ T cell response, we intended to deliver α-GalCer (viewed here as an adjuvant) and tumor antigens to CD8α+ DCs with the aim to generate efficient antitumor cytotoxic T cells. To this end, antigens were incorporated in PLGA-based nanoparticles decorated with anti-Clec9a antibodies, a marker specifically expressed by CD8α+ DCs. Our results show (mouse system) that simultaneous co-delivery of α-GalCer and tumor selfantigens (Trp2 and gp100) to CD8α+ DCs promotes strong anti-tumor responses in prophylactic and therapeutic settings. We attributed the therapeutic effects of the vaccine to iNKT cells (but not to T-helper lymphocytes) and to CD8+ T lymphocytes. The efficacy was correlated with a high ratio of tumor antigen specific CD8+ T cells to CD4+ regulatory T lymphocytes infiltrating the tumor. In human, co-administration of α-GalCer and a tumor antigen (Melan A) to DC BDCA3+ (the human equivalent of CD8α+ DCs) strongly induces the expansion of Melan-A specific CD8+ T lymphocytes in vitro. Our results demonstrate that tolerance to self-antigens can be abrogated by manipulating the NKT cells’ helper functions and shed light on novel therapeutic approaches for controlling tumor development.

INKT

Cellules dendritiques

Nanoparticules

Alpha-GalCer

Lymphocte NKT

Vectorisation

CD8a+

BDCA3+

Α-GalCer

INKT cells

Invariant Natural Killer T lymphocytes

Nanoparticles

Study of tumor cell metabolism and its relationship with NK cell-mediated immunotherapy / Etude du métabolisme cellulaire de la tumeur et sa relation avec l'immunothérapie médiée par les cellules NK

Krzywinska, Ewelina

03 December 2014

La formation et le développement d'une tumeur sont provoqués par une série de défauts qui se produisent à l'intérieur de la cellule cancéreuse et dans son microenvironnement. Ces anomalies permettent à la cellule de développer ses propres stratégies de croissance, de prolifération, de différenciation et de métabolisme. Toutes ces adaptations, ainsi que la création d'un micro-environnement unique favorisent la croissance de la tumeur et inhibent la réponse immunitaire anti-tumorale. Le métabolisme des cellules cancéreuses et l'évasion immunitaire sont des points très sensibles dans le développement des cancers et peuvent être utilisés en clinique. Les études récentes suggèrent que ces deux phénomènes sont liés, et que le métabolisme des cellules cancéreuses peut amener à l'échappement immunitaire par la tumeur. Le métabolisme des cellules tumorales a tendance à éviter l'activité mitochondriale et la phosphorylation oxydative, et est principalement basée sur la glycolyse pour la production d'énergie (effet Warburg). Mon travail de thèse est divisé en deux parties. Dans la première partie nous avons proposé un concept thérapeutique novateur avec une nouvelle thérapie combinatoire pour le traitement de cancers hématologiques. Cette thérapie est basée sur l'induction de changements métaboliques par le dichloroacétate (DCA), et elle est associée avec la chimiothérapie conventionnelle (doxorubicine, vincristine) pour réactiver les fonctions de p53. Les tumeurs avec p53 mutantes sont résistantes à cette combinaison. Dans ce cas, nous avons constaté que le DCA peut coopère avec 17-AAG (l'inhibiteur de Hsp90) pour éliminer spécifiquement les cellules cancéreuses. En conséquence, une meilleure compréhension des signaux et des mécanismes par lesquels le DCA sensibilise les cellules tumorales à la chimiothérapie est nécessaire pour en comprendre le mode d'action. En outre, l'identification de ce mécanisme permettra d'élucider les voies métaboliques impliquées dans la survie des cellules cancéreuses. La deuxième partie de ma thèse se concentre sur la biologie des cellules NK. Les cellules NK sont des lymphocytes du système immunitaire inné et possèdent une cytotoxicité naturelle contre les cibles, c'est à dire les cellules tumorales. L'utilisation optimale des cellules NK en clinique nécessite leur expansion et leur activation in vitro. Les cellules NK s'activent en présence de cytokines ou par le contact avec les cellules cibles. L'activation des cellules NK induit la prolifération, mais celle-ci dépend aussi de la présence d'autres cellules immunitaires. L'activation, par les cytokines et par les cellules cibles, induit un différent ARNm/microARN profil d'expression. L'analyse détaillée des isoformes de la protéine tyrosine phosphatase CD45 a permis de caractériser de nouvelles populations de cellules NK anti-tumorales humaines. L'identification de différentes populations de cellules NK est très importante pour la compréhension de leur physiologie et pour l'amélioration de leur utilisation en immunothérapie clinique. Cela peut également donner des informations précieuses sur l'état physiologique de l'hôte. En effet, l'augmentation des cellules CD45RAdim et CD45RO + dans le compartiment des cellules NK matures identifie clairement les patients avec des hémopathies malignes. Nous pensons que leur détection peut être utilisée comme un outil de diagnostic et également pour évaluer l'efficacité des traitements anti-tumoraux, car ces populations de cellules NK spécifiques devraient diminuer lors de l'élimination de cellules tumorales cibles. Dans l'avenir, nous voulons combiner le traitement du métabolisme de la tumeur avec la thérapie anti-tumorale basée sur les cellules NK. Sur la base de nos données préliminaires, nous pouvons proposer le traitement des cellules cancéreuses par des médicaments métaboliques pour augmenter la sensibilité et la reconnaissance par les cellules NK activées. / Tumor formation and development are caused by a range of defects that occur inside the cancer cell and in the external cellular microenvironment. These abnormalities allow developing tumors to establish their own strategies of growth, proliferation, differentiation and metabolism. All these adaptations, as well as the creation of a unique microenvironment, promote tumor growth and suppress the anti-cancer immune response. Tumor cell metabolism and immune evasion are sensitive points of cancer development that can be targeted in clinic. Recent studies suggest that these two phenomena are related and that cancer cell metabolism may propel tumor immune escape. Tumor cell metabolism tends to avoid mitochondrial activity and oxidative phosphorylation (OXPHOS), and largely relies on glycolysis to produce energy (Warburg effect). My thesis work is divided into two parts. The first one proposes an innovative therapeutic strategy, which is the use of different combinatorial therapy depending on the p53 status for the treatment of hematological cancers. This is based on the induction of metabolic changes by dichloroacetate (DCA), combined with conventional chemotherapy (doxorubicin, vincristine) to reactivate wild type p53 functions. Mutant p53 tumors are resistant to this combination approach. However, we found that DCA synergized with the Hsp90 inhibitor 17-AAG to specifically eliminate these cells. Therefore, a clearer understanding of the signals and mechanisms by which DCA sensitize cancer cells to chemotherapy was needed to understand its mode of action. We uncovered it in our work. In addition, identification of this mechanism will help to elucidate metabolic pathways involved in cancer cell survival.The second part of my thesis is focused on the study of NK cell biology. NK cell is an innate immune system lymphocyte lineage with natural cytotoxicity against targets, i.e. tumor cells. Its optimal use in the clinic requires in vitro expansion and activation. Cytokines and the encounter with target cells activate NK cells, induce their proliferation, and cause clearly different mRNA/miRNA expression profile. Detailed analysis of the leucocyte-specific phosphatase CD45 isoforms allowed us to characterize new human anti-tumor NK cell populations. The identification of the different NK cell populations is important for understanding their physiology and for improving their therapeutic use in the clinic. It can also give valuable information about the host physiological status. Indeed, the increase of CD45RAdim and CD45RO+ cells in the mature NK cell compartment clearly identifies patients with hematological malignancies. We thus hypothesize that their detection could be used as a diagnostic tool, and also to assess the efficacy of antitumor treatments, because these specific NK cell populations should decrease upon removal of the targeted tumor cells. Our future goal is to use a novel combinatorial therapy in hematological cancers that will combine metabolic drugs and NK cell-based therapy. Based on our preliminary data, we propose that the treatment of cancer cells with metabolic drugs could increase their sensitivity and recognition by activated NK cells.

Cellules NK

Métabolisme

L’acide dichloroacétique

L'effet Warburg

Natural Killer cells

Metabolism

Dichloroacetate

Effect Warburg

NK cell-Mediated immunotherapy

Critical Roles of Cytomegalovirus-Induced Natural Killer Cells in Chronic Hepatitis C Virus Infection and Rituximab-Mediated Cancer Therapy

Oh, Jun Seok

January 2017

Natural Killer (NK) cells, members of the innate lymphoid cells (ILCs), are known to play an important role in the defense against foreign cells and abnormal host cells that have arisen due to viral infection or cancer inducing mutations. The typical immune response of NK cells involves the release of cytotoxic granules containing perforin and granzyme, and the secretion of immune-regulatory cytokines such as interferon gamma (IFN-γ). Unlike the adaptive lymphocytes such as T cells and B cells, NK cells do not require prior sensitization, enabling them to initiate an immune response much faster. This unique feature of NK cells is made possible by the utilization of an array of germline encoded receptors; but on the other hand, it limits NK cells ability to respond against rapidly evolving pathogens. NK cells overcome this shortcoming with an antibody-assisted process called antibody dependent cellular cytotoxicity (ADCC). A novel subset of human NK cells, which displays potent and broad antiviral responsiveness in concert with virus-specific antibodies, was recently discovered in cytomegalovirus positive (CMV+) individuals. This NK cell subset, called g-NK cell, was characterized by a deficiency in the expression of FcεRIγ, an adaptor protein that associates with CD16 which enables ADCC. Surprisingly, despite this deficiency, g-NK cells displayed an enhanced ADCC as compared to their conventional counterparts. Furthermore, having a long-lasting memory-like NK-cell phenotype suggests a role for g-NK cells in chronic infections. This study investigates the importance of g-NK-cells in clinical settings, first by investigating whether the presence of g-NK cells is associated with the magnitude of liver disease during chronic hepatitis C virus (HCV) infection. Analysis of g-NK cell proportions and function in the peripheral blood mononuclear cells (PBMCs) of healthy controls and chronic HCV subjects showed that chronic HCV subjects had slightly lower proportions of g-NK cells, while having similarly enhanced ADCC responses compared to conventional NK cells. Notably, among CMV+ chronic HCV patients, lower levels of liver enzymes and fibrosis were found in those possessing g-NK cells. g-NK cells were predominant among the CD56neg NK cell population often found in chronic HCV patients, suggesting their involvement in the immune response against HCV. Rituximab is a chimeric anti-CD20 antibody used to treat B cell lymphoma patients; and studies have suggested that its efficacy is associated with the ADCC potency and CD16 affinity. Since g-NK cells are characterized by their superior ADCC compared to their conventional counterpart, I decided to investigate whether the presence of g-NK cells can improve the effectiveness of rituximab against malignant B cells in the context of lymphoma and leukemia. The analysis of g-NK cells’ ADCC response against rituximab-coated lymphoma cell lines and B cells from a CLL patient indicated a superior ADCC by g-NK cells compared to their conventional NK cell counterparts. Taken together, for the first time, my findings indicate that the presence of g-NK cells in CMV+ individuals is associated with milder liver disease in chronic HCV infection. In addition, an enhanced ADCC response by g-NK cells upon encountering rituximab coated target cells suggests the beneficial roles of g-NK cells, and opens an avenue for novel therapeutic approaches where g-NK cells can be utilized to treat persistent diseases such as chronic viral infection and cancer.

Natural Killer (NK) Cells

Hepatitis C virus (HCV)

Cancer

Cytomegalovirus (CMV)

Lymphoma

Liver enzymes

Liver fibrosis

Estudo do polimorfismo dos genes KIR e HLA em pacientes com câncer de mama e grupo controle

Jobim, Maria Regina Sampaio Leite

January 2014

O presente estudo tem como objetivo investigar a frequência dos diversos polimorfismos dos genes KIR (Killer Immunoglobulin-like Receptors) e HLA C1 e C2 em um grupo de pacientes com câncer de mama e comparar com um grupo controle de indivíduos sadios. As células natural killer (NK) são linfócitos que diferem das células T e B e que fazem parte da imunidade natural, reconhecendo as moléculas HLA (Antígenos Leucocitários Humano) de classe I em células infectadas por vírus ou em células tumorais, através de seus receptores de membrana. Os principais receptores das células NK são conhecidos como receptores KIR, sendo codificados por genes localizados no cromossomo 19q13.4 e classificados em grupos funcionais supressores e ativadores. Neste estudo, analisamos 15 genes KIR e alelos do sistema HLA de classe I em 230 pacientes caucasóides e em 278 controles, usando a técnica de PCR com primers específicos (PCR-SSO e PCR-SSP). Nossos resultados demonstraram uma frequência maior do genótipo supressor 2DL2 (P<0,001) em pacientes com câncer de mama, quando comparados ao grupo controle. Os genes HLA-C2 e HLA-BW4 não apresentaram diferenças significantes entre os grupos. Contudo, o gene HLA-C1 foi observado em maior frequência nos pacientes com câncer de mama. Considerando que estes achados sugerem uma potencial associação entre o sistema de genes KIR, HLA classe I e o câncer de mama, estudos adicionais sobre este tema são necessários. / We investigated the frequency of various KIR (Killer Immunoglobulin-like Receptors) and HLA C1 and C2 gene polymorphisms in a group of patients with breast cancer and healthy controls. Natural Killer (NK) cells are lymphocytes that differ from T and B cells and are part of the innate immune system, recognizing class I Human Leukocyte Antigens (HLA) molecules on target cells (virus-infected as well as cancer cells), through specific cell surface receptors. KIR comprises the main class of NK receptors, being encoded by genes located in chromosome 19q13.4. They possess both suppressor and activating functional groups. Fifteen KIR genes and class I HLA alleles obtained from 230 Caucasians patients, as well as 278 controls were studied, using PCR techniques with specific primers (PCR-SSO and PCR-SSP). Our results showed a higher frequency of suppressor genotype 2DL2 (P<0,001) in patients with breast cancer as compared to controls. No significant difference between HLA-C2 and HLA-BW4 alleles were observed between the study groups. Notably, a higher frequency of HLA-C1 gene was noted in patients with breast cancer. Our results suggest a potential association between KIR genes, HLA class I and breast cancer, deserving further investigation.

Poliformismo genético

Receptores KIR

Antígenos HLA

Neoplasias da mama

Grupos de controle

Human leukocyte antigen

Natural killer cell

Killer cell immunoglobulin-like receptor

Breast cancer

Natural Killer Cells and Pre-B Acute Lymphoblastic Leukemia : Evidence for an Unconventional Cytotoxicity Pathway / Cellules Natural Killer et leucémies aiguës lymphoblastiques pré-B : éléments de preuve d’une voie de cytotoxicité non conventionnelle

Nicoletti, Simon

06 November 2017

Les cellules Natural Killer (NK) représentent une population de cellules innées lymphoïdes aux fonctions anti-infectieuses et antitumorales. Les leucémies aiguës lymphoblastiques pré-B (LAL pré-B) constituent le cancer de l’enfant le plus fréquent et ont été décrites comme résistantes à la cytotoxicité médiée par les NK bien que les bases moléculaires demeurent inconnues.L’objectif de ces travaux a été de caractériser cette résistance. En développant un essai de cytotoxicité par cytométrie en flux et en utilisant des cellules effectrices activées in vitro, nous avons établi la sensibilité retardée des LAL pré-B à la cytotoxicité NK : initialement résistantes après 4h d’incubation, elles sont fortement tuées après 25h.Cette cytotoxicité est contact-dépendante mais ni la voie de l’exocytose des granules cytotoxiques ni celle des récepteurs de mort n’y contribuent. La mort cellulaire des cibles est de profil apoptotique mais indépendante des caspases ; la signalisation mitochondriale l’amplifie partiellement. Interférer avec les dérivés de l’oxygène par un antioxydant diminue la cytotoxicité. Nous montrons que les cellules NK de patients atteints de granulomatose septique chronique liée à l’X présentent un défaut de cette nouvelle cytotoxicité. Nous démontrons l’expression par les NK des composants clefs d’une NADPH oxydase distincte du complexe utilisé par les phagocytes. Nos travaux établissent l’existence d’une voie de cytotoxicité non conventionnelle et en définissent les principaux prérequis moléculaires. / Natural Killer (NK) cells are innate lymphoid cells with anti-infectious and anti-tumoral activities. Among neoplasia, pre-B acute lymphoblastic leukemias (pre-B ALL) represent the most common form of cancer in childhood and were shown to be resistant to NK cell mediated cytotoxicity although the mechanisms explaining this phenomenon are incompletely understood.In the present work, we investigated the relative immune resistance of pediatric pre-B ALL targets to activated NK cells. We developed a flow cytometry based cytotoxicity assay to assess the NK activity and the involvement of long term cytotoxic pathways. Although pre-B ALL blasts were strongly resistant at 4h, we found a considerable delayed NK killing at 25h.Further investigations revealed that cell contact was mandatory for efficient killing but also that neither the granule exocytosis nor the death receptor pathway were involved. Target cell death was caspase independent but mitochondria signaling amplified it. We then showed that NK cells from patients with X-linked chronic granulomatous disease could not kill efficiently ALL blasts and that NK cells expressed key components of a NADPH oxidase complex that was distinct from the phagocyte type. Our work reveals an uncharacterized effector pathway among cytotoxic lymphocytes and establishes key molecular requirements for this unconventional pathway.

Cellules NK

Leucémie aiguë lymphoblastique

Cytotoxicité

Mort cellulaire

Granulomatose septique chronique

Déficits immunitaires

Natural Killer cells

Acute lymphoblastic leukemia

Cytotoxicity

Cell death

Chronic granulomatous disease

Immune deficiencies

Příprava a studium lidského lymfocytárního receptoru LLT1 / Preparation and study of human lymphocyte receptor LLT1

Bláha, Jan

January 2012

Natural killer (NK) cells are an intensively studied part of immune system, possessing unique ability to recognize and induce death of tumor and virus-infected cells without prior antigen sensitization. Their function is regulated by a fine balance of signals induced by multiple activating and inhibitory cell surface receptors and their interaction with the ligands present on the target cell. Recent research in their C-type lectin-like receptors repertoire has shown that ligands of some of these previously orphan receptors lie within their own family, describing a lectin-lectin interaction. This is the case of human inhibitory receptor NKRP1 (gene KLRB1) and its ligand LLT1 (gene CLEC2D). Previous studies have shown that overproduction of LLT1 in cancer cells or lower production of NKRP1 in NK cells is connected to cancerous manifestations. This master's thesis shows a successful production of the extracellular part of LLT1 utilizing a mammalian expression system based on transient transfection of modified human embryonic kidney (HEK) cell lines. It was found that the five cystein residues contained within the lectin domain of LLT1 tend to cause misfolding and formation of aggregates. Stabilization of the domain was achieved by restoration of the sixth cystein residue at the evolutionary conserved...

The Bidirectional Crosstalk between Human Dendritic Cells and Natural Killer Cells

Wehner, Rebekka, Dietze, Kristin, Bachmann, Michael, Schmitz, Marc

January 2011

Dendritic cells (DCs) are professional antigen-presenting cells, which display an extraordinary capacity to induce T-cell responses. Recent findings revealed that DCs also play a crucial role in the activation of natural killer (NK) cells representing important effectors in the innate immune defense against viruses and tumors. Here, we summarize various studies investigating the bidirectional crosstalk between human DCs and NK cells. In this context, it has been reported that DCs efficiently enhance CD69 expression, proliferation, interferon (IFN)-γ secretion and cytotoxic activity of NK cells. Cell membrane-associated molecules as well as soluble factors such as interleukin-12, tumor necrosis factor-α and type I IFNs contributed to DC-mediated NK cell activation. Reciprocally, the ability of human NK cells to enhance the immunostimulatory capacity of DCs was shown. Thus, NK cells promoted the maturation of DCs and markedly augmented their capacity to produce proinflammatory cytokines and to stimulate T-cell responses. The NK cell-mediated effects on DCs were dependent on cell membrane-associated molecules such as NKp30 and soluble factors such as tumor necrosis factor-α and IFN-γ. In conclusion, the reciprocal activating interaction between human DCs and NK cells may play a pivotal role in the immune defense against viruses and tumors. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/610

ddc:610

MicroRNA-155 Regulates Interferon-γ Production in Natural Killer Cells via Tim-3 Signalling in Chronic Hepatitis C Virus Infection

Cheng, Yong Q., Ren, Jun P., Zhao, Juan, Wang, Jia M., Zhou, Yun, Li, Guang Y., Moorman, Jonathan P., Yao, Zhi Q.

01 August 2015

Host immune responses must be tightly regulated by an intricate balance between positive and negative signals while fighting pathogens; persistent pathogens may usurp these regulatory mechanisms to dampen host immunity to facilitate survival in vivo. Here we report that Tim-3, a negative signalling molecule expressed on monocytes and T cells, is up-regulated on natural killer (NK) cells in individuals chronically infected with hepatitis C virus (HCV). Additionally, the transcription factor T-bet was also found to be up-regulated and associated with Tim-3 expression in NK cells during chronic HCV infection. MicroRNA-155 (miR-155), an miRNA that inhibits signalling proteins involved in immune responses, was down-regulated in NK cells by HCV infection. This Tim-3/T-bet over-expression and miR-155 inhibition were recapitulated in vitro by incubating primary NK cells or NK92 cell line with Huh-7 hepatocytes expressing HCV. Reconstitution of miR-155 in NK cells from HCV-infected patients led to a decrease in T-bet/Tim-3 expression and an increase in interferon-γ production. Blocking Tim-3 signalling also enhanced interferon-γ production in NK cells by improving signal transducer and activator of transcription-5 phosphorylation. These data indicate that HCV-induced, miR-155-regulated Tim-3 expression regulates NK cell function, suggesting a novel mechanism for balancing immune clearance and immune injury during chronic viral infection.

hepatitis C virus

interferon-γ

microRNA-155

natural killer cells

Internal Medicine

The Role of ITK in the Development of Gamma Delta NKT Cells: A Dissertation

Yin, Catherine C

08 August 2012

The immune system is a complex network of interacting cells and tissues that is designed to protect the body from pathogens and other foreign substances. T cells are a major component of the immune system and consist of two distinct lineages distinguished by the expression of αβ or γδ T cell receptors (TCR). The Tec family kinase, Itk is an important mediator of signaling downstream of the TCR. Past studies on Itk has focused on how Itk regulates development, activation and differentiation of conventional αβ T cells and more recently how Itk regulates the development of innate-like αβ T cells. However, very little is known about the influence of Itk on γδ T cells. My studies show a previously unknown role for Itk in the development and function of γδ T cells. We report in the absence of Itk, γδ T cells were responsible for the spontaneously elevated levels of serum IgE and Itk-/- mice γδ T cells produced high levels of TH2 cytokines. Furthermore, there was an increase in γδ T cells specifically in the Vγ1.1+Vδ6.3+ (V6) subset that represents the dominant population of γδ NKT cells in Itk-/- mice. In addition, the V6 subset had increased expression of PLZF, a transcription factor normally required for αβ iNKT cell development. We further show that V6 cells develop and mature similar to αβ iNKT cells. Similar to defects previously seen in the terminal differentiation of Itk-/- αβ iNKT cell, V6 cells also had impaired maturation in the thymus in the absence of Itk. This data demonstrates a previously unknown role of Itk for the terminal maturation of V6 cells that has been shown to be the cell population that led to spontaneous dermatitis in mice. Given that drug companies have targeted Itk as a potential allergy drug due to Itk’s role in TH2 development and function, our data suggests that further studies on Itk are warranted.

Protein-Tyrosine Kinases

Natural Killer T-Cells

Amino Acids, Peptides, and Proteins

Cells

Enzymes and Coenzymes

Hemic and Immune Systems

Immunology and Infectious Disease

Pharmaceutical Preparations

Therapeutics

Tissues