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 Effect of K562-IL21-2 Plasma Membrane Particles on the Proliferation of Natural Killer Cells to Fight Cancer

Prophete, Michelle

01 January 2017

Immunotherapy has emerged as a current and future paradigm of cancer treatment, which utilizes the body’s immune system to eradicate cancer. Natural Killer (NK) cells as part of the innate immune system have immense potential in their anti-tumor cytotoxic activities and host cell surveillance properties. NK cells comprise approximately five to fifteen percent of peripheral blood lymphocytes and can be proliferated in vitro using recently developed methods with co-cultures with feeder cells (derived from engineered tumor cells) or plasma membrane (PM) particles, produced from the fore mentioned feeder cells, in combination with soluble cytokines. For efficient growth and maintenance of these NK cells, Interleukin-2 (IL-2) is utilized. IL-2 in solution, through receptor mediated signaling, stimulates proliferation of T-cells and NK cells. NK cells have lower responsiveness to IL-2 and consequently require a larger systemic dose to stimulate them as opposed to competing cell populations that have higher expression of receptors for IL-2, such as T-cells, which can have the effect of lower effective stimulation of NK cell growth. Such difference in the stimulatory capability of IL-2 toward NK cells and the short circulation lifetime of soluble IL-2 require higher dosages of soluble IL-2 for effective in vivo NK cell proliferation for therapeutic application against cancer, but is toxic. Therefore establishing another form of IL-2 delivery that improves its specific targeting to NK cells would be beneficial and may be crucial for novel therapeutic improvement. The Copik Laboratory has made an IL-2 fusion protein construct having a membrane anchor for expression of membrane-bound IL-2 on K562-41bbl-21 cells (K562-IL21). K562-IL21 cells are selectively recognized by NK cells and stimulate their proliferation and cytotoxicity. Hence, a K562-IL21 membrane–bound IL-2 form should be targeted to NK cells with IL-2 delivery. K562-IL21-2 cells were then used to prepare PM21-2 particles which have the potential to provide NK cell targeted, long-lived form of IL-2 for use as an injectable drug for in vivo adjuvant stimulation of NK cells. The presence of IL-2 on the in the PM21-2 particle product was verified by Western blot, and ELISA. Particle preparations from the modified K562 cells should possess characteristics that allow them to possibly replace soluble IL-2 and more specifically increase the numbers or anti-tumor activity of NK cell populations. The effect of PM21-2 particles was studied in in vitro culture based experiments, which tested the effectiveness the PM21-2 particles to induce selective NK cells expansion as compared to PM21 particles in the presence or absence of soluble IL-2.

Cancer

Natural Killer Cells

Immunology

Plasma Membrane Particles

K562 Cells

IL-2

Cancer Biology

Investigative Techniques

Medical Immunology

Nanomedicine

Cytokine capture with beads in cytotoxicity assays in microwells / Cytokinfångning med kulor i cytotoxicitetsanalyser i mikrobrunnar

Simon, Maxime

January 2023

Cytokines are small, secreted proteins that are important for cell signalling in theimmune system. Interferon gamma (IFN-γ) is one of the most potent cytokines thatnatural killer (NK) cells of the innate immune system secrete with both antiviral,antibacterial, and antitumoral activity. Analysis of NK cells, such as that of secretionof IFN-γ, is important for studying the immune response to cancer and for developingeffective immunotherapies. In this master thesis project, a method was developedfor determining the amount of IFN-γ secreted by NK cells when being confinedwith cancer cells in deep microwells. Antibody-coated microbeads was used tocapture secreted IFN-γ, which was fluorescently labeled and detected by imaging usingfluorescence microscopy. Microbead seeding into small microwells for single cellassays and into large microwells for embedding of beads into 3D tumor spheroidswas investigated. An analytical model based on experimental standard curves wasdeveloped for straightforward quantification of the amount of bound IFN-γ, with ademonstrated detection down to 2.10−18 moles per bead. The detection of IFN-γ wasevaluated for primary NK cells stimulated by PMA/ionomycin for different incubationtimes. The secretion rate of IFN-γ by IL-2 activated NK cells under PMA/ionomycinstimulation was estimated at 184 molecules per second. IFN-γ detection was alsoevaluated in cell cytotoxicity assays where NK cells were confined over time togetherwith cancer cells in microwells. Both assays showed a successful detection of IFN-γ secretion, demonstrating the potential of the developed method for immune cellanalysis. / Cytokiner är små proteiner som är viktiga för cellsignalering inom immunförsvaret.Interferon gamma (IFN-γ) är en av de mest potenta cytokinerna som naturligamördarceller (NK) i det medfödda immunsystemet utsöndrar med både antiviral,antibakteriell och antitumoral aktivitet. Analys av NK-celler, av till exempelutsöndring av IFN-γ, är viktigt för att studera immunsvaret vid cancer och för attutveckla effektiva immunterapier. I detta examensarbete har en metod utvecklatsför att bestämma mängden IFN-γ som utsöndras av NK-celler när de är tillsammansmed cancerceller i djupa mikrobrunnar. Antikroppsbelagda mikrokulor användesför att fånga utsöndrat IFN-γ, som sedan fluorescensinmärktes och detekteradesgenom fluorescensmikroskopi. Distributionen av dessa kulor studerades i småmikrobrunnar för encellsanalyser och i stora mikrobrunnar för inbäddning av kulornai 3D-tumörsfäroider. En analytisk modell baserad på experimentella standardkurvorutvecklades för enkel kvantifiering av mängden bunden IFN-γ, med en påvisaddetektion ner till 2.10−18 mol per kula. Detektionen av IFN-γ utvärderades för primäraNK-celler stimulerade med PMA/ionomycin för olika inkubationstider. Sekretionenav IFN-γ från IL-2-aktiverade NK-celler vid stimulering med PMA/ionomycinuppskattades till 184 molekyler per sekund. IFN-γ-detektion utvärderades ocksåför analyser av cell-cytotoxicitet där NK-celler var placerade tillsammans medcancerceller i mikrobrunnar över tid. Båda analyserna visade en framgångsrikdetektering av utsöndrad IFN-γ, vilket visar potentialen hos den utvecklade metodenför immuncellsanalys.

Microbead

Inteferon gamma

Natural Killer cells

microwell

binding-reaction model

Mikrokula

Interferon gamma

Naturliga Mördarceller

Mikrobrunn

modell för bindningsreaktion

Physical Sciences

Fysik

IL-7-MEDIATED CD56BRIGHT NK CELL FUNCTION IS IMPAIRED IN HCV IN PRESENCE AND ABSENCE OF CONTROLLED HIV INFECTION, WHILE CD14BRIGHTCD16- MONOCYTES NEGATIVELY CORRELATE WITH CD4 MEMORY T CELLS AND HCV DECLINE DURING HCV-HIV CO-INFECTION

Judge, Chelsey J.

08 February 2017

No description available.

Immunology

Suszeptibilität parthenogenetischer Stammzellen und ihrer Derivate gegenüber zytotoxischen Effektormechanismen / Susceptibility of parthenogenetic stem cells and their derivates to cytotoxic effector mechanisms

Johannsen, Hannah

17 August 2017

No description available.

610

Parthenogenetische Stammzellen

Zytotoxische Effektormechanismen

Natürliche Killerzellen

Zytotoxische T-Zellen

parthenogenetic stem cells

natural killer cells

cytotoxic T lymphocytes

NK cell receptor ligands

Étude génétique et biologique de la différenciation et de la maturation des cellules NK

Guilbault, Lorie

06 1900

Les cellules Natural Killer (NK), un sous-type de lymphocytes, sont cruciales dans l’immunité innée de par leur cytotoxicité directe envers les tumeurs, les cellules infectées et les cellules stressées. Elles contribuent également à l’orchestration de la réponse immunitaire adaptative de par leur capacité à produire des cytokines immunorégulatrices. Pour développer ces fonctions effectrices, les cellules NK requièrent l’intégration d’une multitude de signaux. De là, les cellules NK matures (mNK) sont considérées comme appartenant à quatre sous-types conséquents et concordants avec la polarisation vers la prolifération, la production de cytokines ou les propriétés cytotoxiques. Dans certaines maladies auto-immunes, tel le diabète de type 1 (T1D), un bloc dans leur maturation, et conséquemment des défauts en nombre et en fonctions, peut être observé. Ainsi, afin de découvrir la régulation génétique derrière la proportion et la maturation des cellules NK, des études de liaison génétique ont été produites sur des souris F2 (B10.BR x NOD.H2k) et F2.Rag (B6.Rag1-/- x NOD.Rag1-/-), où le fond génétique NOD est un modèle de T1D. Ces analyses ont révélé des locus potentiellement impliqués dans la régulation de la proportion, des nombres absolus ainsi que dans la maturation fonctionnelle des cellules mNK. Les chromosomes 8, 9 et 17 ont été liés à la proportion des cellules mNK tandis que les chromosomes 2, 4, 7, 10, 11 et 18 ont été liés aux sous-types fonctionnels de ces mêmes cellules. De là, nous avons validé l’influence du locus du chromosome 9 sur la proportion des cellules mNK en générant des souris sous-congéniques avec des insertions de segment génétique B10.BR dans des souris de fond génétique NOD. La proportion et le nombre absolu de cellules mNK ont ensuite été analysés par cytométrie en flux et comparés à ceux de souris contrôles. Pour la maturation fonctionnelle, nous avons retenus certains gènes candidats, et régulateurs associés, liés à un ou plusieurs sous-types de mNK, dont Tbx21, Zeb2, c-Myb, Trp53 et Pmaip1. Par association de voies de signalisation, nous sommes également allés vérifier certaines protéines associées, dont Bim et Eomesodermin. Nous avons alors validé leur implication par l’utilisation de modèles murins knock-out, qPCR, essais de prolifération et d’apoptose. Enfin, nos résultats supportent un rôle pour le locus du chromosome 9 dans la régulation de la proportion de cellules mNK ainsi qu’un rôle pour Trp53, Bim et Pmaip1 dans la maturation fonctionnelle de celles-ci. Nos études révèlent donc de nouveaux gènes candidats potentiels dans la régulation des cellules NK, dont les mécanismes pourront être approfondis dans la perspective de développement de thérapies cellulaires et génétiques dans le combat contre les cancers et les infections chroniques. / Natural Killer (NK) cells, a subset of lymphocytes, are crucial in innate immunity due to their direct cytotoxicity towards tumors, viral infected cells and stressed cells. NK cells also contribute to the orchestration of the adaptive response by their ability to produce immunoregulatory cytokines. To develop those effector functions, NK cells require the integration of multiple signals. As of now, mature NK cells (mNK) can be separated into a four-stage model of functional maturation that concords with a polarization either toward proliferation and cytokine production or cytotoxic functional properties. In autoimmune diseases, like type 1 diabetes (T1D), a block in their maturation, and consequently an impaired functionality and diminished numbers, can be observed. Thus, in order to uncover the genetic regulation behind the proportion and functional maturation of NK cells, a linkage analysis was performed by our lab on F2 (B10.BR x NOD.H2k) and F2.Rag (B6.Rag1-/- x NOD.Rag1-/- intercross) mice, where the NOD genetic background is a model of T1D. This analysis revealed loci that were potentially involved in the regulation of mNK cells proportion, absolute numbers or functional maturation. Loci on chromosomes 8, 9 and 17 were linked to the proportion of mNK cells while loci on chromosomes 2, 4, 7, 10, 11 and 18 were linked to different subsets of functional mNK cells. Hence, we validated the influence of the chromosome 9 locus on the proportion of mNK cells by generating congenic sub-strains of mice with insertion of B10.BR genetic segments and NOD genetic background. The proportion and absolute numbers of mNK cells were assessed by flow cytometry and compared to those of wild-type mice. Regarding the functional maturation of mNK cells, we considered potential candidate genes, and their upstream regulators, that were linked to one or more mNK subsets, namely Tbx21, Zeb2, Myb, Trp53 and Pmaip1. From those, we also looked further their associated pathway with proteins such as Bim and Eomesodermin. We proceeded to the in vivo validation of their implication by qPCR, proliferation and apoptosis assays and the use of knock-out mice. Indeed, our results support a role for a locus on chromosome 9 in the regulation of mNK cells proportion and for Trp53, Bim and Pmaip1 in NK cell functional maturation. As such, our study has revealed new candidate genes in NK cell regulation. Further explorations of the mechanisms by which those genes act could lead to the development of cellular and genetic therapies for cancers and chronic infections.

Cellules Natural Killer

Immunogénétique

Études de liaison

Proportion cellulaire

Maturation fonctionnelle

Voie de différenciation

Natural Killer cells

Immunogenetics

Linkage analysis

Cellular proportion

Functional maturation

Differentiation pathway

Characterization of differential Toll-like receptor function in human immune cells and association with susceptibility to recurrent HSV-1 reactivations and gastric cancer

Yang, Chin-An

02 February 2011

Toll-like Rezeptoren (TLRs) sind essentielle angeborene Rezeptoren, die konservierte Strukturen von Krankheitserregern oder Gefahrsignale, die von beschädigten Zellen freigesetzt werden, erkennen können. Genetische Variationen in TLRs wie Einzel-Nukleotid-Polymorphismus (SNP) können die Funktion von TLRs beeinträchtigen und erste Studien zeigen, dass dies zu einer erhöhten Anfälligkeit gegenüber Virusinfektionen oder einem erhöhten Krebsrisiko führen kann. In dieser Studie haben wir einen Multicolor-Durchflußzytometrie-Test entwickelt, um die TLR-Funktionen in verschiedenen Subpopulationen unseparierter peripherer mononukleärer Blutzellen (PBMCs) simultan analysieren zu können. Wir konnten beobachten, dass das Ausmaß der TLR-Antworten zwischen den Probanden stark variierte, jedoch über einen Zeitraum von einem Monat gut reproduzierbar war. Zunächst untersuchten wir TLR Reaktionen bei Patienten mit rezidivierenden Herpes labilalis (HL). Im Vergleich zu asymptomatischen Personen war eine HL- Anamnese mit einer signifikant verminderten TLR3-IFN-Gamma-Antwort nach Stimulation mit poly(I:C) in NK Zellen assoziiert. Weitere molekulare Untersuchungen zeigten eine mögliche Beteiligung von TLR3 L412F SNP, welcher die oberflächliche TLR3 Expression und die IFN-Gamma-Antworten in NK-Zellen reduzierte. Einige Studien zeigen, dassTLR1 I602S, ein weiterer sehr verbreiteter SNP, in der Lage ist die TNF-Alpah-Antworten von Monozyten gegen den TLR2/1-Agonisten (Pam3Cys) zu verringern. In der hier vorliegenden Arbeit konnten wir zudem nachweisen, dass TLR1 I602S SNP auch die Funktion von NK-Zellen und CD8+ T-Zellen beeinträchtigt. Wir konnten keine Assoziation zwischen TLR2/1-Defizienz und reaktivierendem HL feststellen. Jedoch konnten wir an einer großen Kohorte von über 326 Patienten zeigen, dass der TLR1 SNP sowohl ein Risikofaktor für Magenkarzinomentstehung als auch für die Metastasierung ist. Zusammenfassend weisen unsere Ergebnisse darauf hin, dass genetische Polymorphismen von TLRs die Funktion von NK-Zellen beeinträchtigen und zu einer erhöhten Anfälligkeit für HSV-1 Erkrankung und Magenkarzinom führen können. / Toll-like Receptors (TLRs) are essential innate receptors which recognize conserved structures of pathogens, or danger signals released from damaged cells. Alterations of TLR responses might result in severe viral infections or a higher risk of cancer. Therefore, development of clinical assays to evaluate TLR functions could provide personalized information about susceptibility to these diseases. Since TLRs are differentially expressed on different subsets of human peripheral blood mononuclear cells (PBMCs), a multi-color flow cytometry-based assay was developed to detect TLR responses of individual cell types simultaneously. We observed that the magnitude of TLR responses largely varied between human subjects, but was highly reproducible over one month. To evaluate the potential role of differences in natural killer (NK) cell TLR response we studied the association of NK cell TLR function and TLR single nucleotide polymorphisms (SNPs) with susceptibility to recurrent herpes labialis (HL) and gastric cancer. Using our assay, impaired TLR3 response of NK cells was found in people with recurrent HL. In addition, we have identified enhanced levels of homozygous TLR3 L412F SNP in people with recurrent HL, which results in lower surface expression and reduced NK cell response to poly(I:C). TLR1 I602S, another common SNP, has been reported to decrease TNF-Alpha responses of monocytes toward TLR2/1 agonist, Pam3CSK4 (Pam3Cys), stimulation. In our study, we found that TLR1 I602S homozygosity also contributes to impaired IFN-Gamma responses of NK cells and CD8+T cells. Although we did not observe an association of TLR2/1 deficiency with recurrent HL, association of TLR1 I602S with risk for primary as well as metastatic gastric cancer was found in a cohort of 326 patients. To sum up, our results suggest that genetic polymorphisms of TLRs can impair TLR function of NK cells, which contribute to the increased susceptibility to HSV-1 diseases and gastric cancer.

Toll-like Rezeptoren

Magenkarzinom

NK-Zellen

Herpes Simplex Virus

Einzel-Nukleotid-Polymorphismus

Toll-like receptor

Natural killer cells

Herpes simplex virus

Gastric cancer

Single nucleotide polymorphism

570 Biowissenschaften, Biologie

32 Biologie

WF 9910

ddc:570

Tumorspezifische Targeting der humanen natürlichen Killerzellinie YT durch Gentransfer chimärer Immunglobulin-T-Zellrezeptoren

Schirrmann, Thomas

15 April 2005

Die spezifische adoptive Immuntherapie ist ein hoffnungsvoller Ansatz zur Behandlung von Tumoren. Die aufwendige individuelle Bereitstellung primärer Effektorlymphozyten könnte durch den Einsatz etablierter tumorantigenspezifischer Effektorzellinien vermieden werden. In dieser Arbeit wurde untersucht, ob sich ein Tumortargeting der humanen Natürlichen Killer-(NK)-Zellinie YT durch den Gentransfer chimärer Immunglobulin-T-Zellrezeptoren (cIgTCRs) erreichen läßt. Die cIgTCR-Konstrukte wurden aus single-chain-Fv-Fragmenten (scFv), dem IgG1-Fc-Teil und der CD3-Zeta-Signalkette erzeugt. Die scFv-Fragmente wurden aus den humanisierten Antikörpern BW431/26 und HuM195, die spezifisch für das karzinoembryonale Antigen (CEA) bzw. CD33 sind, konstruiert und zeigten als scFv-hFc-Fusionsproteine eine spezifische Bindung an Tumorzellen. Die YT-Zellen wurden mit den cIgTCR-Genkonstrukten über Elektroporation transfiziert und über immunologische Verfahren angereichert. In-vitro-Studien ergaben eine spezifische Lyse von CEA+ Kolonkarzinomzellinien durch die scBW431/26-hFcZeta+ YT-Zellen. Die Zytotoxizität korrelierte mit der Expression des cIgTCR-Antigens auf den Tumorzellen und wurde durch zirkulierendes CEA nicht gehemmt. Die scHuM195-hFcZeta+ YT-Zellen zeigten eine spezifische Lyse der CD33+ myeloischen Leukämiezellinie KG1. Die Bestrahlung wurde zur Wachstumsbegrenzung der YT-Zellen eingesetzt. Die spezifische Zytotoxizität der scBW431/26-hFcZeta+ YT-Zellen gegenüber CEA+ Tumorzellen war einen Tag nach Bestrahlung unverändert. Die Koinjektion von CEA+ Tumorzellen mit bestrahlten scBW431/26-hFcZeta+ YT-Zellen führte zu einer signifikanten Hemmung des Tumorwachstums in NOD/SCID-Mäusen. Die cIgTCR+ YT-Zellen zeigten in vitro eine geringe Sensibilität gegenüber allogenen Blutlymphozyten. Die Ergebnisse zeigen, daß die Zytotoxizität der NK-Zellinie YT tumorantigenspezifisch durch cIgTCR-Gentransfer erweitert wird und ein Potential zur Behandlung minimaler Tumorerkrankungen besteht. / The specific adoptive immunotherapy is a promising strategy for cancer treatment. The utilization of established tumor antigen specific effector cell lines could bypass the expendable individual preparation and often limited specificity of primary effector lymphocytes. This study investigated the tumor targeting of the human Natural Killer (NK) cell line YT by gene transfer of chimeric immunoglobulin T cell receptors (cIgTCRs). The cIgTCR constructs were generated of single chain antibody fragments (scFv), the IgG1 Fc part and the CD3 Zeta chain. The scFv fragments were constructed of the humanized antibodies BW431/26 and HuM195 with specificity for the carcinoembryonic antigen (CEA) and CD33, respectively, and showed as scFv-Fc fusion proteins a specific binding to tumor cells. YT cells were transfected with the cIgTCR gene constructs by electroporation and enriched by immunological cell separation. In vitro studies revealed a specific lysis of CEA+ colon carcinoma cell lines by scBW431/26-hFcZeta+ YT cells. The cytotoxicity correlated with the expression of the cIgTCR antigen on the tumor cells and was not inhibited in the presence of soluble CEA. The scHuM195-hFcZeta+ YT cells mediated a specific lysis of the CD33+ myeloic leukemia cell line KG1. The irradiation was used to limit the growth of the YT cell line. The specific cytotoxicity of the scBW431/26-hFcZeta+ YT cells against CEA+ tumor cells was unaltered one day after irradiation. The coinjection of CEA+ tumor cells and irradiated scBW431/26-hFcZeta+ YT cells led to a significant growth inhibition in NOD/SCID mice. The cIgTCR+ YT cells showed a low susceptibility to the cytotoxicity of allogeneic blood lymphocytes in vitro. The results demonstrated that the cytotoxicity of the human NK cell line YT can be specifically extended to tumor antigens by cIgTCR gene transfer. The employment of receptor gene modified YT cells could be a useful tool for the adoptive immunotherapy of minimal tumor diseases.

Gentransfer

Natürliche Killerzellen

chimäre Immunglobulin-T-Zellrezeptoren

adoptive Immuntherapie

Tumortargeting

Gene transfer

Natural Killer cells

chimeric immunoglobulin T cell receptors

adoptive immunotherapy

tumor targeting

570 Biowissenschaften, Biologie

32 Biologie

XH 2104

XH 3500

XD 3300

ddc:570

Perfil de células natural killer e dendríticas em casos de soroconversão espontânea e infecção crônica pelo vírus da Hepatite C / Profile of natural killer and dendritic cells in cases of spontaneous clearance and chronic infection with Hepatitis C virus

Malta, Fernanda de Mello

14 October 2013

INTRODUÇÃO: O fato do vírus da Hepatite C (HCV) estabelecer uma infecção crônica persistente, na maioria dos casos, mesmo sendo reconhecido e alvejado pelos sistemas imune inato e adaptativo sugere que o mesmo tenha desenvolvido estratégias eficazes para driblar a ação desses sistemas. O HCV interfere na fase inicial de ativação da resposta imune adaptativa alterando a função das células dendríticas (DCs), o que provavelmente leva a uma ativação deficiente das células natural killer (NKs) e de linfócitos T. Portanto, a realização de estudos sobre DCs e NKs na infecção pelo HCV se torna de fundamental importância para a compreensão da patogênese e persistência desta infecção. MÉTODOS: Foram selecionados indivíduos com resolução espontânea da infecção pelo HCV, indivíduos com infecção crônica e indivíduos saudáveis. A técnica de citometria de fluxo foi utilizada para a determinação da frequência e do fenótipo de células dendríticas e NKs nesses indivíduos. Além disso, foi avaliada a atividade citotóxica das células NKs sob estímulo de IL-12 e IL-18, e também da linhagem K-562. RESULTADOS: A frequência de DC mielóides (mDC) expressando CD86, nos indivíduos crônicos, foi elevada e uma correlação positiva com a carga viral foi observada. Na análise do ensaio funcional foi observado que as populações de células NKs CD7+ CD57+ apresentaram maior expressão da molécula CD107a e baixa produção de IFNy nos indivíduos com infecção crônica. A constante exposição das células imunes ao IFN-alfa, induzido durante a infecção pelo HCV, resulta na polarização do fenótipo citotóxico, caracterizado por células NK ativadas com elevado poder de degranulação, mas com deficiente produção de IFN-y. CONCLUSÕES: As frequências das células DCs e NKs eram semelhantes em todos os indivíduos. A expressão da molécula CD86 na superfície das mDCs pode ter sido induzida pela presença do HCV, uma vez que foi observada correlação positiva com a carga viral. Células NK citotóxicas, altamente diferenciadas e incapazes de produzir IFN-y foram as mais frequentes na infecção crônica pelo HCV. A baixa produção de IFN-y por parte dessas células é um dos fatores envolvidos na deficiente ativação de uma resposta imune adaptativa capaz de controlar a infecção pelo HCV / INTRODUCTION: Hepatitis C virus (HCV) develops a chronic persistent infection in most of the cases, even being recognized and targeted by the innate and adaptive immune systems, suggests that the virus have developed effective strategies to circumvent the action of these systems. HCV interferes in the initial activation of the adaptive immune response by altering the function of dendritic cells (DCs), which probably leads to a deficient activation of natural killer cells (NK) and T lymphocytes. Therefore, studies of DCs and NK in HCV infection are very important for understanding the pathogenesis and the persistence of this infection. METHODS: We selected subjects with spontaneous resolution of HCV infection, with chronic infection and healthy subjects. Flow Cytometry was used to determine the frequency and phenotype of dendritic cells and NK cells of these individuals. In addition, we evaluated the NK cell cytotoxic activity in response to stimulation of IL-12 and IL-18 and in co-cultivation with the cell line K-562. RESULTS: In individuals with chronic infection, the frequency of myeloid (m) DC cells expressing CD86 was elevated and a positive correlation between these cells and viral load was observed. It was observed in chronic infected individuals that NK cells co-expressing CD7 and CD57 showed higher expression of CD107a and low production of IFN gamma. The constant exposure of immune cells to IFN-alfa induced during HCV infection results in the polarization of cytotoxic phenotype characterized by activated NK cells with high power degranulation, but with impaired production of IFN-y. CONCLUSIONS: The frequency of DCs and NK cells were similar in all individuals. The expression of CD86 molecule on the surface of mDCs may have been induced by the presence of HCV, since a positive correlation was observed with viral load. Cytotoxic NK cells, highly differentiated and unable to produce IFN-y, were the most frequent in chronic HCV infection. The low production of IFN-y by these cells is one of the factors involved in the poor activation of an adaptive immune response able to control HCV infection

Antigen CD86

Antígeno CD86

Células dendríticas

Células natural killer

Chronic hepatitis C

Citometria de fluxo

Dendritic cells

Flow cytometry

Hepatite C crônica

Imunidade inata

Innate immunity

Interferon-gamma release tests

Natural killer cells

Testes de liberação de interferon-gama

Papel de células com função reguladora da resposta imune na endometriose. / Role of cells with regulatory function of the immune system in endometriosis.

Jank, Carina Calixto

30 May 2014

A endometriose (EDT) é caracterizada pela presença de tecido endometrial fora da cavidade uterina, e afeta mulheres em idade reprodutiva. Postulamos que alterações na frequência de células T reguladoras (Treg), natural killer (NK), supressoras mielóides (MDSC) e dendríticas (DC) no peritônio justificariam a redução da capacidade do sistema imune de reagir contra as células endometriais, permitindo sua implantação em locais ectópicos. Aqui, células Treg, NK, MDSC e DC foram quantificadas no fluido peritoneal (FP) e sangue de mulheres com EDT, a fim de associa-las ao desenvolvimento da doença; níveis de citocinas também foram avaliados. Na EDT, observou-se aumento na frequência de Treg, MDSC e DC no sangue e aparente redução destas no FP; ainda, a concentração de IL-12 foi menor no sangue comparadas ao grupo controle. Não foram observadas diferenças quanto às células NK e as outras citocinas analisadas. Os resultados indicam aumento da frequência de populações reguladoras em amostras de sangue de pacientes EDT, entretanto esses resultados não são refletidos no FP. / Endometriosis (EDT) is a gynecological disease characterized by the presence of endometrial cells out of the uterine cavity, which affects women in reproductive age. We postulated that alterations in the frequencies of regulatory T cells (Treg), natural killer cells (NK), myeloid-derived suppressor cells (MDSC) and dendritic cells (DC) in the peritoneum could justify the reduced capacity of the immune system to react to these ectopic endometrial cells, allowing them to invade distant tissues. Here, Treg, NK, MDSC and DC were quantified in the peritoneal fluid (PF) and peripheral blood (PB) of women with EDT, in order to associate them with the development of EDT; cytokine levels were also assessed. In EDT, higher frequencies of Treg, MDSC and DC in the PB and apparent lower frequencies of these cells in the PF were observed; IL-12 concentration was smaller in PB of EDT compared to control. No differences between groups were observed for NK cells and the other cytokines evaluated. The results indicate higher frequencies of regulatory cells in PB samples of EDT patients, although these findings were not reflected in PF samples.

Células natural killer

Células dendríticas

Células supressoras mieloides

Células T reguladoras

Dendritic cells

Endometriose

Endometriosis

Immune response

Myeloid-derived suppressor cells

Natural killer cells

Regulatory T cells

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