The Role of CD80 and CD86 In Macrophage Activation and its Regulation Following LPS Stimulation

Woldai, Seghen

January 2014

The binding of CD80/CD86 on the APC to CD28 on the T cell surface provides a second signal for T cell activation. While it was once believed that this interaction represented a one-way signal, resulting in T cell activation, recently, it has been investigated as a bidirectional signaling process. CD80/86 activation produces IL-6 in DCs, but its role in macrophage activation is unknown. Dysregulation of CD80/86 expression has been observed in autoimmune disorders and cancer, and may also influence the development of immune responses including production of cytokines in response to stimulation with TLR-4 ligand, LPS. Therefore, the focus of my project was twofold: 1) to investigate the role of CD80/86 as signaling receptors capable of transmitting extracellular signals, and 2) to determine the TLR-4 activated pathways that regulate CD80/86 expression in human monocyte-derived macrophages (MDMs). Since I demonstrated that activation of CD80/86 alone did not induce expression of the four cytokines investigated, I hypothesized that CD80/86 synergizes with other signaling pathways. I show for the first time that CD80/86 activation synergizes with TLR-4 signaling to produce IL-27 and IL-10 in human MDMs. Since cIAPs play a key role in TLR-4-mediated signaling, I investigated their role in TLR-4- and CD80/86-activated production of IL-10 and IL-27. Degradation of IAPs by SMAC mimetics inhibited LPS-induced IL-10 and IL-27 production in MDMs. However, it did not alter the TLR-4 and CD80/86 synergistic effect on IL-10 and IL-27 production suggesting that IAPs may not play a role in CD80/86 activation of macrophages. Since I have demonstrated this role for IAPs, I extended my studies by examining the involvement of IAPs and other upstream signaling molecules such as SHP-1, RIP1, TRAF2, in modulating the LPS-induced CD80/86 expression. I showed that cIAP2, SHP-1, RIP1, TRAF2 co-localize to form a complex that regulates the LPS-induced CD80 and CD86 expression through AKT-activated p38 MAPK in human macrophages. These findings may lead to the development of novel therapeutic interventions in the treatment of autoimmune diseases.

CD80

CD86

Macrophage

Activation

LPS

Stimulation

SHP

MAPK

PI3K

P38

A study of the mechanism by which CD86 regulates IgG1

Kin, Nicholas W.

27 March 2007

No description available.

Health Sciences, Immunology

B cell

CD86

cell signaling

costimulation

kinase

Cellular receptors for species B adenoviruses

Marttila, Marko

January 2007

Adenoviruses belong to the most common human pathogens. The severity of infection varies greatly, from subclinical to lethal, depending on the virus type and immune status of the infected host. The 51 known human adenovirus serotypes are divided into six species (A-F) based on characteristics such as tropism. Species B adenoviruses, which are the subjects of this thesis, are further divided into subspecies B:1 that contains Ad3, Ad7, Ad16, Ad21 and Ad50 and subspecies B:2 that contains Ad11, Ad14, Ad34 and Ad35. Species B adenoviruses primarily cause ocular and respiratory tract infections, but certain serotypes (Ad11, Ad34 and Ad35) are also associated with renal disease. The main aim of this thesis was to identify and characterize cellular receptors for species B adenoviruses. This will ultimately help to understand the diverse tropism shown by different adenoviruses and perhaps contribute to development of antivirals. Also, since adenoviruses are among the most commonly used vector for gene therapy it is of importance to characterize the initial steps of adenovirus life cycle. Members of species B adenoviruses have been shown to utilize both the complement regulating membrane cofactor protein (MCP), i.e. CD46, and a still unknown receptor. CD80 and CD86, usually found on antigen-presenting cells, have also been suggested as receptors We found first that Ad11 used CD46 as a cellular receptor on respiratory A549 cells, and subsequently that CD46 is a cellular receptor for all species B adenovirus serotypes, except for adenovirus types 3 and 7, using cells that represent the tropism of species B adenoviruses, i.e. respiratory, conjunctival and renal epithelial cells. We further compared the relative roles of CD46 with CD80 and CD86 using cells that represent species B adenovirus tropism. Using soluble candidate receptors and antibodies against corresponding receptors to challenge virus binding to and infection of cells, we found that on these cells, CD46 is a cellular receptor for all species B adenoviruses except Ad3 and Ad7, and that CD80 and CD86 do not play an important role. We have further pinpointed the interaction site for Ad11 on CD46 by X-ray crystallography. The extracellular region of CD46 contains four short consensus repeats (SCR1-4) of which the outermost N-terminal SCR1 and SCR2 mediate binding to Ad11. This interaction was confirmed by inhibiting infection and binding of Ad11 to A549 cells using soluble SCR1-2 fragments. Surprisingly the conformation of bound CD46 differs profoundly from its unbound state, with the bent surface structure straightened into an elongated rod. Viral proteins can sometimes undergo large conformational changes upon receptor binding, but this is, to the best of our knowledge, the first example of a virus protein dramatically changing the overall structure of its receptor. CD46 serves as a receptor for a large number of viral and bacterial pathogens and it is structurally and functionally related to other viral receptors such as CD21 and CD55. The mode of interaction presented here may serve as a conceptual framework for studies of many other receptors that are constructed from SCR domains.

Adenovirus

CD46

CD80

CD86

Species B

Receptor

Internalization

Infection

Tropism

Virology

Virologi

Major tea catechin inhibits dendritic cell maturation in response to microbial stimulation

Rogers, James L

01 June 2007

Dendritic cells (DCs) are a migratory group of bone-marrow-derived leukocytes specialized for uptake, transport, processing and presentation of antigens to T cells. Exposure of DCs to bacterial pathogens can induce DC maturation characterized by cytokine production, up-regulation of co-stimulatory molecules and an increased ability to activate T cells. DCs have the ability to restrict growth of L. pneumophila (Lp), an intracellular Gram-negative bacillus that causes a severe form of pneumonia known as Legionnaires' disease, in murine ER-derived organelles (121) but replicate in human DCs (145). Even in human cells, however, lysis of the DCs does not occur for at least 24 hours which may allow DCs time to participate in the transition from innate to adaptive immunity (145). The primary polyphenol in green tea extract is the catechin (-)-epigallocatechin-3-gallate (EGCG) which accounts for most of the numerous reported biological effects of green tea catechins, including anti-bacterial, anti-tumor, and neuroprotective effects. Primary murine bone marrow derived DCs from BALB/c mice were treated in vitro with Lp, or stimulated for comparison with Escherichia coli lipopolysaccharide (LPS). CD11c, considered an important marker of mouse DCs, and surface expression of co-stimulatory molecules CD40, CD80, CD86, as well as class I/ II MHC molecules was determined by flow cytometry. Treatment of the cells with EGCG inhibited the microbial antigen induced up-regulation of CD11c, CD40, CD80, CD86 and MHC I/ II molecules. EGCG also inhibited, in a dose dependent manner, induced production of the Th1 helper cell activating cytokine, IL-12, and the chemokines RANTES, MIP1a, and MCP-1. However, EGCG upregulated TNFa production. In addition, EGCG inhibited both Lp and LPS induced expression of both TLR2 and TLR4 as well as LPS-induced NF-kB activation; all of which are important mediators of DC maturation. The modulation of phenotype and function of DCs by EGCG has implications for host interaction with microbial pathogens like Lp, which involve TLR interaction.

Dendritic cells

EGCG

TNFa

Toll-like Receptors

MHC

CD86

CD40

IL-12

American Studies

Arts and Humanities

Rôle de l'ubiquitine ligase MARCH I dans l'induction de la tolérance des cellules dendritiques dans le diabète de type 1 (DT1) chez la souris NOD

Benabdallah, Ahmed

January 2012

Le diabète de type 1 (DT1) est une maladie auto-immune qui est caractérisée par la destruction des cellules R des îlots de pancréas. L'utilisation des modèles animaux comme la souris NOD a facilité la compréhension de la physiopathologie du DT1, car ces souris développent spontanément le diabète d'une façon similaire à l'homme. Les lymphocytes T auto-réactifs CD4 + et CD8+ jouent un rôle majeur dans le développement de cette maladie. Dans les conditions non pathologiques, les lymphocytes T auto-réactifs sont éliminés dans le thymus (tolérance centrale) ou maintenus en états d'anergie en périphérie (tolérance périphérique). En périphérie, les cellules dendritiques (CDs) de type tolérogènes induisent l'expansion et/ou la différenciation d'une population spécifique de lymphocyte T (Treg), qui contribue à la suppression de la prolifération et l'activation des lymphocytes T auto-réactifs. Certaines fonctions tolérogènes des CDs telle que la présentation d'antigènes est sous le contrôle de l'ubiquitine ligase MARCH I. MARCH I ubiquitine le CMH de classe II et les molécules de costimulation CD86 et prévient donc leurs expressions à la surface des cellules dendritiques, et ainsi l'inhibition de la stimulation de lymphocytes T. Le but de ce projet est: 1) de caractériser les niveaux d'expression de MARCH I dans les CDs tolérogènes générées en présence d'IL-10 en comparaison aux CDs immunogènes générées en absence d'IL-10, 2) de déterminer si la sur-expression de MARCH I chez CDs immunogènes de souris NOD rétablit leurs fonctions tolérogènes. Nos résultats montrent que les CDs de souris NOD générées en absence d'IL-10 expriment des niveaux très élevés de CMH de classe II et de molécules de costimulation (CD80 et CD86). Au contraire, les CDs générées en présence d'IL-10 résistent à la maturation, puisqu'une faible augmentation de l'expression du CMH II et des molécules de co-stimulation est observée suite à leur stimulation au LPS. Ces dernières produisent des quantités importantes d'IL-10 et des faibles quantités d'IL-12 et d'INF-y et expriment des niveaux très élèvés d'ARNm de MARCH I comparativement aux CDs générées en absence d'IL-10. Nous avons aussi montré que la transduction des CDs immunogènes par un lentivirus contenant le gène qui code pour MARCH I leur permet d'acquérir les propriétés des CDs tolérogènes. En effet, les CDs transduites par MARCH I expriment de faibles niveaux du CMH II, de CD80 et CD86 après stimulation au LPS. Nous avons aussi montré que les CDs transduites par le gène qui code pour MARCH I, dont la partie N-terminale 1 à 40 (? 1-40 ) ou 1 à 60 (?1-66 ) a été délétée, stabilisent l'expression de MARCH I tout en préservant leur capacité à diminuer l'expression du CMH de classe II et de CD86. Ainsi, ces conditions permettent d'obtenir des CDs tolérogènes qui pourront être utilisées comme thérapie cellulaire pour prévenir ou empêcher le développement du diabète chez la souris NOD. [Symboles non conformes]

Les molécules de costimulation CD86

CMH de classe II

MARCH I

Cellules dendritiques

Diabète de type 1

A Study of the Proximal CD86-induced Signaling Mechanism that Regulates IgG1 Production by a B Cell

Lucas, Christopher Roy

19 December 2012

No description available.

Immunology

CD86

prohibitin-1 (Phb1)

prohibitin-2 (Phb2)

IgG1

B cell

Signal Transduction

Charakterisierung der immunmodulierenden Wirkung eines Cysteinproteasen-Inhibitors der humanpathogenen Filarie Onchocerca volvulus

Schönemeyer, Annett

12 December 2000

Filarien persistieren bis zu 15 Jahren in ihren Wirten. Als eine Ursache dieser Persistenz diskutiert man die Fähigkeit der Filarien, die Immunantwort des Wirtes gezielt zu modulieren und eine zelluläre Hyporeaktivität zu induzieren. In der vorliegenden Arbeit wurde untersucht, ob ein sezernierter Cysteinproteasen-Inhibitor (Onchocystatin) der humanpathogenen Filarie Onchocerca volvulus immunmodulierende Eigenschaften besitzt und an der Herausbildung eines hyporeaktiven Immunstatus des Wirtes beteiligt ist. Für die Untersuchungen wurde Onchocystatin als full length Molekül (rOv17) und als verkürztes Molekül (trOv17) rekombinant hergestellt. Das verkürzte trOv17 besitzt aufgrund des Fehlens des N-terminalen Bereiches eine verminderte proteaseinhibitorische Aktivität. Die in vitro Studien mit den rekombinant hergestellten O. volvulus Cystatinen verdeutlichen, daß rOv17 und auch trOv17 potente Immunmodulatoren sind, die sowohl die antigenspezifische als auch die polyklonal-stimulierte Proliferation von humanen PBMC inhibieren. Die zelluläre Hyporeaktivität ist dabei auf die Modulation von Monozytenfunktionen zurückzuführen. rOv17 und trOv17 modulieren die Antigenpräsentation, die Zytokinproduktion und die Expression kostimulatorischer Signale von humanen Monozyten. So konnte gezeigt werden, daß rOv17 und trOv17 die Aktivität von humanem Cathepsin L und S inhibieren und die Expression von HLA-DR, CD40 und CD86 vermindern. Die Modulation der Zytokinproduktion durch rOv17 und trOv17 ist durch eine verstärkte TNF-alpha und IL-10 Produktion und durch eine verminderte IL-12 Produktion charakterisiert. Desweiteren konnte in Neutralisationsstudien mit anti-IL-10 Ak gezeigt werden, daß die verminderte Expression von HLA-DR, CD40 und CD86 Folge der durch rOv17 und trOv17 induzierten verstärkten IL-10 Produktion ist. Im Gegensatz dazu bleibt die verminderte IL-12 Produktion und die verminderte polyklonal-stimulierte Proliferation humaner PBMC auch nach der Neutralisation von IL-10 bestehen. Die Studien mit den rekombinant hergestellten O. volvulus Cystatinen zeigen, daß rOv17 und trOv17 ihr immunologisches Umfeld auf vielfältige Art und Weise modulieren. Dabei spielt vermutlich die Inhibition der Aktivität einer Wirtscysteinprotease, aber auch ein von der Funktion als Cysteinproteasen-Inhibitor unabhängiger Mechanismus eine Rolle. Der Cysteinproteasen-Inhibitor der Filarie O. volvulus besitzt somit die Eigenschaft, die Immunantwort des Wirtes zu modifizieren, und ist vermutlich eine wesentliche Komponente, die dem Parasiten eine lange Persistenz im Wirt ermöglicht. / Immune responses of individuals infected with filarial nematodes are characterized by a marked cellular hyporesponsiveness. The establishment of this hyporesponsiveness is considered as an important mechanism to avoid host immune responses which could eliminate the parasites. The present study is investigating the immunomodulatory potential of a 17 kD secreted cysteine protease inhibitor (onchocystatin) of the human pathogenic filaria Onchocerca volvulus. In vitro studies using recombinant onchocystatin (rOv17) identified this inhibitor as a potent immunomodulator. rOv17 suppresses the antigen-driven and the polyclonally-stimulated proliferation of human PBMC. This cellular hyporeactivity is due to the modulation of monocytic function by rOv17, comprising the modulation of antigenpresentation, the expression of costimulatory molecules and the production of cytokines. Thus rOv17 strongly inhibits the activity of human cathepsin L and S and reduces the expression of MHC class II molecules as well as the expression of CD40 and CD86 on human monocytes. The modulation of cytokine production by rOv17 is characterized by an initial increase of TNF-alpha which is followed by an increase of IL-10 and a decrease of IL-12. By neutralization studies it was shown that the suppression of MHC class II molecules and of CD86 and CD40 is mediated by the rOv17 induced increase of IL-10. In contrast cellular hyporeactivity and the reduced IL-12 production remain unaffected by neutralization of IL-10. In comparison to rOv17 a truncated onchocystatin (trOv17) with lowered protease inhibitory activity was investigated. Surprisingly even trOv17 is immunomodulatory active suggesting that immunomodulation by onchocystatin is mediated by both an inhibitor-dependent and an inhibitor-independent mechanism. These data demonstrate that onchocystatin is a potent immunomodulator of host immune responses and in consequence is an essential component that enables the parasites a long persistence within their hosts.

Filarien

Kostimulation

Parasiten

Onchocerca volvulus

Cysteinproteasen-Inhibitor

Cystatin

Onchocystatin Immunmodulation

Zytokine

IL-10

CD86

cysteine protease inhibitor

filariae

parasites

Onchocerca volvulus

cystatin

onchocystatin

immunomodulation

cytokines

IL-10

costimulation

CD86

570 Biowissenschaften, Biologie

32 Biologie

WP 7440

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

Uso de RNA de interferência (siRNA) para modulação da expressão das moléculas co-estimuladoras CD80 e CD86 em células dendríticas. / Use of small interfering RNA (SIRNA) for modulating the expression of costimulatory molecules CD80 and CD86 on dendritic cells.

Migliori, Isabella Katz

08 December 2010

As moléculas co-estimuladoras CD80 e CD86, expressas na superfície de células dendríticas (DCs), as principais células apresentadoras de antígenos profissionais (APCs), possuem participação fundamental na indução de resposta e manutenção de tolerância, motivo pelo qual são consideradas alvos terapêuticos promissores. Essas moléculas promovem o segundo sinal necessário à ativação e proliferação dos linfócitos T por meio da ligação ao receptor CD28, ou inibem a resposta por essas células por meio da ligação ao receptor CTLA-4, ambos expressos na superfície dos linfócitos. Muitos são os relatos da literatura indicando diferenças tanto quantitativas quanto qualitativas entre CD80 e CD86 na capacidade de ativação de linfócitos T, os mais relevantes apontando diferenças na capacidade de indução de diferenciação de linfócitos para os padrões Th1 e Th2 de secreção de citocinas. Porém, tais relatos são muitas vezes contraditórios, e o verdadeiro papel funcional dessas moléculas ainda está por ser estabelecido. Assim, propusemo-nos a estabelecer as metodologias necessárias para silenciar as moléculas CD80 e CD86 em células dendríticas (DCs) humanas, derivadas de monócitos do sangue periférico, por meio da tecnologia de RNA de interferência. Isso possibilitaria esclarecer o papel desempenhado por cada uma dessas moléculas na capacidade de ativação de linfócitos T. Para tanto, padronizou-se a transfecção reversa de DCs do quarto dia da cultura com siRNA fluorescente e os agentes de transfecção lipídicos siPORT e iMAX, tendo sido obtidas eficiências de transfecção de 64,7% ± 5,2 e 69,7% ± 14,5%, respectivamente. DCs do quarto dia de cultura foram transfectadas com siRNAs específicos para CD80, e o fenótipo avaliado após 48 horas da transfecção. Foi possível identificar, além do eficiente silenciamento de CD80 por dois dos três siRNAs testados, também uma diminuição, inesperada, de células CD86+. Para o silenciamento de CD86, células CD14+ selecionadas positivamente por beads magnéticas foram transfectadas com siRNAs específicos para CD86, ativadas após 24 horas da transfecção e o silenciamento avaliado após 24 horas da ativação. Embora o silenciamento conseguido por um dos dois siRNAs testados tenha sido muito pequeno, observou-se fenômeno equivalente, com diminuição de células CD80+. Embora inconclusivos, esses dados sugerem a possibilidade de modulação recíproca dessas moléculas. Assim, pudemos obter a transfecção eficiente de DCs com siRNAs de interesse e, através deles, modular a expressão de CD80 e CD86. Com estes instrumentos, portanto, podemos agora desenvolver estudos quanto ao papel de cada uma destas moléculas na fisiologia da apresentação antigênica pelas DCs. / The costimulatory molecules CD80 and CD86, expressed on surface of dendritic cells (DCs), are essential to trigger T cell activation and to maintain self tolerance, indicating that these molecules are promising therapeutic targets. They can either bind to CD28 on T cells, promoting T cell activation and leading to their proliferation and cytokine production, or to CTLA-4, which is expressed following T cell activation, and can inhibit T cell response. Though CD80 and CD86 are thought to provide equivalent T cell costimulation, a growing body of evidence suggests that there are different functional consequences of CD28 engagement by these two molecules. Many reports point to variations in their ability to stimulate different lymphocyte subsets. However, there is still controversy in the literature and the actual role of CD80 and CD86 remains to be elucidated. Therefore, the aim of this study was to establish the methodology necessary to silence, by small interfering RNAs (siRNAs), both CD80 and CD86 expression on monocyte-derived dendritic cells. These findings would be the base of studys that could better elucidate the function of these two coestimulatory molecules in T cell activation. Therefore, transfection of 4th day DCs with fluorescent siRNA and lipidic transfection agents siPORT and iMAX was established, an d transfection efficiency observed was 64,7% ± 5,2 e 69,7% ± 14,5%, respectively. 4th day DCs were transfected with specific CD80 siRNAs and phenotype was observed after 48 hours of transfection. Besides CD80 efficient silencing by two from three siRNAs tested, there was an unexpected decrease in CD86+ cells. To establish CD86 silencing, CD14+ cells were positively selected with magnetic beads and immediately transfected with CD86 specific siRNAs, activated after 24 hours of transfection, and phenotype was observed after 24 hours of activation. Despite the fact that silencing conferred by one of two siRNAs was very low, equivalent phenomenon was observed, with a decrease in CD80+ cells. Although the observed effects were inconclusive, these data suggests a possible reciprocal modulation by these two molecules. Therefore, we were able to obtain efficient DC transfection with siRNAs of interest, as well as modulate CD80 and CD86 expression. With these instruments we can now develop studies regarding the real physiological role of these two costimulatory molecules in DCs antigen presentation.

Adjuvantes imunológicos

Biologia celular

CD80

CD80

CD86

CD86

Cell biology

Células dendríticas

Costimulatory molecules

Dendritic cells

Immunological adjuvants

Imune modulation

Imuno-modulação

Moléculas co-estimuladoras

RNA de interferência

Small interfering RNA

Uso de RNA de interferência (siRNA) para modulação da expressão das moléculas co-estimuladoras CD80 e CD86 em células dendríticas. / Use of small interfering RNA (SIRNA) for modulating the expression of costimulatory molecules CD80 and CD86 on dendritic cells.

Isabella Katz Migliori

08 December 2010

As moléculas co-estimuladoras CD80 e CD86, expressas na superfície de células dendríticas (DCs), as principais células apresentadoras de antígenos profissionais (APCs), possuem participação fundamental na indução de resposta e manutenção de tolerância, motivo pelo qual são consideradas alvos terapêuticos promissores. Essas moléculas promovem o segundo sinal necessário à ativação e proliferação dos linfócitos T por meio da ligação ao receptor CD28, ou inibem a resposta por essas células por meio da ligação ao receptor CTLA-4, ambos expressos na superfície dos linfócitos. Muitos são os relatos da literatura indicando diferenças tanto quantitativas quanto qualitativas entre CD80 e CD86 na capacidade de ativação de linfócitos T, os mais relevantes apontando diferenças na capacidade de indução de diferenciação de linfócitos para os padrões Th1 e Th2 de secreção de citocinas. Porém, tais relatos são muitas vezes contraditórios, e o verdadeiro papel funcional dessas moléculas ainda está por ser estabelecido. Assim, propusemo-nos a estabelecer as metodologias necessárias para silenciar as moléculas CD80 e CD86 em células dendríticas (DCs) humanas, derivadas de monócitos do sangue periférico, por meio da tecnologia de RNA de interferência. Isso possibilitaria esclarecer o papel desempenhado por cada uma dessas moléculas na capacidade de ativação de linfócitos T. Para tanto, padronizou-se a transfecção reversa de DCs do quarto dia da cultura com siRNA fluorescente e os agentes de transfecção lipídicos siPORT e iMAX, tendo sido obtidas eficiências de transfecção de 64,7% ± 5,2 e 69,7% ± 14,5%, respectivamente. DCs do quarto dia de cultura foram transfectadas com siRNAs específicos para CD80, e o fenótipo avaliado após 48 horas da transfecção. Foi possível identificar, além do eficiente silenciamento de CD80 por dois dos três siRNAs testados, também uma diminuição, inesperada, de células CD86+. Para o silenciamento de CD86, células CD14+ selecionadas positivamente por beads magnéticas foram transfectadas com siRNAs específicos para CD86, ativadas após 24 horas da transfecção e o silenciamento avaliado após 24 horas da ativação. Embora o silenciamento conseguido por um dos dois siRNAs testados tenha sido muito pequeno, observou-se fenômeno equivalente, com diminuição de células CD80+. Embora inconclusivos, esses dados sugerem a possibilidade de modulação recíproca dessas moléculas. Assim, pudemos obter a transfecção eficiente de DCs com siRNAs de interesse e, através deles, modular a expressão de CD80 e CD86. Com estes instrumentos, portanto, podemos agora desenvolver estudos quanto ao papel de cada uma destas moléculas na fisiologia da apresentação antigênica pelas DCs. / The costimulatory molecules CD80 and CD86, expressed on surface of dendritic cells (DCs), are essential to trigger T cell activation and to maintain self tolerance, indicating that these molecules are promising therapeutic targets. They can either bind to CD28 on T cells, promoting T cell activation and leading to their proliferation and cytokine production, or to CTLA-4, which is expressed following T cell activation, and can inhibit T cell response. Though CD80 and CD86 are thought to provide equivalent T cell costimulation, a growing body of evidence suggests that there are different functional consequences of CD28 engagement by these two molecules. Many reports point to variations in their ability to stimulate different lymphocyte subsets. However, there is still controversy in the literature and the actual role of CD80 and CD86 remains to be elucidated. Therefore, the aim of this study was to establish the methodology necessary to silence, by small interfering RNAs (siRNAs), both CD80 and CD86 expression on monocyte-derived dendritic cells. These findings would be the base of studys that could better elucidate the function of these two coestimulatory molecules in T cell activation. Therefore, transfection of 4th day DCs with fluorescent siRNA and lipidic transfection agents siPORT and iMAX was established, an d transfection efficiency observed was 64,7% ± 5,2 e 69,7% ± 14,5%, respectively. 4th day DCs were transfected with specific CD80 siRNAs and phenotype was observed after 48 hours of transfection. Besides CD80 efficient silencing by two from three siRNAs tested, there was an unexpected decrease in CD86+ cells. To establish CD86 silencing, CD14+ cells were positively selected with magnetic beads and immediately transfected with CD86 specific siRNAs, activated after 24 hours of transfection, and phenotype was observed after 24 hours of activation. Despite the fact that silencing conferred by one of two siRNAs was very low, equivalent phenomenon was observed, with a decrease in CD80+ cells. Although the observed effects were inconclusive, these data suggests a possible reciprocal modulation by these two molecules. Therefore, we were able to obtain efficient DC transfection with siRNAs of interest, as well as modulate CD80 and CD86 expression. With these instruments we can now develop studies regarding the real physiological role of these two costimulatory molecules in DCs antigen presentation.

Adjuvantes imunológicos

Biologia celular

CD80

CD86

Células dendríticas

Imuno-modulação

Moléculas co-estimuladoras

RNA de interferência

CD80

CD86

Cell biology

Costimulatory molecules

Dendritic cells

Immunological adjuvants

Imune modulation

Small interfering RNA