Avaliação da ação da IL-17 em macrófagos peritoneais murinos

Martins, Lohane Suzart

25 July 2014

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(L.) amazonensis is one of the species that cause American tegumentary leishmaniasis. Resistance to Leishmania infection is associated with Th1 lymphocytes, which produce IFN-γ and activate macrophages and promote the death of the parasites. However, during the infection, other T cells subtypes can develop, such as the Th17 subtype, which produce IL-17. The role of IL-17 is known in inflammatory diseases and infections with extracellular pathogens, and its function is associated to the migration and activation of neutrophils. In Leishmania infection, it is not clear whether this cytokine would influence the activation of a phenotype that controls infection. Aim: To assess whether IL-17 interferes with activation of murine macrophages and with their Leishmania amazonensis leishmanicidal. Methods: Thyoglycolate-elicited peritoneal macrophages from BALB/c or C57BL/6 mice were primed with IL-17, IFN-γ or IL-4, activated or not with lipopolysaccharide (LPS) and infected with L. (L.) amazonensis promastigotes. Culture supernatants were harvested 48 h after the stimulus to assess nitric oxide (NO) and IL-12p40 production. The cells were used to determine the phagocytic, leishmanicidal and arginase activity. Results: Macrophages from BALB/c and C57BL/6 mice stimulated with IL-17 and LPS produced IL-10 and increased arginase activity. IL-17 was not able to induce NO production by these cells, but promoted a small increase in IL-12p40 secretion by C57BL/6 mice macrophages. IL-17 favored the proliferation of Leishmania in macrophages from BALB/c mice, but not in C57BL/6 mice. A synergism was observed between IL-17 and IL-4 that increased IL-10 production and arginase activity in macrophages from BALB/c mice. In macrophages from C57BL/6 mice, however, a synergism was observed between IL-17 and IFN-γ in the stimulation of NO production. Conclusion: These results suggest that IL-17 may participate in the activation of macrophages toward either phenotype depending on the mouse strain. The finding that IL-17 impairs the control of L. (L.) amazonensis in BALB/c mice was not observed in C57BL/6 mice. IL-10 production in macrophages stimulated with IL-17 suggests a regulatory role of this last cytokine. / A L. (L.) amazonensis é uma das espécies que causam a leishmaniose tegumentar americana. A resistência à infecção é associada à linfócitos Th1, os quais produzem IFN-γ que ativam macrófagos e promovem a morte do parasito. No entanto, durante a infecção, há o desenvolvimento de outros perfis de linfócitos, como o Th17, que produz IL-17. O papel da IL-17 é bem descrito em doenças inflamatórias e infecções por patógenos extracelulares, sendo que sua função está relacionada com a quimiotaxia e ativação de neutrófilos. Quanto à infecções por patógenos intracelulares, como a leishmânia, não está claro se esta citocina poderia agir interferindo no perfil dos macrófagos e, consequentemente, no controle da doença. Objetivo: avaliar se a IL-17 é capaz de influenciar na ativação dos macrófagos e nos mecanismos leishmanicidas de macrófagos murinos infectados com L. (L.) amazonensis. Métodos: macrófagos peritoneais de camundongos BALB/c e C57BL/6 foram estimulados com IFN-γ, IL-4 ou IL-17, ativados ou não com LPS e infectados com promastigotas de L. (L.) amazonensis. O sobrenadante foi utilizado para avaliar produção de NO, IL-12p40 e IL-10 e as células remanescentes usadas para avaliar a atividade de arginase, a atividade fagocítica e leishmanicida. Resultados: macrófagos de camundongos BALB/c e C57Bl/6 estimulados com IL-17 e LPS produziram IL-10 e aumentaram a atividade de arginase. A IL-17 não foi capaz de induzir a produção de NO pelos macrófagos, mas promoveu um pequeno aumento da produção de IL-12p40 em macrófagos de C57BL/6. A IL-17 favoreceu a proliferação da L. (L.) amazonensis em macrófagos de camundongos BALB/c, mas não nos de camundongos C57BL/6. Observou-se um sinergismo entre IL-17 e IL-4 na produção de IL-10 e a atividade de arginase em macrófagos de camundongos BALB/c. Em macrófagos de camundongos C57BL/6, por sua vez, foi observado sinergismo entre IL-17 e IFN-γ para a produção de NO. Conclusão: A IL-17 pode estar relacionada tanto com a ativação clássica de macrófago quanto com sua ativação alternativa. Porém, a morte da leishmânia é prejudicada em macrófagos de BALB/c estimulados com IL-17. A indução da produção de IL-10 em macrófagos estimulados com IL-17 sugere um potencial regulador desta última citocina.

IL-17

Macrófagos

Leishmania

IL-17

Macrophages

Leishmania

CIENCIAS BIOLOGICAS::PARASITOLOGIA

Papel de inflamassomas e vias lisossomais na morte celular e resposta imune induzidas pela flagelina. / Role of inflammasomes and lysosomal pathway in cell death and immunity induced by flagellin.

Silvia Lucena Lage

24 November 2015

A flagelina é um agonista natural do sensor TLR5 e do inflamassoma NAIP/NLRC4 que é responsável pela secreção de IL-1β e IL-18 e pela indução de morte celular necrótica, via ativação da caspase-1. Entretanto, nós observamos que a inserção da flagelina de B. subtilis no citosol celular por meio de vesículas lipídicas, induz um processo atípico de morte nos macrófagos peritoneais (PMs) deficientes em NLRC4, ASC e caspase-1/11. A morte dos PMs manteve seu resultado antimicrobiano, sendo acompanhada da liberação de IL-1α. A morte celular e a secreção das citocinas IL-1α e IL-1β, foi mediada por catepsinas lisossomais, sugerindo uma cooperação entre a via lisossomal e os inflamassomas nas respostas induzidas pela flagelina. Além disso, a flagelina de S. typhimurium foi capaz de induzir dano lisossomal e secreção de IL-1α e IL-1β mediada pelo eixo caspase-catepsinas, na ausência de carreadores, e estas citocinas tiveram um impacto na imunidade adaptativa induzida pela flagelina, no modelo de ativação de linfócitos T específicos por células dendríticas, in vitro. / Flagellin is a natural agonist of TLR5 and NAIP/NLRC4 inflammasome that is responsible for IL-1β and IL-18 secretion and for the induction of a necrotic cell death, both mediated by caspase-1. However, we observed that flagellin from B. subtilis inserted into lipid vesicles, induced an atypical cell death in peritoneal macrophages (PMs) in the absence of NLRC4, ASC and caspase-1/11. This inflammasome-independent cell death retained its antimicrobial outcome, being accompanied with IL-1α secretion. Importantly, cell death and caspase-1-dependent IL-1α and IL-1β secretion were regulated by lysosomal cathepsins, suggesting a cooperation between the inflammasome and lysosomal pathway in response to flagellin. We also observed that flagellin from S. typhimurium is able to induce lysosomal damage and IL-1α and IL-1β secretion by PMs in the absence of a carrier, through a caspase-catepsins-dependent manner, and that cytokines were important to the ability of flagellin in to induce adaptive immune response by antigen-specific T cells.

Adjuvantes

Flagelina

Inflamassomas

Lisossomas

Sinalização da IL-1

Adjuvancy

Flagellin

IL-1 signaling

Inflammasomes

Lysosomes

Etude des mécanismes de l’inflammation pulmonaire lors de l’exposition aux nanoparticules ou la fumée de cigarette : implication des voies de signalisations des récepteurs ST2 et NLRP6 / Mechanisms of nanoparticles or cigarette smoke induced inflammation : study of signalization pathway mediated by ST2 receptor and NLRP6

Fanny, Manoussa

25 November 2016

Les maladies pulmonaires, responsables de 3,1 millions de décès de part le monde représentent un problème majeur de santé publique. En particulier, la fibrose pulmonaire et la broncho-pneumopathie chronique obstructive (BPCO) conduisent à la perte de la fonction pulmonaire. Aucun traitement efficace n’a été identifié à ce jour pour lutter contre ces maladies, la seule alternative étant la transplantation. Au cours de ma thèse, j’ai exploré les mécanismes du développement de ces maladies en utilisant différents modèles chez la souris, soit par l’instillation de nanoparticules de métaux ou de bléomycine, conduisant à l’inflammation et/ou à la fibrose pulmonaire, soit par exposition à la fumée de cigarette provoquant une inflammation. Nous avons montré le rôle de la voie de signalisation IL-33/ST2 dans les réponses inflammatoires induites par les nanoparticules ou la bléomycine et identifié de nouveaux mécanismes de régulation de l’IL-33 au sein des macrophages, différents de ceux décrits pour les cellules épithéliales. Nos résultats indiquent que l’expression intracellulaire de l’IL-33 et de son récepteur ST2, joue un rôle important dans l’inflammation, ainsi que la translocation nucléaire de l’IL-33. D’autre part, mes travaux de thèse ont permis d’identifier le rôle clef du senseur intracytosolique NLRP6 dans l’inflammation provoquée par l’exposition à la fumée de cigarette. Nos résultats indiquent que NLRP6, aux fonctions pulmonaires inexplorées, contrôle l’activation des cellules épithéliales et le recrutement des neutrophiles de façon indépendante de la formation d’un inflammasome mais dépendante de la signalisation par les récepteurs des interférons de type I et III. / Pulmonary diseases are a major health problem with 3.1 million deaths in the worldwide. Among them pulmonary fibrosis and chronic obstructive pulmonary disease (COPD), which occur after repeated lung epithelium injury, are characterized by impaired lung functions. To date, no effective therapy against pulmonary fibrosis and COPD were developed, lung transplantation being the only alternative. During my thesis, I studied the mechanisms leading to disease development using different experimental models in mice in particular by metal dioxide nanoparticles or bleomycin instillation leading to inflammation and/or pulmonary fibrosis, or by cigarette smoke exposure promoting pulmonary inflammation which may lead to emphysema. We show the crucial role of IL-33/ST2 signaling pathway in response to nanoparticles or bleomycine and identify new mechanisms for IL-33 regulation in macrophages which are different from those described in epithelial cells. Our results indicate that intracellular expression of IL-33 and of its receptor ST2, together with nuclear IL-33 translocation, play an important role in inflammatory response to nanoparticles instillation. On the other hand, my thesis work allowed identifying that the cytosolic sensor NLRP6 as a key player in pulmonary inflammation developed upon mouse cigarette smoke exposure. Interestingly, our results show that the receptor NLRP6, whose pulmonary functions are still unexplored, controls epithelial cells activation leading to neutrophils recruitment in the airways, in an inflammasome-independent manner but dependently of type I and III interferon receptors signaling.

Fibrose pulmonaire

BPCO

IL-33

ST2

NLRP6

Pulmonary fibrosis

COPD

IL-33

ST2

NLRP6

616.24

Influence des cytokines immunitaires sur la mégacaryocytopoïèse et l'homéostasie des plaquettes sanguines : rôle de l'interleukine 21 / Effect of immune cytokines on megakaryocytopoiesis and platelet homeostasis : role of interleukin 21

Benbarche, Salima

21 September 2015

La mégacaryocytopoïèse est le processus de différenciation des cellules souches hématopoïétiques en mégacaryocytes produisant les plaquettes sanguines. Des données de transcriptome indiquent la présence des récepteurs aux interleukines (IL) -10, -17A et -21 sur les mégacaryocytes. Mon travail montre que les IL-10 et -17 n’ont pas d’effet apparent sur la prolifération et la différenciation in vitro des mégacaryocytes à partir des progéniteurs hématopoïétiques humains CD34+. Cependant, l’IL-21 augmente la prolifération des progéniteurs mégacaryocytaires dérivés de ces cellules et sans modifier leur différenciation. Les mégacaryocytes de la moelle osseuse humaine expriment aussi le récepteur à l’IL-21, ce qui suggère un rôle direct de l’IL-21 sur la mégacaryocytopoïèse in vivo. De façon concordante, l’expression de l’IL-21 chez la souris stimule la mégacaryocytopoïèse ainsi que la production des plaquettes, mais augmente la clairance des plaquettes par les macrophages. Ces travaux suggèrent que durant les réponses immunitaires, l’expression de l’IL-21 par les lymphocytes T CD4+ activés module l’homéostasie des plaquettes sanguines. / Megakaryocytopoiesis is the process by which hematopoietic stem cells give rise to megakaryocytes which in turn produce blood platelets. Transcriptional studies indicate the presence of interleukin (IL) -10, -17 and -21 receptors on megakaryocytes. This work shows that IL-10 and -17 have no apparent effect on in vitro proliferation and differentiation of megakaryocytes derived from human CD34+ hematopoietic progenitors. However, IL-21 increases the proliferation of megakaryocyte progenitors derived from these CD34+ cells without modifying their differentiation. Moreover, human bone marrow megakaryocytes express IL-21 receptor, suggesting a direct role of IL-21 on megakaryocytopoiesis in vivo. Concordantly, IL-21 expression in mice stimulates megakaryocytopoiesis and platelet production, but increases platelet clearance by macrophages. This work suggest that during immune responses, the expression of IL-21 by activated CD4+ T lymphocytes modulate blood platelet homeostasis.

Mégacaryocytopoïèse

Plaquettes

IL-21

Lymphocytes

Megakaryocytopoiesis

Platelets

IL-21

Lymphocytes

573.1

Cattle feedlot dust: Solubility in lung simulant fluid and stimulation of cytokine release from lung epithelial cells

Dhakal, Mermagya

January 1900

Master of Public Health / Department of Diagnostic Medicine/Pathobiology / John A. Pickrell / Beef cattle feed lots produce significant, local point source pollution of the atmosphere. The dusts generated in the CAFOs are complex mixture of fine and ultra fine particles, organic compounds, transition metals, and adsorbed toxic gases. Since each component is toxic in itself, we do not fully understand the relative importance of each component in the dust and their interactions to inducing inflammatory changes in the lung. We did extensive literature searches to understand the mechanism of dust toxicity in respiratory system. This lead to focusing on solubility of dust in lung simulant fluid, and in-vitro study of release of two common biomarkers of inflammatory processes IL-6 and IL-8 from lung epithelial cells. Various concentrations (1 to 50%) of the dust extract induced release of IL-6, and IL-8 from lung epithelial cell as indicators of pro-inflammatory changes (IL-6), and amplification and maintenance of inflammation (IL-8). IL-6 release had dose dependence; peak production was seen with 25% dust extract. IL-8 production went down as the concentration of the dust extract increased from 1% to 25%. However, 50% dust extract was cytotoxic to the cell leading to 10-15% cell viability. At non-cytotoxic concentrations for lung epithelial cells, production of IL-8 was reduced. These findings suggested that higher exposure concentration were required to initiate inflammation as indicated by IL-6 release. Lower exposure concentrations (1 and 5% extracts) were related to optimal release of IL-8 needed to amplify and maintain the inflammatory response. Inhibition of endotoxin didn't significantly change the pattern of IL-6 or IL-8 release from epithelial cells. This finding suggested that at least a portion of the mechanism by which particle induced cytokine release from the lung epithelial cells was not endotoxin dependent. Heating samples at 1200C for 5 minutes modified some of the toxic properties of the dust extracts but didn't completely detoxify it. We observed that longer incubation period was required to peak release for both IL-6 and IL-8. However, the higher concentration of sample (50% extract) found to be cytotoxic in non-heat treated sample was no longer cytotoxic and induced both IL-6 and IL-8 release from the lung epithelial cells. This result suggested that heat treatment could reduce some of the dust extract's cytotoxic properties. However, the extract's potential to induce peak cytokine release increased.

Dust particles

IL-8

TNF-alpha

Cattle feedlots

IL-6

Health Sciences, Public Health (0573)

Etude du développement lymphoïde T à partir des progéniteurs hématopoïétiques CD34+ chez les patients infectés par le VIH-1 et traités par une thérapie antirétrovirale / Study of T cell differentiation of circulating CD34+ hematopoietic progenitors during HIV infection

Menkova, Inna

15 January 2016

Malgré leur efficacité pour réduire la réplication du VIH, les traitements antirétroviraux ne s’accompagnent pas systématiquement de la restauration du compartiment des lymphocytes T CD4+ périphériques. L’espérance et la qualité de vie des individus en échec immunologique sont grandement impactées. Concomitante avec les anomalies périphériques, une atteinte des progéniteurs hématopoïétiques rend compte des fréquentes cytopénies observées au cours des stades tardifs de l’infection. Si l’infection directe des progéniteurs CD34+ reste marginale, les études qualitatives menées in vitro évoquent la perturbation du potentiel de différenciation de ces cellules.Nous avons sélectionné et apparié les patients infectés par le VIH à chaque extrême quand au profil de leur restauration immunitaire et un groupe de donneurs non infectés. Les répondeurs (IR) et non répondeurs immunologiques (INR) traités depuis plus de 8 ans présentaient les caractéristiques similaires pour chaque paramètre pouvant impacter la magnitude de la reconstitution du système immunitaire. Les INR montraient l’activation chronique du système immunitaire, l’inflammation persistante et les signes de l’atteinte de la thymopoïèse. La fréquence des progéniteurs hématopoïétiques circulants n’étant pas différente entre les deux groupes de patients, nous avons analysé le potentiel de ces cellules aux stades pré-thymiques de la différenciation.En utilisant un système de co-culture des progéniteurs hématopoïétiques avec une lignée stromale OP9-DL1 (différenciation T) ou MS5 (différenciation B et NK) avec un cocktail cytokinique approprié, nous avons mis en évidence l’altération du potentiel de différenciation T des cellules issues de patients INR impactant leur restauration périphérique. Ce n’était pas le cas chez les patients IR qui étaient similaires aux donneurs non-VIH. En revanche, le potentiel NK était impacté chez tous les patients infectés en comparaison aux donneurs. Finalement aucune anomalie de potentiel B n’était révélée.En étudiant les voies moléculaires de l’engagement des précurseurs T (Notch), de leur prolifération (IL-7/IL7R) et leur survie (Fas/FasL, TNFR, caspase-1, P2X7) nous avons constaté une diminution de la viabilité des progéniteurs hématopoïétiques chez les patients VIH+ qui présentaient d’avantage d’activation de la caspase-1 qui orchestrait la mort cellulaire par pyroptose. De plus, l’expression de certains gènes-cibles de Notch était clairement Notch-indépendante. Néanmoins, les différences dans le profil transcriptionnel de BCL11B entre les patients IR et INR nous ont permis de proposer un modèle selon lequel la différenciation T était promue chez les patients IR au dépit de celle des précurseurs NK. Enfin, les progéniteurs CD34+ de patients INR présentait la surexpression du P2X7 (récepteur à l’ATP extracellulaire) et l’absence de l’ectonucléotidase CD73 (hydrolyse de l’ATP) ce qui suggérait leur susceptibilité accrue aux nucléotides extracellulaires.L’ensemble de données nous permet de postuler qu’il existe un microenvironnement hautement inflammatoire dans la niche médullaire des progéniteurs hématopoïétiques chez les patients VIH+ qui perturbe leur survie et différenciation. Cette mortalité accrue des cellules CD34+ et probablement des cellules voisines amplifie l’inflammation locale. Ce processus est compensé chez certains patients par la meilleure différenciation T des progéniteurs CD34+ et la réponse immunologique qui s’en suit. Quand ce n’est pas le cas l’atteinte de la lymphopoïèse est importante et l’absence de la reconstitution de la population des lymphocytes T CD4+ périphériques est observée. Ainsi, nous pensons avoir identifié une population de patients infectés par le VIH pour qui les interventions ponctuelles avec les médicaments anti-inflammatoires (par exemple, les antagonistes du P2X7) peuvent s’avérer d’un bénéfice clinique irréfutable. / Despite the efficient reduction of the HIV replication, the administration of combination antiretroviral therapy (c-ART) is not systematically accompanied by the restoration of the peripheral T CD4+ lymphocyte compartment. The life expectancy and quality are severely impacted in individuals with immunological failure. Together with peripheral abnormalities, an alteration of CD34+ hematopoietic progenitor may explain the frequency of the cytopenia observed in the latest stages of the disease. While a direct infection of CD34+ progenitors is thought to be extremely rare, quantitative studies performed in vitro have highlighted the impairment of the differentiation potential of these cells.We selected and matched individuals infected with HIV presenting extremely opposite immunological profile in response to c-ART as well as non-infected donors. The Immune Responders (IR) and Immune Non Responders (INR) treated since more than 8 years, presented similar characteristics for each parameter known to be involved in poor reconstitution of immune system. INR patients showed chronic immune activation, persistent inflammation and thymic regeneration failure. The frequency of circulating CD34 hematopoietic progenitors being not different between both groups of patients, we analyzed the differentiation potential of these cells at pre-thymic stages of lymphopoiesis.Using a co-culture system of hematopoietic progenitors with stromal cell lines OP9-DL1 (T-cell assay) or MS5 (B- and NK-cells assay) with appropriate cytokines, we highlighted an alteration of T-cell differentiation potential in INRs impacting their peripheral restoration. This was not observed in IRs who were similar to non-HIV donors. On the other hand, NK-cell differentiation potential was impaired in both groups of patients in comparison to non-HIV donors. Lastly, no abnormalities in B-cell potential were revealed.Studying molecular pathways involved in T-cell specification (Notch), proliferation (IL-7/IL7R) and survival (Fas/FasL, TNFR, caspase-1, P2X7) we observed the decreased viability of hematopoietic progenitors in HIV patients with increased caspase-1 activation involved in cellular death by pyroptosis. Moreover, expression of some Notch target genes was clearly Notch-independent. However, differences in transcriptional profile of BCL11B between IRs and INRs allowed us to postulate that T-cell differentiation is promoted over NK-cell differentiation in IR patients. Finally, CD34+ cells from INRs presented P2X7 overexpression (extracellular ATP receptor) and absence of CD73 ectonucleotidase (ATP hydrolysis) pointing out their increased susceptibility to extracellular nucleotides.Taken together our data, we postulate that highly inflammatory microenvironment of hematopoietic progenitor’s bone marrow niche disturbs their survival and differentiation in HIV patients. Thus, increased cellular death of CD34+ cells and probably neighboring cells amplifies the local inflammation. This is compensated in some patients by enhanced T-cell differentiation of CD34+ progenitors and results in immunological success. When it is not the case, the alteration of lymphopoiesis is important and the absence of reconstitution of peripheral T CD4+ lymphocyte compartment is noted. We believe have identified the population of HIV-infected individuals who will benefit from occasional administration of anti-inflammatory drugs (such as P2X7 antagonists).

Vih

Cd34+

Il-7

Immunothérapie

Hiv

Cd34+

Il-7

Immunotherapy

610

IL-17/Th17 au cours de l'inflammation chronique : ciblage des interactions cellulaires / IL-17/Th17 during chronic inflammation : targeting of cellular interactions

Noack, Mélissa

22 September 2016

Lors de l'inflammation chronique, les cellules immunitaires, dont les lymphocytes Th17 (LTh17), migrent au niveau du site inflammatoire et interagissent avec les cellules mésenchymateuses locales. Dans deux contextes inflammatoires, la polyarthrite rhumatoïde (PR) et le psoriasis (Pso), le but de ce travail a été d'étudier le rôle de ces interactions cellulaires sur la production de cytokines pro-inflammatoires, et principalement l'IL-17, et d'identifier les mécanismes impliqués.L'utilisation d'un système de co-culture entre cellules mésenchymateuses (synoviocytes PR ou fibroblastes de peau Pso) et cellules mononuclées du sang périphérique mimant la situation in vivo, a permis d'étudier l'effet de ces interactions. Le contact cellulaire suffisait à l'induction de la sécrétion d'IL-6, d'IL-8 ou d'IL-1ß. En revanche, la forte sécrétion d'IL-17 nécessitait le contact cellulaire mais également l'activation du TCR. L'inhibition de la podoplanine (pdpn), molécule d'interaction exprimée par différents types cellulaires (cellules mésenchymateuses mais également LTh17), diminuait significativement la production d'IL-17. Toutefois, cette inhibition n'était pas totale, c'est pourquoi une étude en collaboration est en cours afin d'identifier d'autres molécules impliquées.Cette étude a donc montré que les interactions entre cellules mésenchymateuses et cellules immunitaires jouent un rôle majeur dans la sécrétion de cytokines pro-inflammatoires, notamment dans la forte production d'IL-17. La podoplanine semble largement impliquée dans ce mécanisme, ce qui en fait une cible thérapeutique potentielle pour bloquer l'activité Th17 lors de l'inflammation chronique / During chronic inflammation, immune cells, including Th17 lymphocytes, migrate to the inflammatory site and interact with the local mesenchymal cells. In two inflammatory contexts, rheumatoid arthritis (RA) and psoriasis (Pso), the aim of this work was to study the effect of cellular interactions on pro-inflammatory cytokine production, with a focus on IL-17, and to identify the involved mechanisms. Using a co-culture system between mesenchymal cells (RA synoviocytes or Pso skin fibroblasts) and peripheral blood mononuclear cells mimicking the in vivo situation, allowed studying the effect of these cell interactions. The cell contact alone was sufficient to induce IL-6, IL-8 and IL-1ß secretion. On the contrary, the heightened IL-17 production required the cell contact and the TCR activation. The inhibition of the podoplanin (pdpn), interaction molecule expressed by different cell types (including mesenchymal cells but also Th17 lymphocytes), decreased significantly the IL-17 production. Nevertheless, this inhibition was only partial, which leads to a collaboration in order to identify other involved molecules. In conclusion, this study showed that cell interactions between mesenchymal cells and immune cells play a major role in the pro-inflammatory cytokine production, leading to a heightened IL-17 secretion. The podoplanin molecule seems play a crucial role in this mechanism, and thus pdpn could be a potential therapeutic target to block Th17 cell activity during chronic inflammation

IL-17

Inflammation chronique

Interactions cellulaires

IL-17

Chronic inflammation

Cellular interactions

571.96

Caractérisation fonctionnelle et phénotypique de lymphocytes B transitionnels CD24hi CD38hi associés à un phénotype régulateur chez des patients transplantés rénaux traités par Belatacept / Functional and phenotypic characterization of CD24hi CD38hi human transitional B cells associated with an immunoregulatory phenotype in renal transplant recipients treated with Belatacept

Bigot, Jérémy

10 November 2016

A l’instar des lymphocytes T régulateurs, l’étude de populations lymphocytaires B au potentiel immunosuppresseur a émergé ces dernières années. La capacité immunosuppressive des lymphocytes B régulateurs CD24hi CD38hi passant notamment par leur capacité à exprimer l’IL-10 a été mise en évidence dans plusieurs pathologies notamment chez les patients atteints de maladies auto-immunes. En transplantation rénale, le rôle de ces cellules dans la tolérance du greffon a également été suggéré. Néanmoins, la caractérisation de ces cellules semble très controversée et complexe. En effet à ce jour, il n’a été mis en évidence aucun marqueur spécifique permettant d’identifier clairement cette population régulatrice chez l’homme. L’analyse transcriptomique de ces cellules issues de donneurs sains nous a permis de mettre en évidence de nouveaux marqueurs qui leur sont associés tels que CD9, CD10, CD5, ICOS-L (inducible T cell co-stimulator ligand), GARP (glycoprotein-A repetitions predominant protein) et CD1b. Nous avons pu montrer que la présence de ces marqueurs était corrélée à l’expression d’IL-10 et que l’expression de CD1b sur les cellules CD24hi CD38hi était associée à une augmentation de la capacité suppressive de ces cellules. La présence de ces cellules CD1b+ a également été retrouvée en plus forte proportion chez les patients traités par belatacept identifiés comme présentant un meilleur pronostic clinique du greffon. Des résultats préliminaires suggèrent également que d’autres mécanismes peuvent être impliqués dans la fonction immunorégulatrice des LB CD24hi CD38hi comme la sécrétion de cytokines régulatrices telles que l’IL-35. L’identification de ces molécules permet d’améliorer la caractérisation et la compréhension des mécanismes immunorégulateurs de ces cellules et pourrait être d’une grande aide pour le monitoring immunologique de la réponse humorale en transplantation. / Like for regulatory T cells, many studies on B cells immunoregulatory functions have emerged in the past few years. The immunosuppressive capacity of CD24hiCD38hi regulatory B cells known for their ability to produce IL-10 has been demonstrated in several pathologies, in particular in autoimmune diseases. In kidney transplant, the role of these cells in graft tolerance has also been suggested. So far, accurate phenotypic and functional analyses of these Breg are still lacking. Transcriptomic miccroarray analysis of CD24hiCD38hi B cells from healthy donors led us to identify new phenotypic markers as CD9, CD10, CD5, ICOS-L (inducible T cell co-stimulator ligand), GARP (glycoprotein-A repetitions predominant protein) and CD1b. We showed a link between this markers and IL-10 expression and we demonstrated that a CD1b marker on CD24hiCD38hi B cells was associated with an increase of regulatory properties. Breg CD24hiCD38hiCD1b+ was also found in higher frequencies in kidney transplant recipients treated with belatacept. Finally, preliminary results also suggest that other regulatory mechanisms may be involved in immunoregulatory function of CD24hiCD38hi B cells, especially through immunoregulatory cytokines such as IL-35. The identification of these molecules can improve characterization and understanding of immune-regulatory mechanisms of these cells and could be helpful in humoral response immuno-monitoring in transplantation.

Lymphocyte B regulateur

Il-10

Tolerance

Transplantation

Regulatory B cells

Il-10

Tolerance

Transplantation

610

Antiapoptotic Proteins in Human Macrophage Survival, Differentiation, Innate Immunity and Protection from HIV-induced Apoptosis

Busca, Aurelia

January 2013

Macrophages represent long lived immune cells that are remarkably resistant to apoptosis, which allows them to perform in highly stressful environments. Apoptosis resistance is a characteristic that develops during the differentiation process from monocytes to macrophages. However, the signaling pathways that mediate the development of macrophage antiapoptotic phenotype during differentiation remain mostly unknown. Because of their decreased susceptibility to cell death, macrophages are also key viral reservoirs during HIV infection. My research aims to understand the molecular mechanisms and signaling pathways that mediate cell survival during and after monocyte to macrophage differentiation and the involvement of the main families of antiapoptotic proteins, IAPs (inhibitors of apoptosis) and Bcl2 in this process. HIV accessory protein Vpr was used as an apoptotic stimulus, due to its death inducing abilities in other cell types. My results show that survival of macrophages is distinctively regulated during and after differentiation. I have identified a signaling pathway consisting of PI3K/Akt activation of NFκB that is important in survival of differentiating macrophages by specifically sustaining antiapoptotic Bcl-xL expression. However, once differentiated, Mcl-1, but not Bcl-xL is dependent on PI3K/Akt activation. Moreover, differentiated macrophages are resistant to the effect of HIV-Vpr, which is highly apoptotic for monocytes. In contrast, resistance to HIV-Vpr induced apoptosis of human macrophages is specifically mediated by antiapoptotic IAP proteins, with no involvement of the Bcl2 family, which maintains macrophage viability in the absence of any apoptotic stimuli. In addition to their antiapoptotic properties, IAPs are also important regulators of macrophage function. By using chemical compounds (SMAC mimetics) that target IAPs for degradation, I have shown that IAPs positively modulate LPS-induced IL10, IL-27 and MIG (monokine induced by IFNγ) production in human macrophages, by promoting TRAF2, JNK and p38 signaling and NFκB activation. In addition, IAPs also contribute to LPS-induction of CD80/CD86 costimulatory molecules. Overall, my results suggest that both IAPs and Bcl2 families contribute to survival of human macrophages and that IAPs are also involved in innate immune responses. Unraveling the mechanisms that control macrophage survival and function in various settings would provide therapeutic strategies aimed at eliminating cells when their survival is no longer beneficial for the host, as in the case of HIV infection or autoimmune diseases.

apoptosis resistance

apoptosis

macrophages

HIV

HIV Vpr

IAPs

Bcl2

TLR signaling

IL-10

IL-27

MIG

SHP-1/ Src Complex is a Master Regulator of the IL-12/IL-23 pro- and IL-10/IL-27 Anti-inflammatory Axis in TLR4-activated Signaling Pathways in Human Monocytes and Macrophages

Konarski, Yulia

January 2013

Although the etiology surrounding many autoimmune diseases remains unknown, the underlying characteristic of many of these diseases is a disruption in the balance of pro- and anti- inflammatory cytokines It is well established that the dysregulation of the IL-12 family of cytokines, an increase in IL-12/IL-23 and a decrease in IL-27 production has been implicated in these conditions. We used ELISA, RT-PCR, Immunofluorescence and Western immunoblotting in conjunction with pharmalogical inhibitors and siRNA to demonstrate the role of SHP-1/Src in the regulation of IL-12, IL-23, IL-27 and IL-10 in LPS-stimulated human THP-1 cells, monocytes and MDMs. My results show for the first time that Src kinase activity relies on SHP-1 activity, and together this complex functions in TLR4-mediated MyD88 and TRIF pathways. Furthermore Src exhibits a dual role as a positive regulator for anti-inflammatory IL-10/IL-27 and as a negative regulator of pro-inflammatory IL-12/IL-23 downstream of TLR4. Moreover, the involvement of PI3K and JNK MAPK, dependent on SHP-1/Src complex, in the regulation of IL-12 family and IL-10 downstream of TLR4 was shown.

Immunology

SHP-1

Src

IL-12 family

IL-10

Autoimmune Diseases