Importance of TGF-beta Signaling in Dendritic Cells to Maintain Immune Tolerance

Ramalingam, Rajalakshmy

January 2012

TGFβ is an immunoregulatory cytokine that has a pivotal function in maintenance of immune tolerance via the control of lymphocyte proliferation, differentiation and survival. Defects in TGFβ1 expression or in its signaling in T cells correlate with the onset of several autoimmune diseases. However, the early effects of this cytokine on the innate immune system, particularly the dendritic cells (DCs) which play an equally important role in development of immune tolerance, are not well documented in vivo. In the current study, we developed conditional knockout mice with targeted deletion of Tgfbr2 specifically in dendritic cells. DC-Tgfbr2 KO mice developed spontaneous multi-organ autoimmune inflammation with T and B cell activation. Phenotypic analysis of dendritic cells revealed no significant differences in the expression of MHCII and co-stimulatory molecules between control and DC-Tgfbr2 KO mice. However, we found that DCs from DC-Tgfbr2 KO mice were more pro-inflammatory, which exacerbated the severity of disease in a T cell transfer model of colitis. Furthermore, increased IFNγ expression by Tgfbr2-deficient DCs inhibited antigen-specific regulatory T cells (Tregs) differentiation by DCs in the presence of TGFβ. Since DCs play an important role in Treg homeostasis in vivo, we also examined the phenotype of Tregs and observed a significant increase in the frequency and numbers of Foxp3⁺ T cells in both the spleen and MLNs of DC- Tgfbr2 KO mice. Further analysis of these Tregs revealed attenuated expression of Foxp3 and an expansion in the numbers of CD4⁺CD25⁻Foxp3⁺T cells suggesting that the Tregs from KO mice may not be fully immunosuppressive. Adoptive transfer of in vitro differentiated iTregs into 2-3 week old DC-Tgfbr2 KO mice partially rescued the autoimmune phenotype by reducing the frequency of activated T cells and severity of colitis but did not prevent inflammation in other organs. The phenotype of this novel mouse model clearly indicates the importance of TGFβ signaling in DCs in the maintenance of immune homeostasis and prevention of autoimmunity and provides an opportunity to study the pathogenesis of complex disorders such as autoimmune gastritis, pancreatitis, hepatitis and inflammatory bowel diseases.

Inflammation

Regulatory T cells

TGF-beta

Tolerance

Immunobiology

Autoimmunity

Dendritic cells

Determining the role of follicular dendritic cells in TSE agent neuroinvasion

McCulloch, Laura

January 2011

Transmissible spongiform encephalopathies (TSEs), such as scrapie and variant Creutzfeldt-Jakob disease are infectious, fatal, neurodegenerative diseases. Following peripheral infection TSE agents usually accumulate in lymhoid tissues before spreading to the central nervous system. In mice, follicular dendritic cells (FDCs) expressing the host prion protein (PrPC) are essential for scrapie agent accumulation in lymphoid tissues. The accumulation of the scrapie agent on FDCs is critical for the efficient spread of infection to the brain. However, it is unknown whether FDCs themselves actively replicate the scrapie agent, or simply accumulate it following production by other cells types such as neurones, lymphocytes or other stromal cell populations. To definitively address this issue a transgenic mouse model was created in which PrPC is switched on or off exclusively on FDCs. Expression of cre-recombinase (Cre) under the action of cell-specific gene promoters can be used to induce or delete the expression of a target gene in specific cell populations. In this model, Cre expression is driven by the complement receptor type 2 gene (Cr2/CD21) which is expressed by FDCs and mature B lymphocytes. Characterisation of the CD21-cre mouse line was achieved by crossing with a ROSA26 reporter strain. The CD21-cre mouse line was subsequently crossed with floxed-PrP mouse lines to produce compound transgenic mouse lines in which PrPC expression was switched on or off, only in FDCs. Cre expression by B lymphocytes was eliminated by γ-irradiation and grafting recipient mice with Cre-deficient bone marrow. Immunohistochemical analysis confirmed the expression PrPC had been switched on or off exclusively on FDCs. Subsequently, the mice were challenged with scrapie by intra-peritoneal injection to determine the precise role of FDCs in the accumulation of scrapie in lymphoid tissues. Switching off PrPC expression exclusively on FDCs prevented the accumulation of TSE agent specific disease-associated PrPSc in the spleen after i.p inoculation. Conversely, in mice in which PrPC was expressed only on FDC, successful replication of the agent occurred on the FDC network in the spleen. Taken together, these data show PrPC-expressing FDCs alone are sufficient to support the accumulation of the scrapie agent within lymphoid tissues. Furthermore, these data suggest FDC replicate the TSE agent and do not simply accumulate it following synthesis by other cell types.

616.8

Determining the role of mononuclear phagocyte cell subsets in scrapie transmission from the skin

Wathne, Gwennaëlle C. L. J. J.

January 2012

Transmissible spongiform encephalopathies (TSEs), or prion diseases, are fatal neurodegenerative diseases that affect several species, such as scrapie in sheep or goats and CJD in humans. In several species, neurological disease is preceded by TSE agent accumulation in lymphoid tissues prior to neuroinvasion. While oral transmission is considered the most common route for scrapie, transmission can also occur through lesions to the skin or mucosa, for example in the mouth or gastrointestinal tract due to rough feed, or birth associated skin damage. Scrapie has also been experimentally transmitted through skin scarification in mice. Following scrapie infection via skin scarification, PrPSc accumulates in the draining lymph node (LN) before spreading to other organs in the lymphoreticular system. It is not yet known by what means the scrapie agent is transported from the skin to the draining LN. Dendritic cells (DCs) in the skin have been found to transport viruses, such as HIV or Dengue, from the skin, thereby raising the question whether DCs or Langerhans cells (LCs), located within the epidermis, play a role in the uptake and transport of the TSE agent from the skin to the draining LN. CD11c is a cell surface marker traditionally used to identify or isolate DCs from other cell types. Mice and rats are naturally resistant to Diphtheria toxin (DTX). A transgenic mouse line was created where the Diphtheria toxin receptor (DTR) was expressed on CD11c+ cells. The presence of this receptor on CD11c+ cells allowed for the temporary conditional depletion of CD11c+ cells following a single injection of DTX. The cells repopulate the tissues within a time frame specific to the tissues the cells are located in. These mice were used to determine whether the absence of CD11c+ cells at the time of scrapie infection via the skin had an effect on the early accumulation of PrPSc within the lymphoid tissues and on disease progression. Immunohistochemical analysis demonstrated that early PrPSc accumulation in the draining LNs was delayed following depletion of CD11c+ cells, indicating that their potential role in the transport of the scrapie agent from the skin. Scrapie incubation period was not affected by the absence of the CD11c+ cells at the time of infection. Recent findings show that CD11c is not exclusive to DCs and is also expressed on macrophage populations. Following DTX-mediated depletion, DCs repopulate the tissues much faster than CD11c+ macrophages. Scrapie infection was carried out in the skin in DTX treated mice after DCs had repopulated the tissues but before macrophage numbers had returned, to determine whether macrophages rather than DCs played a role in the early accumulation of PrPSc in the draining LNs. No differences in PrPSc accumulation were observed in mice depleted of macrophages compared to controls and there was no effect on disease incubation period. Another transgenic mouse line was used, where DTX expression on langerin+ cells (LCs and langerin+ DCs in the dermis), allowed for their temporary depletion through DTX treatment. Following langerin+ cell depletion, increased PrPSc accumulation was observed in the draining LNs 7 weeks post infection, but did not affect the incubation period of disease. These results indicate that the absence of LCs somehow accelerated PrPSc accumulation, and that LCs might play a preventative role in early stages after infection. Histopathological analysis was used to complement microarray studies aimed to determine what immune responses were associated with scarification and DTXmediated depletion of cells within the skin and whether these responses might be linked to disease transmission. DCs and LCs in the skin appear to play different roles in the early stages following scrapie infection via the skin, but the lack of effect on incubation period does not rule out the involvement of other cell types or cell-free mechanisms of scrapie agent spread from the skin.

636.089

Rôle des cellules présentatrices d'antigènes spléniques dans l'activation des lymphocytes T Natural Killer invariants / Role of splenic antigen-presenting cells in invariant Natural Killer T lymphocytes

Bialecki, Emilie

22 October 2010

La zone marginale de la rate apparaît comme un lieu stratégique de détection des antigènes et agents pathogènes véhiculés par le sang. Ces propriétés sont principalement liées à la présence de cellules appartenant au système immunitaire inné parmi lesquelles se trouvent des nombreuses cellules présentatrices d’antigènes (APC), comme les macrophages, les lymphocytes B de la zone marginale (MZB) ou encore les cellules dendritiques (DC). Ces cellules représentent une première ligne de défense contre les pathogènes véhiculés par le sang et sont importantes pour l’initiation des réponses immunes. Il a fortement était suggéré la localisation dans la zone marginale d’une autre population appartenant au système immunitaire inné : les lymphocytes T Natural Killer invariants ou iNKT. Ces lymphocytes T non conventionnels sont caractérisés par l’expression de marqueurs de cellules NK et de lymphocytes T conventionnels notamment le TCR. Contrairement aux lymphocytes T conventionnels, les iNKT reconnaissent des antigènes (Ag) lipidiques (d’origine exogène ou endogène) présentés par l’intermédiaire de la molécule CD1d exprimée à la surface des APC, notamment les DC. En réponse à ces lipides, et notamment l’α-galactosylceramide (α-GalCer), les cellules iNKT ont la capacité unique de sécréter rapidement de grandes quantités de cytokines immunomodulatrices comme l’IFN-γ et/ou l’IL-4 qui, en retour, permettent l’activation d’autres populations immunes telles que les DC, les cellules NK, les lymphocytes B et lymphocytes T conventionnels. Les DC, en tant qu’APC professionnelles, sont de puissantes cellules activatrices des lymphocytes T conventionnels mais également des iNKT. Cependant, bien que souvent souligné dans la littérature, le rôle des autres APC dans l’activation des lymphocytes T conventionnels mais surtout des iNKT restait relativement obscur lorsque ce travail de thèse a débuté. Parmi les APC, les MZB représentaient des cibles idéales puisqu’elles ont la particularité d’exprimer fortement les molécules de présentation telle que les molécules du CMH de classe II, la molécule CD1d mais aussi les molécules de co-stimulation. Nous avons donc débuté notre travail par l’étude du rôle des MZB dans l’activation des lymphocytes conventionnels et des iNKT. Nous montrons que les MZB sensibilisés avec un peptide de l’ovalbumine sont capables d’activer les lymphocytes T CD4+, dont la réponse est orientée vers un profil Th1 après l’activation des MZB par le CpG-ODN (agoniste du TLR-9). Ainsi, les MZB se comportent comme de véritables APC. Nous avons ensuite étudié l’activation des iNKT en réponse à lα’-GalCer. De façon surprenante, bien que les MZB expriment fortement la molécule CD1d, elles sont incapables d’activer in vitro les iNKT primaires en réponse l’α-GalCer libre. Elles sont cependant capables de présenter l’α-GalCer aux iNKT suggérant qu’il manque aux MZB des facteurs (solubles ou non) pour induire l’activation des iNKT. De façon intéressante, l’ajout de DC non sensibilisées restaure la production d’IFN-γ et d’IL-4 par les iNKT co-cultivés en présence de MZB sensibilisés avec l’α-GalCer. Nous montrons que les DC participent à cette activation via un mécanisme de présentation croisée mais également via l’apport de facteurs nécessaires aux MZB pour induire l’activation des iNKT. Il existe une réelle coopération entre ces deux types d’APC pour une activation optimale des iNKT. Finalement, nous montrons que les MZB sensibilisés avec l’α-GalCer induisent l’activation des lymphocytes iNKT et NK in vivo. Nous nous sommes ensuite concentrés sur les DC qui comme indiqué ci-dessus, sont des APC professionnelles. Cependant, dans la rate, les DC représentent une population très hétérogène dont le rôle de chaque sous-population notamment dans l’activation des iNKT était également très peu connu lorsque ce travail a débuté. / The spleen, with its highly specialized lymphoid compartments, plays a central role in clearing blood-borne pathogens. Innate immune cells, that are mainly present in the marginal zone of the spleen, are strategically located to respond to blood-borne microorganisms and viruses. Among innate cells, macrophages and marginal zone B (MZB) cells represent the first line of defense against blood-borne pathogens and with dendritic cells (DC) are important for initiation of the immune response. Along with these populations of antigen-presenting cells (APC), it was also suggested that invariant Natural Killer T (iNKT), a population of innate-like T lymphocytes, were also located in the marginal zone of the spleen. Unlike conventional T lymphocytes, iNKT cells recognize exogenous and self (glyco)lipid antigens (Ag) presented by the non-classical class I Ag presenting molecule CD1d expressed on APC, in particular DC. Upon lipid recognition, in particular in response to the non-mammalian glycolipid, α-galactosylceramide (α-GalCer), iNKT cells have the unique capacity to rapidly produce large amounts of immunoregulatory cytokines, including IFN-γ and IL-4, which lead to downstream activation of other immune populations (DC, NK cells, B cells and conventional T cells). Through this property, iNKT cells influence the strength and quality of the ensuing immune response. Dendritic cells, as professional APC, are potent activators of conventional T lymphocytes and iNKT cells. When we started our PhD, the role of APC other than DC in the priming of T lymphocytes including iNKT cells remained unclear. Among them, MZB cells represented good candidates since they express high levels of MHC class II and CD1d molecules and their ability to activate and orientate conventional and innate-like T lymphocytes, such as iNKT cells, were elusive. We show that MZB cells, when loaded OVA peptide promote the release of IFN-γ and IL-4 by antigen specific CD4+ T lymphocytes and their stimulation with CpG-ODN biases them toward more Th1 inducers. Surprisingly, although able to activate iNKT hybridomas, MZB cells sensitized with free α-GalCer do not directly activate ex vivo sorted iNKT cells unless DC are added to the culture system. Dendritic cells help MZB cells to promote iNKT cell activation in part through α-GalCer cross-presentation and also through DC-expressed co-factors. Interestingly, MZB cells amplify the DC-mediated activation of iNKT cells and depletion of MZB cells from total splenocytes strongly reduces iNKT cell activation in response to α-GalCer. Thus, DC and MZB cells provide help to each other to optimize iNKT cell stimulation. Finally, in vivo transfer of α-GalCer-loaded MZB cells potently activates iNKT and NK cells. Thus, we show for the first time a role of MZB cell in iNKT cell activation in response to free α-GalCer, an important finding to better understand the modalities of iNKT cell activation. As mentioned above, DC are professional APC and thus are strong activators of conventional and unconventional T lymphocytes. However, DC in the spleen represent an heterogeneous cell population and when we started our study, the role of DC subsets in T lymphocyte priming was still unclear. Among DC subsets, we concentrated on the major splenic DC subset located in the marginal zone, the CD8α- DC. This DC subset was further subdivided in CD4+ and CD4- subtypes. We provide evidences that CD4+ and CD4- DC are equally efficient at priming CD4+ T lymphocytes when loaded with OVA peptide and whole OVA, leading to a mixed Th1/Th2 response, and also CD8+ T lymphocytes when pulsed with OVA peptide (but not whole OVA).

Alpha-GalCer

Mzb

Cellules dendritiques

Invariant Natural Killer T (iNKT)

Marginal zone B

Dendritic cells

Influence of peptidoglycan metabolism on immunomodulatory properties of Lactobacillus casei / Influence du métabolisme du peptidoglycane sur les propriétés immunomodulatrices de Lactobacillus casei

Regulski, Krzysztof

27 November 2012

Le peptidoglycane (PG) est le composant majeur de la paroi des bactéries à Gram positif. Il assure la forme et l’intégrité de la cellule bactérienne. Le PG ou des fragments dérivés sont connus pour être des inducteurs du système d’immunité innée de l’hôte, en particulier au travers des récepteurs Nod2. Au cours de ce travail, nous avons étudié l’influence du métabolisme du PG sur les propriétés immunomodulatrices de Lactobacillus casei BL23, en étudiant principalement sa capacité à moduler la réponse des cellules dendritiques humaines. Nous avons tout d’abord caractérisé les hydrolases du PG (PGHs) majeures de L. casei BL23. Une recherche in silico a révélé que L. casei possède un système de PGHs relativement complexe comprenant treize enzymes putatives avec des domaines catalytiques variés. Une analyse protéomique d’extraits de paroi de L. casei BL23 a permis de détecter la production de sept d’entre elles pendant la croissance bactérienne. Quatre d’entre elles ont été étudié plus en détails. La PGH la plus fortement exprimée, Lc-p75, a une activité de -D-glutamyl-L-lysyl-endopeptidase et est responsable de la séparation des cellules après division. De plus, Lc-p75 associée à la paroi est localisée au niveau des septa cellulaires. Il s’agit également de l’une des protéines majeures secrétée dans le surnageant de culture de L. casei BL23. Lc-p75 possède la particularité d’être une glycoprotéine. La PGH Lc-p40 possède un domaine CHAP doué d’une activité endopeptidase avec un site de clivage situé au niveau des ponts interpeptidiques du PG. Lc-p40 parait localisée au niveau de la paroi latérale des cellules de L. casei. Lc-p45 est une deuxième -D-glutamyl-L-lysyl-endopeptidase avec un rôle dans le maintien de la forme de la bactérie. Enfin nous avons caractérisé deux enzymes de prophages, Lc-Lys et Lc-Lys2, codée par le génome de L. casei BL23, qui possède toute deux un domaine de liaison au PG d’un nouveau type qui possède la particularité de lier spécifiquement le D-Asp amidé présent dans les ponts interpeptidiques du PG de L. casei BL23. La délétion des deux gènes qui codent pour les endopeptidases Lc-p75 et Lc-p45 chez L. casei BL23 conduit à l’absence de disaccharide dipeptide dans la structure du PG du mutant, tandis que la délétion de Lc-p75 seulement conduit à une réduction de la quantité du disaccharide-dipeptide. Ce disaccharide dipeptide est un ligand des récepteurs Nod2. Les deux mutants obtenus par délétion de Lc-p75 ou bien par délétion des deux endopeptidases ont été comparés avec la souche sauvage BL23 pour leur capacité à activer in vitro des cellules dendritiques humaines dérivées de monocytes sanguins. Suite à l’activation des cellules dendritiques par les souches de L. casei, quatre cytokines pro-inflammatoires, les interleukines IL-6, IL-8, IL-12 et le TNF- ont été produites. La quantité de chaque cytokine sécrétée en réponse aux mutants simple Lc-p75 et double Lc-p75/Lc-p45 était diminuée par rapport à celle induite par la souche sauvage L. casei BL23.En conclusion, L. casei BL23 est doté d’un équipement complexe en PGHs. Les PGHs caractérisées au cours de ce travail présentent des caractéristiques uniques et jouent un rôle important dans la division des bactéries ainsi que dans le maintien de leur morphologie. Nos résultats indiquent que la souche sauvage de L. casei Bl23 et les mutants dérivés obtenus par inactivation d’enzymes à activité endopeptidase, qui diffèrent à la fois au niveau de leur contenu enzymatique ainsi qu’au niveau de la structure de leur PG, ont des effets différents sur les cellules dendritiques humaines, avec un caractère anti-inflammatoire plus élevé pour les mutants / Peptidoglycan (PG) is the major component of the Gram-positive bacteria cell wall. It ensures bacterial cell shape and integrity. PG or PG-derived fragments have been shown to stimulate the host innate immune system, through Nod-2 receptors. In this work, we studied the influence of PG metabolism on immunomodulatory properties of Lactobacillus casei BL23, mainly its ability to modulate the response of human dendritic cells (DCs).We have first characterized the main peptidoglycan hydrolases (PGHs) of L. casei BL23. In silico search revealed that L. casei BL23 has a rather complex PGH complement including thirteen predicted PGHs with various catalytic domains. Proteomic analysis of bacterial cell wall extracts revealed the expression of seven of them during bacterial growth. We characterized four of them in details. Lc-p75 is the major PGH with a γ-D-glutamyl-L-lysyl-endopeptidase specificity and is responsible for daughter cell separation. Lc-p75 associated to the cell wall localizes at the cell septa. It is also one of the major secreted proteins of L. casei found in culture supernatant. Besides, we showed that L. casei Lc-p75 is a glycosylated protein. Lc-p40 is a PGH with a CHAP-domain endowed with endopeptidase hydrolytic specificity toward peptidoglycan cross-bridges and appears to localize on lateral cell wall. Lc-p45 is a second γ-D-glutamyl-L-lysyl endopeptidase with a role in cell shape maintenance. We further demonstrated that two prophage endolysins Lc-Lys and Lc-Lys2, encoded in L. casei BL23 genome, share a common novel type peptidoglycan-binding domain that recognizes specifically D-Asn cross-bridge, present in L. casei BL23 peptidoglycan.Deletion of the two endopeptidases, Lc-75 and Lc-p45, resulted in a complete loss ofdisaccharide-dipeptide, which is a ligand of Nod-2 receptor, in the muropeptide structure of L. casei BL23, whereas deletion of Lc-p75 gene led only to a reduction of disaccharide dipeptide. The two PGH-mutants, obtained by deletion of Lc-p75 gene alone or both Lc-p75 and Lc-p45 endopeptidase genes were compared with wild type L. casei BL23 for their capacity to stimulate signaling pathways in vitro in DCs derived from human monocytes. As a consequence of DC activation by L. casei strains, four pro-inflammatory cytokines IL-6, IL-8, IL-12 and TNF-α were produced. The concentrations of secreted cytokines in response to the single Lc-p75 and Lc-p75/p45 double mutant were lower than those induced by wild type L. casei BL23.In conclusion, L. casei BL23 has a complex PGH complement. The PGHs described in this work present unique features and play important role in cell division and morphology of L. casei. Our results indicate that wild type L. casei and endopeptidase-negative mutants, which differ in their PGH content and in their PG structure, have distinct effects on human DCs, with a higher anti-inflammatory character of the endopeptidase-negative mutants.

Probiotic

Peptidoglycane

Autolysines

Lactobacilles

, cellules dendritic

Probiotic

Peptidoglycan

Autolysins

Lactobacilli

Dendritic cells

Vliv extrémní fyzické zátěže na zastoupení subpopulací dendritických buněk v periferní krvi u vrcholových sportovců / The effect of extreme physical exertion on the percentage of dendritic cell subpopulations in professional athletes as correlated with change in adrenaline levels

Fischerová, Barbara

January 2009

The main goal of this tesis is to describe changes in representation of various subpopulations dendritic cells (myelogenic and plasmocytoigenic) in peripheral blood after intense physical stress and to review their activation status. Early count changes and changes of function of basic elements of cellular immunity after a sport load was described, whereas a behaviour of circulating dendritic cells hasn't been studied yet. The amount and the stage of differentation of dendritic cells was specified by analysis of blood samples taken before and after the load. According to the result of the tesis the reaction to extreme physical load had two effects. The amount of dendritic cells was increased, whilst the expression of kostimulative molecules (their activation) was decreased. Described changes support an opinion, that physical load initates reaction to a danger of body damage. Powered by TCPDF (www.tcpdf.org)

Functional characterization of plasmacytoid dendritic cells in human breast tumors and identification of their migratory capacities during inflammation / Caractérisation fonctionelle des cellules dendritiques plasmacytoïdes infiltrant les tumeurs mammaires et identification de leurs proprietées migratoires dans les conditions inflammatoires

Sisirak, Vanja

22 March 2010

Les cellules dendritiques sont les principales cellules présentatrices d’antigènes, qui initient et modulent les réponses immunitaires. Parmi elles, les cellules dendritiques plasmacytoïdes (pDC) représentent les cellules effectrices clés de la réponse antivirale par leur production de fortes quantités d’interférons de type I (IFN). Leur infiltration dans les tumeurs mammaires est un facteur de mauvais pronostique, indiquant que l’environnement tumoral détourne la fonction des pDC pour qu’elles favorisent la croissance tumorale. Dans ce contexte, nous avons démontré que les pDC infiltrant les tumeurs (TiPDC) mammaires conservent leur capacité d’acquérir un phénotype mature en réponse aux ligands des TLR 7 et 9 et d’activer la prolifération des lymphocytes T naïfs, alors qu’elles sont fortement altérées pour leur production d’IFN de type I. Cette altération fonctionnelle est induite par le TGF-β et le TNFα produits par l’environnement tumoral. La phosphorylation de SMAD dans les TipDC in situ confirme le rôle de la signalisation du TGF-β dans la dysfonction des pDC. Ces observations i) démontrent les mécanismes par lesquels les tumeurs mammaires inhibent la fonction des pDC et ii) fournissent de nouvelles pistes thérapeutiques visant à bloquer les facteurs tumoraux responsables de l’altération fonctionnelle des pDC. Outre leur capacité à infiltrer différents types de tumeurs dont les carcinomes, les pDC sont également recrutées dans les épithéliums inflammés lors d’infections virales ou de pathologies autoimmunes. Les mécanismes régulant cette migration restent à ce jour peu élucidés. Dans ce contexte, nous démontrons qu’une sous-population de pDC dans l’amygdale co-exprime CCR6 et CCR10, les récepteurs aux chimiokines CCL20 et CCL27/28 responsables du recrutement des cellules immunes dans les sites épithéliaux. In situ, les pDC sont retrouvées en contact étroit avec les ligands de CCR6 et CCR10 dans les épithéliums inflammés, suggérant que les couples CCR6-CCL20 et CCR10-CCL27/28 contrôlent la migration des pDC dans ces sites. Ces observations ont été confirmées in vivo puisque le recrutement des pDC dans des tumeurs de mélanome induit lors d’une inflammation est aboli dans les souris déficientes pour CCR6. De plus, les pDC circulantes humaines acquièrent l’expression de CCR6 et CCR10 in vitro en présence d’IL-3 tout en conservant parallèlement leur capacité de produire de l’IFN de type I en réponse au virus. Ainsi, nos résultats démontrent que les pDC circulantes pourraient êtres conditionnées via l’expression de CCR6 et CCR10 à migrer dans les épithéliums inflammés lors de pathologies infectieuses et non-infectieuses, où elles seraient capables d’exercer leurs fonctions innées. Ces travaux pourraient mener au développement de nouvelles stratégies thérapeutique basées sur la mobilisation et la manipulation des fonctions des pDC de l’induction de tolérance à l’induction d’immunité anti-tumorale de type anti-virale / Dendritic cells are professional antigen presenting cells initiating and modulating immune responses. Among them, plasmacytoid dendritic cells (pDC) represent key antiviral effectors through their production of high amounts of type I interferons (IFN). Their infiltration in breast tumors was correlated with a adverse clinical outcome, suggesting that the tumor environment somehow subvert pDC functions which in turn may promote the tumor growth. In this line, we demonstrated that breast tumor-associated pDC (TApDC) keep their ability to acquire a fully mature phenotype after TLR7 or 9 triggering and to activate naïve T cells proliferation, while they are strongly impaired for their capacity to produce type I IFN. This alteration of their main innate function is mediated by tumor-derived TGF-β and TNFα. SMAD phosphorylation in breast TApDC in situ further confirmed TGF-β signaling involvement in their dysfunction. These observations represent mechanistic of how breast tumors impair pDC function, and provide insights for developing new therapeutic strategies preventing the negative impact of tumor factors on infiltrating pDC. In addition to their description in many types of tumors including carcinoma, pDC also traffic into inflamed epithelial sites during viral infections or autoimmunity. But mechanisms underlying such pDC homing still remain unclear. Here we also report that a subset of tonsil pDC express CCR6 and CCR10 receptors for epithelial homing chemokines CCL20 and CCL27/28 respectively. In situ, pDC in inflamed epithelia are found in close contact with CCR6 and CCR10 ligands, indicating that CCR6/CCL20 and CCR10/CCL27/28 axis might mediate pDC homing in inflamed peripheral sites. These observations were further confirmed in vivo since inflammation-induced recruitment of pDC into melanoma tumor was abrogated in CCR6-deficient mice. Importantly, CCR6 and CCR10 expression was induced on human blood pDC in vitro in presence of IL-3 and such differentiated pDC keep their ability to produce type I IFN upon viral stimulation. Thus, our results also demonstrate that blood pDC might be conditioned through CCR6 and 10 upregulation to home inflamed epithelia during infectious or non-infectious disorders where they can exert their innate functions. This work may lead to the development of new therapeutic strategies to mobilize and manipulate the function of pDC - from inducing tolerance to inducing antiviral-like anti-tumor immunity

Cellules dendritiques plasmacytoïdes

Cancer du sein

Migration

Inflammation

Plasmacytoid dendritic cells

Breast cancer

Migration

Inflammation

616.99449

571.963

Lactobacilli- and Staphylococcus aureus mediated modulation of immune responses in vitro

Haileselassie, Yeneneh

January 2016

The human gut harbors a vast number of microbes. These microbes are not passive bystanders. They are important in modulating the immune system. We have previously shown that early colonization with lactobacilli and Staphylococcus (S.) aureus differentially associates with allergy development and/or immune profile at early ages. Here we focus on understanding how these microbes modulate the response of intestinal epithelial cells and immune cells in vitro. In paper I, we investigated the impact of UV-killed and/or cell free supernatant (CFS) of different Lactobacillus (L.) species and S. aureus strains on cytokine production from intestinal epithelial cells (IEC) and immune cells. Enterotoxin-expressng S. aureus 161:2-CFS triggered CXCL-1/GRO-α and CXCL-8/IL-8 production by IEC. S. aureus-induced CXCL-8/IL-8 production was hampered by MyD88 gene silencing of IEC, indicating the importance of TLR signaling. Further, lactobacilli-CFS and S. aureus-CFS were able to induce the production of a number of cytokines by peripheral blood mononuclear cells (PBMC) from healthy donors, but only S. aureus triggered T-cell associated cytokines: IL-2, IL-17, IFN-γ and TNF-α; which were dampened by the co-treatment with S. aureus and any of the different Lactobacillus strains. Flow cytometry of the stimulated PBMC further verified IFN-γ and IL-17 production by T cells upon treatment with S. aureus-CFS, which also induced CTLA-4 expression and IL-10 production by Treg cells. In paper II, we investigated the influence of CFS of L. reuteri and S. aureus on the differentiation of monocyte to DC and subsequently how the generated DC influence T cell response. DC generated in the presence of L. reuteri exhibited an increase in expression of surface markers (HL-DR, CD86, CD83, CCR7) and cytokine production (IL-6, IL-10 and IL-23), but had a decreased phagocytic capacity compared with conventional Mo-DC, showing a more mature phenotype. However, upon LPS stimulation, DC generated in the presence of L. reuteri-CFS displayed a more regulatory phenotype, with a reduced cytokine response both at mRNA and protein levels. On the contrary, DC generated in the presence of S. aureus-CFS resembled the control Mo-DC both at mRNA and protein expression, but SA-DC was more efficient in inducing cytokine production in autologous T cells. In paper III, we studied the influence of L. reuteri-CFS on the retinoic acid (RA)-driven mucosal-like DCs’ phenotype and function to modulate T regulatory cells (Treg) in vitro. DC generated in the presence of RA showed a mucosal-like regulatory-DC phenotype with its CD103 expression, high IL10 production and decreased expression of genes associated with inflammation (NFκB1, RELB and TNF). Further, treatment with L. reuteri-CFS enhanced the regulatory phenotype of RA-DC by increasing the production of several chemokines, such as CXCL1, CXCL5, CCL3, CCL15 and CCL20, which are involved in gut homeostasis, while dampening the expression of most chemokine receptor genes. L. reuteri-CFS also increased CCR7 expression on RA-DC.  RA-DC co-cultured with T cell increased IL10 and FOXP3 expression in Treg. However L. reuteri-CFS pre-conditioning of the RA-DC did not improve the Treg phenotype. In conclusion, bacteria-CFS can have an impact on the response of IEC, differentiation and function of DC and, subsequently the T cell response, when taken together in the context of gut; these can have an impact on the health and disease of the host. / <p>At the time of the doctoral defense, the following paper was unpublished and had a status as follows: Paper 2: Submitted.</p>

lactobacilli

staphylococcus aureus

dendritic cells

retinoic acid

epithelial cells

T cells

Cellules dendritiques : infection et immunité tissulaire / Dendritic cells : response to infection and tissue immunity

Gorvel, Laurent

17 December 2013

Les cellules dendritiques (DCs) jouent un rôle essentiel dans la réponse immunitaire. En effet leur fonction de présentation de l’antigène les place au cœur de l’induction de la réponse immunitaire adaptative. Ceci, les rends vulnérables aux attaques des agents pathogènes. En effet de nombreux agents pathogènes détournent la réponse des DCs. Je me suis donc proposé d’étudier la réponse des DCs à Tropheryma whipplei, Coxiella burnetii, Brucella abortus et Orientia tsutsugamushi. J’ai pu mettre en évidence un défaut de maturation des DCs infectées par C. burnetii et B. abortus, liée à un défaut de la voie de l’interféron (IFN) de type I et de secretion de l'IFN-b. La deuxième partie de ma thèse replace le système immunitaire inné dans le cadre de l’immunité tissulaire humaine. Je me suis premièrement intéressé aux macrophages placentaires. J’ai pu démontrer que la capacité des macrophages placentaires à former des MGCs est altérée lors d’une chorioamniotite, ce qui laisse supposer que ces cellules géantes jouent un rôle dans le maintient de la tolérance fœto-maternelle. Deuxièmement je me suis intéressé aux DCs placentaires (plaDCs). J’ai ainsi put démontrer que les plaDCs sont de véritables DCs myéloïdes conditionnées par leur environnement direct ou hormonal au cours de la grossesse. Mon travail illustre deux concepts, le premier démontre la nécessité d’utiliser des techniques à haut débit pour identifier les perturbations induites par plusieurs agents pathogènes. Le deuxième démontre que l’environnement des cellules immunitaires participe fortement à leurs réponses face à des agents pathogènes mais également sur leur phénotype et fonction. / Dendritic cells (DCs) play a key role in the immune response. Indeed, their antigen presenting function allows them to be considered as the main inducers of adaptive response. This pivotal role also makes vulnerable to pathogen attacks. Indeed, numerous pathogens target DC response to avoid a microbicidal adaptive immunity to take place. To understand these mecanisms, I investigated the response of DCs to T. whipplei, C. burnetii, B. abortus and O. tsutsugamushi. I could highlight a phenotypic but not functional defect of maturation in DCs infected by C. burnetii and B. abortus, which was related to a defect in type I IFN response. Indeed, C. burnetii and B. abortus did not induce the production of IFN-b and induced an abnormal phosphorylation of MAPKs, known to participate to DC maturation. In this study, I could demonstrate that C. burnetii and B. abortus interfere with type I IFN response. The second part of my thesis dealt with innate immune system in the human tissue. First I interested myself in placental macrophages. I demonstrated that placental macrophages ability to form MGCs was altered in chorioamnionitis, suggesting that MGCs play a role in tolerance as they disappear in an infectious pathology. Second, I interested myself in placental DCs (plaDCs) for which I could conclude that plaDCs are true myeloid DCs that are polarized by their microenvironment. My work highlight two concepts, the first one demonstrate the necessity of high throughput methods for the analysis of cell response to several pathogens. The second concept demonstrates that direct environment or hormones can affect immune cells response to pathogen but also their phenotype and function.

Cellules dendritiques

Placenta

Macrophage

Maturation

Réponse immune

Tolérence

Dendritic cells

Placenta,

Macrophages

Maturation

Immune response

Tolerance

Origine et fonction des cellules dendritiques, des monocytes et des macrophages de la peau et de l'intestin / Origin and funtion of dendritic cells, monocytes and macrophages of skin and intestine

Tamoutounour, Samira

11 June 2013

Les plus grandes interfaces avec l'environnement extérieur sont la peau, et les muqueuses gastro-intestinales. Ces barrières, sont constamment menacées par des attaques physico-chimiques ou par des tentatives d'invasion de micro-organismes. Les phagocytes mononucléés qui comprennent les DCs, les monocytes et les macrophages et sont issus de la lignée myéloïde possèdent des propriétés distinctes de phagocytose de pathogènes et de cellules apoptotiques, d'apprêtement des antigènes et de présentation de ces derniers aux lymphocytes T. d'activation. La distinction de ces différentes cellules est un enjeu majeur pour la compréhension des mécanismes de la réponse immune et pour sa modulation dans des buts thérapeutiques. En utilisant des marqueurs cellulaires Ly-6C, CD64 et ainsi que le fait que les monocytes dépendent du récepteur de chimiomokine CCR2 pour émigrer de la moelle osseuse et les DCs de l'engagement du récepteur Flt3, nous avons montré pour la première fois qu'il existe dans la peau et l'intestin une cascade de différenciation qui conduit à des monocytes et des macrophages tissulaires et est distincte de celle donnant naissance aux DCs. Nous avons ensuite étudié le comportement de ces cellules dans une inflammation stérile dans la peau médiée par le DNFB (dinitrofluorobenzène) et dans une maladie inflammatoire de l'intestin (IBD) et montré que leurs capacités de migration vers les ganglions lymphatiques et de présentation antigénique à des lymphocytes T sont dépendantes du modèle utilisé. Cette déconvolution des populations tissulaires de cellules monuclées nous permet ainsi de disséquer le rôle de chacun de ces acteurs lors de la réponse immune. / The skin and the gastrointestinal mucosa that are the largest interfaces with the external environment. These barriers are the guardians of the body's integrity and are constantly threatened by physicochemical or microorganisms attacks. They have a dense network of effector cells dedicated to the defense of the body. Among them, mononuclear phagocytes which include DCs, monocytes and macrophages are all derived from the myeloid lineage and possess distinct properties of pathogens and apoptotic cells phagocytosis, antigens processing and presentation to T cells. However, DCs, monocytes and macrophages share common ancestry and functions and are hard to differentiate from each other in tissues and lymphoid organs. The distinction of these cells is a major challenge for understanding immune response's mechanisms and its modulation for therapeutic purposes.Using Ly-6C, CD64 and CCR2 as cell markers, as well as the CCR2 dependent emigration from bone marrow of monocytes and DCs dependency to Flt3-L, we have shown for the first time a cascade of monocytes differentiation, and separate populations of tissue monocytes, macrophages and DCs within the skin and the intestine. We then studied the behavior of these cells in a sterile skin inflammation mediated by DNFB (dinitrofluorobenzène) and in an inflammatory bowel disease (IBD) and showed that their ability to migrate to lymph nodes and to present antigens to naïve T lymphocytes are model dependent. Disentangling those tissue populations allows us to dissect the role of each of these actors in the immune response.

Cellule dendritique

Monocyte

Macrophage

Peau

Intestin

Inflammation

Dendritic cells

Monocyte

Macrophage

Skin

Intestine

Inflammation

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