Transfert d'ARNm par des lipopolyplexes et vaccination antimélanome : ciblage des cellules dendritiques à l'aide de lipopolyplexes mannosylés / MRNA transfer with lipopolyplexes and anti-melanoma vaccination : dendritic cells targeting with mannosylated lipopolyplexes

Perche, Federico

30 November 2010

Précédemment, il a été démontré au laboratoire qu’une vaccination des souris avec des lipopolyplexes (LPR) contenant l’ARNm de l’antigène de mélanome MART1 permet d’induire la formation de lymphocytes T cytotoxiques spécifiques et de retarder le développement de mélanomes B16F10 et de métastases pulmonaires. Les LPR sont des complexes ternaires constitués d’ARNm, d’un polymère cationique histidylé et de liposomes cationiques histidylés. L’objectif de ma thèse était d’améliorer cette vaccination antitumorale en développant de nouveaux liposomes capables de cibler les cellules dendritiques (DC). Le ciblage a été réalisé en incorporant un glycolipide mannosylé aux liposomes afin de favoriser leur reconnaissance par le récepteur mannose. A partir de ces liposomes, des formulations de complexes ternaires à base d’ADN (LPD mannosylés ou Man11-LPD100) ou à base d’ARN (LPR mannosylés ou Man11- LPR100) ont été mis au point. Les résultats montrent que : in vitro les formulations Man11-LPD100 sont mieux internalisés et transfectent plus efficacement les DC que les LPD100 non mannosylés. Les formulations Man11-LPR100 transfectent avec une plus grande efficacité les DC par rapport aux Man11- LPD100. Par ailleurs, une forte réduction de la toxicité des formulations a été obtenue en dialysant les liposomes. Il est également possible de conserver les formulations sous forme déshydratée. Une imagerie par scintigraphie effectuée chez la souris a permis de constater que 9% des LPD sont captés dans la rate après une injection IV. Nous avons mis en évidence après un isolement de DC spléniques que les formulations Man11-LPR100 transfectent 4 fois plus de DC que les LPR non manosylés. Enfin, l’immunisation des souris avec Man11-LPR100 contenant l’ARNm MART1 permet une vaccination plus efficace contre la tumeur B16F10 et une meilleure survie. En conclusion, les LPR Man11-LPD100 sont de bons vecteurs pour cibler et transfecter les DC spléniques avec l’ARNm d’un antigène tumoral et pour induire la réponse immune contre les cellules tumorales. / Previously, it has been demonstrated that mice vaccination with lipopolyplexes (LPR) containing melanoma antigen MART1 mRNA can induce the generation of specific cytotoxic T cells and delay B16F10 melanoma growth and lung metastases. LPR are ternary complexes consisting of mRNA, a histidylated cationic polymer and histidylated cationic liposomes. The objective of my thesis was to enhance this antitumor vaccination through the development of new liposomes that can target specifically dendritic cells (DC). The targeting of DC was achieved by incorporating a mannosylated glycolipid within liposomes to enhance their recognition by the mannose receptor. From these liposomes, formulations based ternary complexes of DNA (mannosylated-LPD or Man11-LPD100) or formulations based on mRNA (mannosylated LPR or Man11 LPR100) were developed. The results show that formulations made with Man11-LPD100 are better internalized and transfect efficiently DC than LPD100. Man11 LPR100 transfect with greater efficiency DC compared to DNA based formulation (Man11-LPD100). Furthermore, a strong reduction of the toxicity of LPD was obtained by liposomes dialysis. It is also possible to preserve their activity by freeze-drying. Mice scintigraphy revealed that 9% of LPD are captured in the spleen following IV injection. We demonstrated after isolation of splenic DC that Man11-LPR100 transfect DC 4 times more than LPR100. Finally, immunization of mice with Man11-LPR100 containing mRNA MART1 allows a more effective vaccination against B16F10 tumor and a better mice survival than non-mannosylated ones. In conclusion, Man11-LPR100 are promising vectors to target and transfect splenic DC with a tumor antigen mRNA aiming to an induction of an immune response against tumor cells.

Polymères cationiques

MART-1

Lipopolyplexes

Cationic polymers

Melanoma antigen recognized by T cells

Lipopolyplexes

Structural and functional elucidation of the primary transducer module of the B cell antigen receptor

Pirkuliyeva, Sona

16 February 2015

No description available.

570

B cell antigen receptor

Adaptor protein

SLP65

B cell activation

BCR signaling

Biologie (PPN619462639)

Cancer Immunotherapy : Evolving Oncolytic viruses and CAR T-cells

Ramachandran, Mohanraj

January 2016

In the last decade cancer immunotherapy has taken huge strides forward from bench to bedside and being approved as drugs. Cancer immunotherapy harnesses the power of patient’s own immune system to fight cancer. Approaches are diverse and include antibodies, therapeutic vaccines, adoptively transferred T-cells, immune checkpoint inhibitors, oncolytic viruses and immune cell activators such as toll-like receptor (TLR) agonists. Excellent clinical responses have been observed for certain cancers with checkpoint antibodies and chimeric antigen receptor (CAR)-engineered T-cells. It is however becoming evident that strategies need to be combined for broader effective treatment responses because cancers evolve to escape immune recognition. A conditionally replication-competent oncolytic adenovirus (Ad5PTDf35-[Δ24]) was engineered to secrete Helicobacter pylori Neutrophil Activating Protein (HP-NAP, a TLR-2 agonist) to combine viral oncolysis and immune stimulation. Treatment with Ad5PTDf35-[Δ24-sNAP] improved survival of mice bearing human neuroendocrine tumors (BON). Expression of HP-NAP in the tumor microenvironment promoted neutrophil infiltration, proinflammatory cytokine secretion and increased necrosis. We further studied the ability of HP-NAP to activate dendritic cells (DCs) a key player in priming T-cell responses. HP-NAP phenotypically matured and activated DCs to secrete the T-helper type-1 (Th-1) polarizing cytokine IL-12. HP-NAP-matured DCs were functional; able to migrate to draining lymph nodes and prime antigen-specific T-cell proliferation. CAR T-cells were engineered to secrete HP-NAP upon T-cell activation. Secreted HP-NAP was able to mature DCs, leading to a reciprocal effect on the CAR T-cells with improved cytotoxicity in vitro. Semliki Forest virus (SFV), an oncolytic virus with natural neuro-tropism was tagged with central nervous system (CNS)-specific microRNA target sequences for miR124, miR125 and miR134 to selectively attenuate virus replication in healthy CNS cells. Systemic infection of mice with the SFV4miRT did not cause encephalitis, while it retained its ability to replicate in tumor cells and cure a big proportion of mice bearing syngeneic neuroblastoma and gliomas. Therapeutic efficacy of SFV4miRT inversely correlated with type-I antiviral interferon response (IFN-β) mounted by tumor cells. In summary, combining immunotherapeutic strategies with HP-NAP is a promising approach to combat cancers and SFV4miRT is an excellent candidate for treatment of neuroblastomas and gliomas.

Oncolytic virus

Adenovirus

Semliki Forest virus

Cancer immunology

Chimeric antigen receptor T-cells

Intracellular delivery of radioimmunoconjugates that target the cancer testis antigen, NY-ESO-1

Chu, Hin Lun

January 2013

Cancer testis antigens (CTA) represent attractive targets for targeted radiotherapy and imaging as their expression is restricted to cancer and germ cells. NY-ESO-1, a member of the CTA family, is highly immunogenic and expressed in multiple tumor types including carcinoma of bladder, liver lung. The aim of this study was to develop radioimmunoconjugates (RIC) to target NY-ESO-1 protein in cancer cells. Anti-NY-ESO-1 antibodies were modified by addition of DTPA for 111In-labelling or, in the presence of Iodogen, were 123I-labelled. Delivery of radiolabeled immunoconjugates across the cell membrane was achieved using a protein transfection (PT) reagent (SAINT-PhD) and by chemical linkage with the cell-penetrating and nuclear-localizing peptide, TAT (YGRKKRRQRRR). Cellular internalization, distribution and efflux of 111In-DTPA-anti-NY-ESO-1-TAT-PT and 123I-anti-NY-ESO-1-TAT-PT were investigated in cell fractionation and retention assays. It was shown that protein transfection reagent has promoted the cellular uptake of RICs into SK-MEL-37 and both of 111In-DTPA-anti-NY-ESO-1-TAT-PT and 123I-anti-NY-ESO-1-TAT-PT was retained longer in SK-MEL-37 cells in comparison to their isotope control RIC. In clonogenic assays, 111In-DTPA-anti-NY-ESO-1-TAT-PT significantly reduced surviving fraction of SK-MEL-37 cells. Cytotoxicity was inversely proportional to specific activity and the concentration of cells exposed to 111In-DTPA-anti-NY-ESO-1-TAT-PT. siRNA knock down of NY-ESO-1 resulted in partial reversal of 111In-DTPA-anti-NY-ESO-1-TAT-PT associated cytotoxicity. These promising results obtained from the in vitro study has brought the probe further into in vivo study. In preliminary biodistribution studies in SK-MEL-37 xenograft-bearing mice, tumour:muscle ratio for 111In-DTPA-anti-NY-ESO-1-TAT-PT was statistically significant compared to the control RIC 48 h post injection. This clearly indicated that the probe can be delivered into tumour in in vivo model and the successful uptake of radioactivity increased the chance of causing cytotoxicity to tumour cells through DNA damage. All of these findings have suggested that intracellular cancer associated antigen NY-ESO-1 can be reached by protein transfection reagent and cell penetrating peptide and initiates DNA damage through radio-isotope mediated cytotoxicity. Therefore, it represents a novel approach to the treatment of CTA-expressing cancers.

616.99

Optimering av lymfocytfraktionering med AutoMACS Pro för biobankning av hematologiska maligniteter / Optimization of Lymphocyte Fractionation with AutoMACS Pro for Biobanking of Hematological Malignancies

Arnqvist, Jennifer

January 2015

No description available.

Hematologiska maligniteter

AutoMACS Pro

flödescytometri

cellsortering

lyfmocyter

antigen.

Biomedical Laboratory Science/Technology

Targeting T Cells for the Immune-Modulation of Human Diseases

Lin, Regina

January 2015

<p>Dysregulated inflammation underlies the pathogenesis of a myriad of human diseases ranging from cancer to autoimmunity. As coordinators, executers and sentinels of host immunity, T cells represent a compelling target population for immune-modulation. In fact, the antigen-specificity, cytotoxicity and promise of long-lived of immune-protection make T cells ideal vehicles for cancer immunotherapy. Interventions for autoimmune disorders, on the other hand, aim to dampen T cell-mediated inflammation and promote their regulatory functions. Although significant strides have been made in targeting T cells for immune-modulation, current approaches remain less than ideal and leave room for improvement. In this dissertation, I seek to improve on current T cell-targeted immunotherapies, by identifying and preclinically characterizing their mechanisms of action and in vivo therapeutic efficacy.</p><p>CD8+ cytotoxic T cells have potent antitumor activity and therefore are leading candidates for use in cancer immunotherapy. The application of CD8+ T cells for clinical use has been limited by the susceptibility of ex vivo-expanded CD8+ T cells to become dysfunctional in response to immunosuppressive microenvironments. To enhance the efficacy of adoptive cell transfer therapy (ACT), we established a novel microRNA-targeting approach that augments CTL cytotoxicity and preserves immunocompetence. Specifically, we screened for miRNAs that modulate cytotoxicity and identified miR-23a as a strong functional repressor of the transcription factor Blimp-1, which promotes CTL cytotoxicity and effector cell differentiation. In a cohort of advanced lung cancer patients, miR-23a was upregulated in tumor-infiltrating CD8+ T cells, and its expression correlated with impaired antitumor potential of patient CD8+ T cells. We determined that tumor-derived TGF-&#946; directly suppresses CD8+ T cell immune function by elevating miR-23a and downregulating Blimp-1. Functional blockade of miR-23a in human CD8+ T cells enhanced granzyme B expression; and in mice with established tumors, immunotherapy with just a small number of tumor-specific CD8+ T cells in which miR-23a was inhibited robustly hindered tumor progression. Together, our findings provide a miRNA-based strategy that subverts the immunosuppression of CD8+ T cells that is often observed during adoptive cell transfer tumor immunotherapy and identify a TGF&#946;-mediated tumor immune-evasion pathway.</p><p>Having established that miR-23a-inhibition can enhance the quality and functional-resilience of anti-tumor CD8+ T cells, especially within the immune-suppressive tumor microenvironment, we went on to interrogate the translational applicability of this strategy in the context of chimeric antigen receptor (CAR)-modified CD8+ T cells. Although CAR T cells hold immense promise for ACT, CAR T cells are not completely curative due to their in vivo functional suppression by immune barriers &#8210; such as TGF&#946; &#8210; within the tumor microenvironment. Since TGF&#946; poses a substantial immune barrier in the tumor microenvironment, we sought to investigate whether inhibiting miR-23a in CAR T cells can confer immune-competence to afford enhanced tumor clearance. To this end, we retrovirally transduced wildtype and miR-23a-deficient CD8+ T cells with the EGFRvIII-CAR, which targets the PepvIII tumor-specific epitope expressed by glioblastomas (GBM). Our in vitro studies demonstrated that while wildtype EGFRvIII-CAR T cells were vulnerable to functional suppression by TGF&#946;, miR-23a abrogation rendered EGFRvIII-CAR T cells immune-resistant to TGF&#946;. Rigorous preclinical studies are currently underway to evaluate the efficacy of miR-23a-deficient EGFRvIII-CAR T cells for GBM immunotherapy. </p><p>Lastly, we explored novel immune-suppressive therapies by the biological characterization of pharmacological agents that could target T cells. Although immune-suppressive drugs are classical therapies for a wide range of autoimmune diseases, they are accompanied by severe adverse effects. This motivated our search for novel immune-suppressive agents that are efficacious and lack undesirable side effects. To this end, we explored the potential utility of subglutinol A, a natural product isolated from the endophytic fungus Fusarium subglutinans. We showed that subglutinol A exerts multimodal immune-suppressive effects on activated T cells in vitro: subglutinol A effectively blocked T cell proliferation and survival, while profoundly inhibiting pro-inflammatory IFN&#947; and IL-17 production by fully-differentiated effector Th1 and Th17 cells. Our data further revealed that subglutinol A might exert its anti-inflammatory effects by exacerbating mitochondrial damage in T cells, but not in innate immune cells or fibroblasts. Additionally, we demonstrated that subglutinol A significantly reduced lymphocytic infiltration into the footpad and ameliorated footpad swelling in the mouse model of Th1-driven delayed-type hypersensitivity. These results suggest the potential of subglutinol A as a novel therapeutic for inflammatory diseases.</p> / Dissertation

Immunology

Adoptive T cell transfer

Autoimmune diseases

Chimeric antigen receptor

Immunotherapy

microRNA

Incorporation of trehalose analogues into Mycobacterium tuberculosis : antigen 85 and probes of bacterial infection

Backus, Keriann Marie

January 2011

Diagnoses of tuberculosis, 'TB,' currently rely upon non-specific techniques such as X-ray exams and acid-fast microscopy. Improved diagnostics would preferably consider specific bacterial processes to provide real-time readouts of disease burden and response to chemotherapy. This dissertation presents the cell-wall incorporation of trehalose analogues (fluorescent and radioactive) by the mycobacterial antigen 85 enzymes as a novel method to label the causative bacteria of TB, Mycobacterium tuberculosis (Mtb). The trehalose mycolyltransesterase enzymes (antigens 85A, B, and C (Ag85)) serve as essential mediators of cell envelope function and biogenesis in Mtb. We show that the Ag85 enzymes display activities so broad that they allow added non-natural carbohydrate probes to be incorporated into Mtb growing in vitro and within macrophages. Design and synthesis of a library of structurally-diverse analogs of the sugar trehalose (Tre) revealed that Ag85-enzymes catalyze esterification of a wide variety of non-natural Tre structures, even stereoisomers and those appended with charged or bulky groups (Chapter 2). A novel mass-spectrometry based Ag85 enzyme assay was developed and employed to screen the library of compounds against all three isoforms of Ag85 (Chapter 3). This screen revealed that the Ag85 enzymes exhibit preference for dissacharides over monosaccharides and a broad tolerance for most modified trehalose compounds. This activity assay also afforded full kinetic analysis and the discovery of a novel, covalent inhibitor of the Ag85 enzymes. The Ag85 activity assay informed the design of a fluorescent trehalose-based compound (FITC-Tre), which is the first, non-toxic, selective, small molecule probe for mycobacterial infection. FITC-Tre was acylated with mycolyl esters by growing mycobacteria, anchoring the probe in the cell envelope resulting in fluorescent bacteria (Chapter 4). Adding FITC-Tre to Mtb-infected macrophages allowed selective, fluorescent tagging of Mtb in vivo (Chapter 5). Colocalization studies with antibodies against a variety of phagosomal associated components have hinted at the possibility of FITC-Tre as readout of cellular trafficking of bacteria. ¹⁸F-trehalose, biotin-trehalose and rhodamine-trehalose are also substrates of Ag85. ¹⁸F-trehalose shows promise as Mtb selective PET probe in an infected rabbit model of tuberculosis. Future work with these probes may allow for fluorescent tracking of the Mtb during the macrophage infection process, as well as the ability to label Mtb in infected tissue. The functional differences between the three isoforms of Ag85, A, B and C, are not well understood and may have implications for the survival and persistence of mycobacteria within humans. The differences in substrate specificity and catalytic activity between the Ag85 isoforms (discussed in Chapter 3) has been further investigated (Chapter 6). Mutation of three secondary site amino acids from Ag85C into Ag85B afforded nearly a twenty-fold gain in enzyme activity. Mutation of the equivalent Ag85B residues into Ag85C triggered nearly a twenty-fold loss in activity. Dissection of the roles of these three amino acids helps to explain the previously reported large differences in catalytic activity between Ag85A, B and C. Overexpression of Ag85A, B and C under tetracycline regulation revealed that these enzymes differentially modulate incorporation of mycolates into the cell wall. The Ag85 enzymes are not functionally redundant, and instead serve unique purposes in cell wall biosynthesis. In summary, this research has demonstrated that the broad substrate tolerance of Ag85 enzymes, coupled with their extracellular location, opens the door to probes of mycobacterial infection using many imaging modalities.

616.99

CHARACTERIZATION OF THE ROLE OF INSULIN-LIKE GROWTH FACTOR BINDING PROTEIN 7 (IGFBP7) USING A GENETIC KNOCKOUT MOUSE MODEL

Akiel, Maaged A

01 January 2017

In the US, the incidence and mortality rates of hepatocellular carcinoma (HCC) are alarmingly increasing since no effective therapy is available for the advanced disease. Activation of IGF signaling is a major oncogenic event in diverse cancers, including HCC. Insulin-like growth factor binding protein-7 (IGFBP7) inhibits IGF signaling by binding to IGF-1 receptor (IGF-1R) and functions as a potential tumor suppressor for hepatocellular carcinoma (HCC). IGFBP7 abrogates tumors by inducing cancer-specific senescence and apoptosis and inhibiting angiogenesis. We now document that Igfbp7 knockout (Igfbp7-/- ) mouse shows constitutive activation of IGF signaling, presents with pro-inflammatory and immunosuppressive microenvironment, and develops spontaneous tumors in lungs and liver and markedly accelerated carcinogen-induced HCC. Loss of Igfbp7 resulted in increased proliferation and decreased senescence in hepatocytes and mouse embryonic fibroblasts that could be blocked by an IGF-1 receptor inhibitor. A significant inhibition of genes regulating immune surveillance was observed in Igfbp7-/- livers which was associated with marked inhibition in antigen cross presentation by Igfbp7-/- dendritic cells. IGFBP7 overexpression inhibited growth of HCC cells in syngeneic immune competent mice, which could be abolished by depletion of CD4+ or CD8+ T lymphocytes. Our studies unravel modulation of immune response as a novel component of pleiotropic mechanisms by which IGFBP7 suppresses HCC. Even though HCC has an immunosuppressive milieu, immune targeted therapies are beginning to demonstrate significant objective responses in clinical trials. IGFBP7 might be an effective anti-HCC therapeutic by directly inhibiting cancer cells and stimulating an anti-tumor immune response.

IGF signaling

antigen presentation

tumor suppression

inflammation

mouse model

Medicine and Health Sciences

Exploring the Molecular Behavior of Carbohydrates by NMR Spectroscopy : Shapes, motions and interactions

Engström, Olof

January 2015

Carbohydrates are essential biomolecules that decorate cell membranes and proteins in organisms. They are important both as structural elements and as identification markers. Many biological and pathogenic processes rely on the identification of carbohydrates by proteins, thereby making them attractive as molecular blueprints for drugs. This thesis describes how NMR spectroscopy can be utilized to study carbohydrates in solution at a molecular level. This versatile technique facilitates for investigations of (i) shapes, (ii) motions and (iii) interactions. A conformational study of an E. coli O-antigen was performed by calculating atomic distances from NMR NOESY experiments. The acquired data was utilized to validate MD simulations of the LPS embedded in a membrane. The agreement between experimental and calculated data was good and deviations were proven to arise from spin-diffusion. In another study presented herein, both the conformation and the dynamic behavior of amide side-chains linked to derivatives of D-Fucp3N, a sugar found in the O-antigen of bacteria, were investigated. J-couplings facilitated a conformational analysis and 13C saturation transfer NMR experiments were utilized to measure rate constants of amide cis-trans isomerizations. 13C NMR relaxation and 1H PFG diffusion measurements were carried out to explore and describe the molecular motion of mannofullerenes. The dominating motions of the mannofullerene spectral density were found to be related to pulsating motions of the linkers rather than global rotational diffusion. The promising inhibition of Ebola viruses identified for a larger mannofullerene can thus be explained by an efficient rebinding mechanism that arises from the observed flexibility in the linker. Molecular interactions between sugars and caffeine in water were studied by monitoring chemical shift displacements in titrations. The magnitude of the chemical shift displacements indicate that the binding occurs by a face to face stacking of the aromatic plane of caffeine to the ring plane of the sugar, and that the interaction is at least partly driven by solvation effects. Also, the binding of a Shigella flexneri serotype Y octasaccharide to a bacteriophage Sf6 tail spike protein was investigated. This interaction was studied by 1H STD NMR and trNOESY experiments. A quantitative analysis of the STD data was performed employing a newly developed method, CORCEMA-ST-CSD, that is able to simulate STD data more accurately since the line broadening of protein resonances are accounted for in the calculations. / <p>At the time of the doctoral defense, the following papers were unpublished and had a status as follows: Paper 2: Manuscript. Paper 4: Manuscript. Paper 5: Manuscript.</p>

NMR spectroscopy

NMR relaxation

DNMR

CORCEMA-ST

carbohydrates

caffeine

O-antigen

glycofullerenes

Interactions cellulaires et moléculaires entre basophiles et lymphocytes T CD4+ / Cellular and molecular cross talk between basophils and CD4+ T cells

Sharma, Meenu

26 May 2014

Les basophiles sont les granulocytes les plus rares. Ils sont impliqués dans la polarisation des réponses immunitaires de type Th2, dans la différenciation des lymphocytes B et dans la protection contre les infections helminthiques. Les basophiles sont impliqués dans la modulation des réponses immunitaires, en particulier dans les maladies auto-immunes et inflammatoires. Des études récentes ont montré que les basophiles murins sont cellules présentatrices d’antigène (CPA) et induisent des réponses Th2 et IgE contre les allergènes et les infections helminthiques.Par conséquent, Nous avons exploré les fonctions des basophiles humains, en particulier comme CPA professionnelles. Les résultats montrent que les basophiles, contrairement aux cellules dendritiques et monocytes, n’expriment pas HLA-DR et les marqueurs de co-stimulations CD80 et CD86. De plus, la stimulation des basophiles par divers allergènes, comme des ligands de TLR et IgE, n’induit pas des changements dans l’expression de ces marqueurs. Enfin, nos résultats montrent que les basophiles ne favorise pas les réponses immunitaire de type Th2 ou Th17. Ainsi,notre étude montre que les basophiles humains circulant ne possèdent pas des fonctions de CPA professionnelles. Des plus, les basophiles sont impliqués dans la pathogenèse de maladies auto-immunes et inflammatoires dépendantes des réponses Th2 et médiées par les lymphocytes B. Puisque la dérégulation des basophiles joue un rôle important dans le développement des réponses immunitaires dans différentes conditions pathologiques, nous avons exploré les mécanismes de régulations qui modulent les fonctions les basophiles. En particulier, nous avons étudié le rôle suppresseur des lymphocytes T régulateurs (Tregs) CD4+CD25+FoxP3, des cellules clés dans la maintenance de l’homéostasie immune, sur les fonctions des basophiles. Nos résultats montrent que les fonctions des basophiles, contrairement à la majorité des cellules immunes, ne sont pas régulées par les Tregs. Bien au contraire, nos résultats montrent que les lymphocytes T favorisent l’activation des basophiles. En résumé, nous avons exploré de nouveaux mécanismes cellulaires et moléculaires impliqués dans la régulation des fonctions des basophiles humains. Ces résultats nous permettent de mieux comprendre le rôle des basophiles dans les conditions inflammatoires et dans le développement de nouvelles stratégies thérapeutiques. / Basophils are the rare granulocytes and play an important role in the polarization of Th2 responses, differentiation of B cells and protection against helminths. Basophils have a major influence on immune responses and various roles of these cells in autoimmune and inflammatory diseases are emerging. Recent reports showed that murine basophils function as antigen presenting cells (APCs) to induce Th2 and IgE responses to allergens and helminths. Therefore, I explored whether human basophils possess the features of APCs. I found that unlike dendritic cells (DCs) and monocytes, steady-state circulating human basophils did not express HLA-DR and co-stimulatory molecules CD80 and CD86. Basophils remained negative for these molecules following stimulation with various allergens, toll-like receptor ligands and IgE cross-linking.Unlike DCs, basophils did not promote Th2 and Th17 responses. Together, these results demonstrate the inability of circulating human basophils to function as professional APC. Further, basophils were also reported to be implicated in the pathogenesis of Th2 –associated and B cell-mediated autoimmune and inflammatory diseases. Considering the impact of dysregulated function of basophils on the outcome immune responses in various pathological conditions, it was essential to investigate the regulatory mechanisms by which basophil functions are kept in check. As CD4+CD25+FoxP3+ regulatory T cells (Tregs) are critical for the maintenance of immune homeostasis, I sought to investigate the interaction of Tregs with human basophils and its repercussion on basophil functions. My results indicated that unlike other immune cells that aresusceptible to Treg-mediated suppression, basophils are refractory to regulatory mechanism of Tregs. On the contrary I found that T cells could promote activation of basophils. My results thus provided an insight on cellular and molecular basis of regulation of human basophil functions. These data will have a repercussion in understanding role of basophils ininflammatory conditions and in designing therapeutic strategies.

Maladies inflammatoires

Basophils

T lymphocytes

Auto-immune diseases

Inflammatory diseases

Antigen-presenting cells