Role of regulatory T cells in the pathogenesis of human tuberculosis/Rôle des lymphocytes T régulateurs dans la pathogenèse de la tuberculose chez l'homme

Hougardy, Jean-Michel

14 May 2008

Globalement, un tiers de la population mondiale est infectée par Mycobacterium tuberculosis, l'agent infectieux de la tuberculose (TB). Fort heureusement, seuls 5 à 10 % des individus infectés développent un jour une TB active. Les individus non malades restent cependant infectés à vie, on parle d'infection latente. Chaque année, 8-10 millions nouveaux cas de tuberculose active sont recensés et M. tuberculosis est responsable de 1,5 à 2 millions de décès. Depuis plus d'une décennie, M. tuberculosis s'est étroitement associé à l'infection par le virus de l'immunodéficience humaine. Cette alliance néfaste représente une importante menace pour les pays en voie de développement, car ces 2 pathogènes déciment les forces vives de ces populations. Il faut malheureusement rajouter à ce triste tableau une fréquence grandissante de souches multi-résistantes, voire extensivement multi-résistantes. Face à ces souches, les avancées thérapeutiques du siècle dernier sont pratiquement réduites à néant. Considérant ces données, il est désormais crucial d'améliorer nos outils de dépistage de l'infection latente, de diagnostic de la maladie active, de prévention (vaccins) et de traitement. Pour atteindre ces objectifs, une des pistes est la caractérisation détaillée des réponses immunitaires. En comparant les réponses immunitaires des sujets infectés de manière latente à celles liées à la maladie active, nous pourrons peut-être comprendre certains mécanismes de protection. L'étude des réponses immunitaires induites par la « Heparin-Binding-Hemagglutinin » (HBHA) s'est faite dans cet objectif. La HBHA est une adhésine exprimée par le complexe M. tuberculosis. Elle est impliquée dans la dissémination extrapulmonaire du bacille et constitue donc un facteur de virulence. Par ailleurs, une vaccination de souris par seulement 3 doses de 5 µg de HBHA suffit à protéger de l'infection avec une efficacité comparable à celle du vaccin BCG. Chez l'homme, les sujets sains mais infectés développent d'importantes sécrétions d'interféron-gamma (IFN-γ) en réponse à cet antigène, alors que la majorité des patients tuberculeux ne le font pas. Cette différence est importante pour comprendre une des raisons d'échappement de M. tuberculosis au contrôle immunitaire. La HBHA est une protéine méthylée et la méthylation s’avère essentielle pour ses propriétés immunoprotectrices. Nos travaux présentés ici se sont axés sur deux éléments de la réponse immunitaire à la HBHA chez l'homme : d'une part, l'exploitation de la réponse périphérique d'IFN-γ à la HBHA comme outil de dépistage de l'infection latente et, d'autre part, l'étude des raisons de la faible sécrétion d'IFN-γ spécifique de la HBHA lors de la maladie active. L'évaluation de la sécrétion périphérique d'IFN-γ en réponse à la HBHA a permis de démontrer rétrospectivement que celle-ci permet de détecter plus de 90 % des sujets réagissant positivement à l'injection intradermique de tuberculine. De manière intéressante, l'utilisation d'un test commercial, le QuantiFERON TB Gold IT (QFT-IT) n'a permis de détecter que la moitié des sujets infectés sains. De notre point de vue, le QFT-IT ne peut être recommandé seul pour le dépistage systématique de l'infection latente par M. tuberculosis. De manière parallèle, un test de stimulation basé uniquement sur la sécrétion d’IFN-γ suite à une stimulation à l'ESAT-6, composant du QFT-IT, n'a pas permis d'augmenter la sensibilité, ni d'ajouter une plus-value au test basé sur la HBHA. A l'instar de l'intradermoréaction à la tuberculine, le dépistage de la maladie active reste décevant que ce soit par l'utilisation de la HBHA ou de l'ESAT-6. La TB active est caractérisée par une basse sécrétion périphérique d'IFN-γ en réponse à la stimulation par la HBHA. Cette faible sécrétion est cependant réversible, puisque un traitement efficace permet d'atteindre des taux d'IFN-γ significativement plus élevés. Ceci nous démontre qu'il s'agit d'une suppression associée à la phase active de l'infection. Nous avons d'abord évalué l'importance de la modulation de la sécrétion d'IFN-γ en réponse à la HBHA par 2 cytokines immunomodulatrices, l'interleukine-10 (IL-10) et le Transforming-Growth-Factor-Beta (TGF-ß). De manière intéressante, alors que ces 2 cytokines sont associées à l'infection par M. tuberculosis, la HBHA n'est inductrice ni d'IL-10, ni de TGF-ß. Les lymphocytes T régulateurs (Treg) expriment 2 marqueurs d'intérêt : le CD25, composant du récepteur à l'IL-2, et Foxp3, un gène régulateur majeur des cellules Treg. Ces cellules sont décrites comme suppressives de réponses immunitaires déclenchées par des antigènes du Soi et du non-Soi. Nous avons montré que la proportion de lymphocytes Treg périphériques est augmentée en cas de TB active. Par ailleurs, nous avons également démontré que ces cellules suppriment la sécrétion d'IFN-γ et la prolifération induite par la HBHA après stimulation des cellules mononucléées sanguines périphériques de patients tuberculeux in vitro. Cependant, la réponse anti-HBHA des patients tuberculeux, qui est démasquée par la déplétion des lymphocytes Treg, n'est pas dirigée contre des épitopes protecteurs. En effet, la méthylation n'influence pas leur sécrétion d'IFN-γ. De ce point de vue, les lymphocytes Treg sont impliqués dans la maladie tuberculeuse et influencent négativement les réponses dirigées contre un antigène protecteur. Cependant, il semble que la TB active soit également associée à une ignorance d'épitopes protecteurs. Enfin, nous avons également démontré qu'il était possible d'induire des lymphocytes Treg au départ de cellules sanguines périphériques de sujets infectés sains. En effet, la stimulation in vitro des cellules sanguines périphériques en présence de BCG et de TGF-ß est un moyen rapide pour induire l'apparition de lymphocytes Treg fonctionnels in vitro. Ceci nous interroge quant aux rôles des lymphocytes Treg dans la pathogenèse de la maladie. En effet, un excès de TGF-ß circulant est observé dans certaines conditions cliniques à haut-risque de TB post-primaire. De ce point de vue, les lymphocytes Treg pourraient être des acteurs déterminant dans la perte du contrôle à long terme de l'infection et, par là, pourraient être des cibles thérapeutiques d'intérêts lors de l'infection par M. tuberculosis. /Mycobacterium tuberculosis is the causative agent of tuberculosis (TB). It is estimated approximately one third of the World’s population is infected with M. tuberculosis. Fortunately, only 5 to 10 % of the infected individuals will develop the disease throughout their life. However, the other healthy infected individuals remain infected for life: this is the latent TB infection (LTBI). Every year, 8 to 10 million new cases of TB are recorded globally, and about 2 to 3 million of people die from the disease. During the last several decades the co-infection of M. tuberculosis and the human immunodeficiency virus have worsened the picture. This dreadful association currently affects mostly the poorest people of the World. Unfortunately, bad news never stands alone. We now witness increasing emergence of multi-drug-resistant and even of extensively-multi-drug-resistant M. tuberculosis strains. Against these strains current therapeutics are virtually useless. The development of new tools for prevention (vaccines), diagnostics and treatment is crucial. In order to fulfill these objectives, detailed studies on the immune responses is one of the main tracks to explore. Indeed, the comparison of immune responses in LTBI subjects with those in TB patients may provide some clues to understand immune mechanisms of protection. Studies of the immune responses that are specific to Heparin-Binding-Hemagglutinin (HBHA) may be one of these clues. HBHA is an adhesin, which is expressed by the micro-organisms of the M. tuberculosis complex. It largely contributes to the extrapulmonary dissemination of the tubercle bacilli. Hence, HBHA may be qualified as an important virulence factor. Furthermore, vaccination of mice with three doses of only 5 µg HBHA each affords the same level of protection as vaccination with BCG. In humans, peripheral blood mononuclear cells (PBMC) from LTBI subjects secrete significant levels of IFN-γ in response to HBHA, whereas PBMC from TB patients do not. This discrepancy may be a cornerstone in the understanding of some of the mechanisms underlying the immune escape mediated by M. tuberculosis. HBHA is a methylated protein, and the methylation is crucial for its immuno-protective properties. This work focused on 2 major issues of the HBHA-specific immune response in humans: the use of the peripheral IFN-γ secretion in response to HBHA as a diagnostic tool for LTBI and the analysis of the underlying mechanisms to the low IFN-γ secretion during active TB. In our study, the measurement of HBHA-specific IFN-γ secretion resulted in the detection of more than 90 % of the tuberculin-skin-test (TST) positive LTBI. Strikingly, the QuantiFERON TB Gold IT (QFT-IT), a commercial test, failed to identify those LTBI subjects in more than 50 % of the cases. Therefore, we cannot recommend the use of QFT-IT alone instead of the TST for the detection of LTBI. Similarly, a test relying on the detection of IFN-γ secretion upon ESAT-6 stimulation, one of the antigens used in the QFT-IT, was not sufficiently sensitive for the LTBI detection, nor did it improve the sensitivity or the specificity of the HBHA-based test. In contrast to the diagnosis of LTBI, the tests based on HBHA- or ESAT-6-induced IFN-γ secretions displayed poor sensitivity for the diagnosis of active TB. During active TB, the HBHA-specific IFN-γ secretion in the periphery is low. However, this weak secretion is reversible upon effective treatment, as the IFN-γ response to HBHA is increased after completion of chemotherapy. This is strongly suggestive of an immune suppression during active disease. Therefore, we have first evaluated the role of two immunomodulatory cytokines, interleukin-10 (IL-10) and Transforming-Growth-Factor-Beta (TGF-ß), in the suppression of the HBHA-specific IFN-γ secretion. We found that neutralization of neither IL-10 nor TGF-ß with specific antibodies induced HBHA-specific IFN-γ secretion by PBMC of TB patients in vitro. In contrast, depletion of regulatory T cells (Treg) that express 2 major markers, CD25, a constituent of the IL-2 receptor, and Foxp3, a master regulatory gene, resulted in increased HBHA-specific IFN-γ secretion by the PBMC of TB patients. These cells are known to be involved in the suppression of immune responses to both Self and non-Self antigens. We further show that the size of the peripheral Treg cell population increases during active disease. In addition to suppressing the HBHA-specific IFN-γ secretion these cells suppress T cell proliferation in response to HBHA in vitro. However, even after depletion of the Treg cells, the uncovered HBHA-specific immune responses are not directed to the methylated epitopes during TB disease. Finally, we show that Treg cells can be induced (or expanded) from the PBMC of LTBI subjects. Stimulation of those PBMC with BCG in the presence of TGF-ß resulted in a quick appearance of functional Treg cells in vitro. This observation strongly suggests a role of Treg cells in the pathogenesis of TB, in particular in the progression of latency to reactivation. Interestingly, excessive concentration of TGF-ß, associated with various clinical conditions, is high risk factor for post-primary TB. Thus, Treg cells may result in the loss of immune control against latent M. tuberculosis infection. Therefore, Treg cells may represent potential therapeutic targets during M. tuberculosis infection.

heparin-binding-haemagglutinin

regulatory T cells

immunity

tuberculosis

human

Characterization of Surfaces Designed for Biomedical Applications

Kristensen, Emma

January 2006

In order to develop blood biocompatible materials a heparin surface and a phosphorylcholine (PC) functionalized polymer surface were characterized using photoelectron spectroscopy (PES). The formation of the heparin surface was studied by quartz crystal microbalance with dissipation monitoring (QCM-D). This heparin surface consists of heparin conjugates deposited on a conditioning layer, applied once or twice. The PC functionalized polymer, poly(trimethylene carbonate), was linked to a silicon substrate through 3-amino- propyltrimethoxysilane (APTMS), also studied using PES. Synchrotron radiation based PES showed that the thicker heparin film resulted in complete coverage of the substrate, while the thinner did not. This could explain the difference in blood biocompatibility between the two films, as observed by others. It was also found that the heparin chains bend down towards the substrate (under vacuum). For the thinner heparin film the modifications, resulting from extensive irradiation of the sample, were studied with synchrotron radiation based PES. This was done at a pressure of about 10-7 mbar and in 0.5 mbar water vapor. It was found that the modification is slower under water vapor than at low pressures and that the damaged film incorporates water upon exposure. The heparin coating was found to be stable and wear resistant enough to still be present on artificial heart valves after three weeks testing in circulating plasma. It then had about the same antithrombin uptake as a non-tested surface. The film was, however, partly destroyed by the durability test and plasma proteins were deposited. The PC functionalized, APTMS linked polymer was found to be much shorter than could be expected from random reactions. One plausible explanation is an interaction between the PC group and the silane surface, favoring aminolysis close to the PC group. This is consistent with our finding that the PC group bends down towards the surface.

Physics

heparin

photoelectron spectroscopy

phosphorylcholine

biomaterial

quartz crystal dissipation

Fysik

Method development for studying the interactions between antithrombin and heparin

Elnerud, Maja

January 2008

Antithrombin (AT) is one of the most important anticoagulant factors in the blood, and its effects are increased by the interaction with glycosaminoglycans, especially heparin. AT appears in two additional variants, other than the native form, and those variants have antiangiogenic properties and also bind to heparin. AT is found in two distinct isoforms (alfa, beta) where the difference lie in the degree of glycosylation. This project has shown interesting results regarding the dependence of calcium ions on the binding between heparin and antithrombin. The results show that the beta-isoform increases its affinity for heparin in the presence of calcium in contrast to the alfa-isoform, which shows a decrease in the heparin affinity under the same conditions. This project has also given results that after further investigation and development could be used for an improved set-up of the immobilisation of AT variants in a surface plasmon resonance system. The results show that immobilisation of a protein in the reference channel gives a better shielding effect between the negatively charged heparin molecules and the negatively charged dextran matrix. Furthermore a more significant difference was seen between the two heparin moieties used during binding affinity studies, especially for native AT.

Antithrombin

heparin

calcium

surface plasmon resonance

fluorometry

Biochemistry

Biokemi

Method development for studying the interactions between antithrombin and heparin

Elnerud, Maja

January 2008

<p>Antithrombin (AT) is one of the most important anticoagulant factors in the blood, and its effects are increased by the interaction with glycosaminoglycans, especially heparin. AT appears in two additional variants, other than the native form, and those variants have antiangiogenic properties and also bind to heparin. AT is found in two distinct isoforms (alfa, beta) where the difference lie in the degree of glycosylation. This project has shown interesting results regarding the dependence of calcium ions on the binding between heparin and antithrombin. The results show that the beta-isoform increases its affinity for heparin in the presence of calcium in contrast to the alfa-isoform, which shows a decrease in the heparin affinity under the same conditions. This project has also given results that after further investigation and development could be used for an improved set-up of the immobilisation of AT variants in a surface plasmon resonance system. The results show that immobilisation of a protein in the reference channel gives a better shielding effect between the negatively charged heparin molecules and the negatively charged dextran matrix. Furthermore a more significant difference was seen between the two heparin moieties used during binding affinity studies, especially for native AT.</p>

Antithrombin

heparin

calcium

surface plasmon resonance

fluorometry

Biochemistry

Biokemi

Heparan Sulfate Signaling in Neuroblastoma Pathogenesis and Differentiation Therapy

Knelson, Erik Henry

January 2015

<p>Growth factors and their receptors coordinate neuronal differentiation during development, yet their roles in the embyronal tumor neuroblastoma, where differentiation is a validated treatment strategy, remain unclear. The neuroblastoma tumor stroma is thought to suppress neuroblast growth via release of soluble differentiating factors. Here we identify critical components of the differentiating stroma secretome and describe preclinical testing of a novel therapeutic strategy based on their mechanism of action.</p><p>Expression of heparan sulfate proteoglycans (HSPGs), including T&#946;RIII, GPC1, GPC3, SDC3, and SDC4, is decreased in neuroblastoma, high in the stroma, and suppresses tumor growth. High expression of T&#946;RIII, GPC1, and SDC3 is associated with improved patient prognosis. HSPGs signal via heparan sulfate binding to FGFR1 and FGF2, which leads to phosphorylation of FGFR1 and Erk MAPK, and upregulation of the transcription factor inhibitor of DNA binding 1 (Id1). Surface expression and treatment with soluble HSPGs promotes neuroblast differentiation via this signaling complex. Expression of individual HSPGs positively correlates with Id1 expression in neuroblastoma patient samples and multivariate regression demonstrates that expression of HSPGs as a group positively correlates with Id1 expression, underscoring the clinical relevance of this pathway. HSPGs also enhance differentiation from FGF2 released by the stroma and FGF2 is identified as a potential serum prognostic biomarker in neuroblastoma patients. </p><p>The anticoagulant heparin has similar differentiating effects to HSPGs, decreasing neuroblast proliferation and reducing tumor growth while extending survival in an orthotopic xenograft model of neuroblastoma. Dissection of individual sulfation sites identifies 2-O-, 3-O-de-sulfated heparin (ODSH) as a differentiating agent that suppresses orthotopic xenograft growth and metastasis in two models while avoiding anticoagulation. These studies form the preclinical rationale for a multicenter clinical trial currently being proposed.</p><p>In conclusion, these studies translate mechanistic insights in neuroblast HSPG function to identify heparins as differentiating agents for clinical development in neuroblastoma, while demonstrating that tumor stroma biology can inform design of targeted molecular therapeutics.</p> / Dissertation

Pharmacology

Oncology

Medicine

Differentiation

FGF

Heparan sulfate

Heparin

Neuroblastoma

TGFBR3

NaCl, Heparin, and Heparan Sulphate Affects Binding of Rift Valley Fever Virus to Human Cells / NaCl, Heparin och Heparan sulfat påverkar rift valley feber virus förmåga att binda till humana celler.

Teka, Girma

January 2012

No description available.

RVFV

A549 cells

rRVFV-ΔNSs:katushka

NaCl

Heparin and Heparan Sulphate

Studies on beta 2 glycoprotein I and antiphospholipid antibodies

Rahgozar, Soheila, Clinical School - St George Hospital, Faculty of Medicine, UNSW

January 2008

Beta 2 glycoprotein I (β2GPI) is a major antigenic target in antiphospholipid syndrome (APS). In vitro studies suggest that it may have multifaceted physiological functions, as it displays both anticoagulant and procoagulant properties. Beta 2GPI may bind to FXI and serve as a regulator of FXI activation by thrombin. The possible interaction of β2GPI with thrombin is investigated using enzyme linked immunosorbent assays and surface plasmon resonance based studies. It is demonstrated for the first time that domain V of β2GPI is involved in direct binding to thrombin, and exosites I and II on thrombin take part in this interaction. It is also shown that cleavage of β2GPI at Lys317-Thr318 does not interrupt this binding. A quaternary complex is proposed on the surface of activated platelets in which β2GPI may colocalise with FXI and thrombin to regulate FXIa generation. The effect of anti-β2GPI monoclonal antibodies (mAbs) were investigated on this system using 8 anti-β2GPI mAbs directed against domain I. Anti-β2GPI Abs potentiate the suppressing activity of β2GPI on FXI activation by thrombin. Moreover, they restore the inhibitory effect of clipped β2GPI on this system. The current study demonstrates for the first time a novel biological consequence of thrombin interaction with β2GPI. The effect of β2GPI on thrombin inactivation by the serine protease inhibitor heparin cofactor II (HCII) is investigated using chromogenic assays, platelet aggregation studies, and the platelet release response. The current work shows that β2GPI protects thrombin from inactivation by HCII/Heparin. This ability is modulated by the cleavage of β2GPI. A ternary structure is proposed between β2GPI, thrombin and heparin which may limit the N-terminus of HCII to exosite I therefore inhibit thrombin inactivation by HCII. The effect of anti-β2GPI Abs is examined in this system using patient polyclonal IgGs and a murine anti-β2GPI mAb. Anti-β2GPI Abs potentiate the protective effect of β2GPI on thrombin inhibition by HCII/Heparin. In view of the importance of HCII in regulating thrombin activity within the arterial wall, disruption of this function by β2GPI/anti-β2GPI Ab complexes may be particularly relevant in arterial thrombosis in APS. Beta 2 glycoprotein I (β2GPI) is a major antigenic target in antiphospholipid syndrome (APS). In vitro studies suggest that it may have multifaceted physiological functions, as it displays both anticoagulant and procoagulant properties. Beta 2GPI may bind to FXI and serve as a regulator of FXI activation by thrombin. The possible interaction of β2GPI with thrombin is investigated using enzyme linked immunosorbent assays and surface plasmon resonance based studies. It is demonstrated for the first time that domain V of β2GPI is involved in direct binding to thrombin, and exosites I and II on thrombin take part in this interaction. It is also shown that cleavage of β2GPI at Lys317-Thr318 does not interrupt this binding. A quaternary complex is proposed on the surface of activated platelets in which β2GPI may colocalise with FXI and thrombin to regulate FXIa generation. The effect of anti-β2GPI monoclonal antibodies (mAbs) were investigated on this system using 8 anti-β2GPI mAbs directed against domain I. Anti-β2GPI Abs potentiate the suppressing activity of β2GPI on FXI activation by thrombin. Moreover, they restore the inhibitory effect of clipped β2GPI on this system. The current study demonstrates for the first time a novel biological consequence of thrombin interaction with β2GPI. The effect of β2GPI on thrombin inactivation by the serine protease inhibitor heparin cofactor II (HCII) is investigated using chromogenic assays, platelet aggregation studies, and the platelet release response. The current work shows that β2GPI protects thrombin from inactivation by HCII/Heparin. This ability is modulated by the cleavage of β2GPI. A ternary structure is proposed between β2GPI, thrombin and heparin which may limit the N-terminus of HCII to exosite I therefore inhibit thrombin inactivation by HCII. The effect of anti-β2GPI Abs is examined in this system using patient polyclonal IgGs and a murine anti-β2GPI mAb. Anti-β2GPI Abs potentiate the protective effect of β2GPI on thrombin inhibition by HCII/Heparin. In view of the importance of HCII in regulating thrombin activity within the arterial wall, disruption of this function by β2GPI/anti-β2GPI Ab complexes may be particularly relevant in arterial thrombosis in APS.

Heparin cofactor II

Beta 2 glycoprotein I

Thrombin

In-vitro-Untersuchung über die Auswirkungen verschiedener Infusionslösungen, Heparinisierungsgrade und venöser Katheter auf die Rheologie im Betrieb eines Plasmafilters in Hinblick auf die Therapie eines akuten Leberversagens /

Blumberg, Alexander.

January 2004

Zugl.: Aachen, Techn. Hochsch., Diss., 2004.

Thrombozytenfunktion nach Fibrinogenrezeptorantagonisierung bei Patienten mit koronarer Stentimplantation

Hellweg, Frauke Hedwig.

Unknown Date

Techn. Universiẗat, Diss., 2005--München.

Studies of heparanase (HPA) gene expression, cellular localization and functions in neural tissues of the rat

Zhang, Yi,

January 2007

Thesis (Ph. D.)--University of Hong Kong, 2008. / Also available in print.