Understanding the link between interleukin 17 and vaccine-induced protection in tuberculosis

Griffiths, Kristin Lisa

January 2012

Tuberculosis (TB), caused by infection with Mycobacterium tuberculosis (M.tb), remains a global health problem and although BCG offers some protection against childhood disseminated disease and other mycobacterial infections, its efficacy against pulmonary TB varies between 0 and 80%. Modified Vaccinia virus Ankara expressing antigen 85A (MVA85A) is a novel TB vaccine designed to boost mycobacterium-specific CD4+ T cell response primed by BCG. MVA85A induces strong interferon (IFN)-γ responses, a cytokine known to be essential for protection following M.tb infection. A strong IFN-γ response is not a correlate of protection and in terms of the adaptive response, interleukin (IL)-17 is emerging as an important cytokine following vaccination as it is thought to help boost IFN-γ production by CD4+ T cells. This thesis shows that MVA85A induces IL-17 in PBMC and whole blood of human BCG – MVA85A vaccinees. This is replicated in mice receiving BCG – MVA85A intranasally. The administration of cholera toxin (CT) with BCG enhances IL-17 and confers improved protection following M.tb challenge, which is partially dependent on IL-17 and on the mucosal route of administration. Since CT is not a suitable adjuvant in humans, an alternative IL-17-inducing pathway was investigated. In human BCG – MVA85A-vaccinated volunteers, blocking the hydrolysing ability of the CD39, an apyrase responsible for hydrolysing pro-inflammatory ATP, enhances IL-17 production. Challenge of BCG – MVA85A-vaccinated CD39-/- mice with M.tb slightly improved the protective capacity of the vaccine, suggesting that a pathway dependent on ATP-driven inflammation may be a target for improving the immunogenicity of a vaccine against M.tb disease. Overall, this thesis has confirmed the important role of IL-17 in vaccine-induced protection against TB disease and identifies a possible target pathway for improvement of a novel vaccine.

616.99

Regulation of Colony-Stimulating Factor-1 Biosynthesis

Ku, Chun-Ying

05 1900

Recent studies suggest that synthesis of the Colony-stimulating factor (CSF) is a well regulated process. However, the molecular mechanisms of the signal transduction of the various inducers of CSF such as monokines and lymphokines are not well understood. Using Interleukin 1 (IL-1) stimulation of CSF-1 in the MIA PaCa-2 cell line as a model system, the involvement of G-protein has been studied. The IL-1 induction of CSF-1 synthesis can be inhibited by both Pertussis toxin and Cholera toxin, which are known to modify the Gᵢ and Gₛ proteins respectively, thus activating adenylate cyclase to release more cAMP. The toxin inactivation can be prevented by inhibitors of the ADP-ribosylation such as, benzamide and MBAMG. Addition of dibutyryl-cAMP inhibits the IL-1 induced CSF production. Both Theophylline and Forskolin which increase cAMP by inhibiting phosphodiesterase and stimulating adenylate cyclase respectively, also inhibit CSF-1 production. Results from these studies have shown that cAMP level inversely regulates the biosynthesis of CSF-1. Preincubation of MIA PaCa-2 cells with IL-1 and 5'- guanylylimidodiphosphate (GppNHp) prevents the inhibitory effect of pertussis toxin on CSF-1 production. These data are consistent with the hypothesis that IL-1 binds to its receptor and couples to Gᵢ∝ resulting in the inhibition of adenylate cyclase and reducing cAMP level. Lowering of the' cAMP level leads to the activation of CSF-1 gene expression. The activity of another inducer of CSF-1 production in this system, 12-0-tetradecanoylphorbol-13-acetate (TPA), can be abolished by 1- (5-isoquinolinesulfonyl)-2-methylpiperazine dihydrochloride (H-7), which is a specific inhibitor of protein kinase C. However, H-7 failed to inhibit IL-1 stimulated CSF-1 production. Other known activators of protein kinase C namely, Ca²⁺ and L-α-l-oleoyl-2-acetoyl-sn- 3-glycerol (OAG), also increase CSF production. On the other hand, Indomethacin which is known to inhibit prostaglandin E (PGE), stimulates CSF-1 production in MIA PaCa-2 cells. These data suggest that different mechanisms for stimulation of CSF-1 synthesis exist in MIA PaCa-2 cells depending on the inducer. The IL-1 stimulated pathway which does not require PKC activity and appears to be associated with adenylyl cyclase regulation whereas phorbol ester induced pathway involves protein kinase C in the signaling process as expected.

Colony-stimulating factor

Interleukin 1 stimulation

biosynthesis

Colony-stimulating factors (Physiology)

Biosynthesis.

The Effect of Statins on IL-33 Mediated Mast Cell Function

Taruselli, Marcela

01 January 2015

This study demonstrates original findings of statin effects on IL-33 stimulated mast cells. Statins are a class of drugs used to lower cholesterol production by targeting HMG CoA reductase. These commonly prescribed drugs have been shown to be immunomodulatory. In this study, we have found that pretreatment with statins has a variety of effects on IL-33 stimulated mast cells. Atorvastatin suppresses TNF and IL-6 production, while fluvastatin significantly enhances release of these proinflammatory cytokines in BMMCs. Although they have differing effects on cytokine production, both statins lowered ST2 expression on the cell surface, decreased cell viability, and enhanced expression of the transcription factor KLF2, a negative regulator of NFκB. Blocking isoprenylation by using geranylgeranyl transferase inhibitor, but not farnesyl transferase, mimicked the effects of atorvastatin, while neither mirrored the effect of fluvastatin. Furthermore, fluvastatin effects were not reversed by mevalonic acid, the product of HMG-CoA reductase. These data indicate that fluvastatin effects are distinct from its activities as an HMG CoA reductase inhibitor. Fluvastatin effects required the presence of stem cell factor (SCF), and were enhanced by increasing SCF concentrations. Finally, fluvastatin enhanced IL-33-induced cytokine production and neutrophil recruitment in vivo. Collectively, these data suggest that statins can alter the mast cell response, and that drug choice can have divergent effects on outcome.

Immunology

Mast cells

Fluvastatin

Atorvastatin

Interleukin 33

Immunity

Immunology and Infectious Disease

Medical Immunology

Effects of CXCL8 Overexpression on Tumor Cell Proliferation and Migration in an HNSCC Cell Model

Christofakis, Emil Paul

01 January 2007

Head and neck squamous cell carcinoma is the 6th most common malignancyworldwide. Recently, a link between cancer and inflammation has been found. Mediatingthis relationship are the chemotactic cytokines known as chemokines. CXCL8 (Interleukin-8), a CXC ELR+ Chemokine mainly responsible for neutrophil chemoattraction, has beenimplicated in increased tumor proliferation, migration and angiogenesis. The current studytests the effects of CXCL8 on the tumor proliferation and metastasis. By genetically modifying cells to knockdown or overexpress the CXCL8 gene we tested its biological rolein head and neck cancer progression. Overexpression of CXCL8 in HN4 tumor cells withlow endogenous CXCL8 levels was found to increase tumor growth, as judged by cellcounting and MTT assays. Conversely, RNAi-mediated knockdown of CXCL8 expressionin HN12 cells, which express high levels of this chemokine, resulted in a decrease inproliferation. Similarly, overexpression of CXCL8 enhanced migration of HN4 cells invitro, while knockdown inhibited HN12 cell migration and invasion through a basementmembrane substitute. Taken together, these findings support the hypothesis that CXCL8affects multiple processes involved in head and neck cancer tumor progression. The datasuggest that CXCL8 is a potential therapeutic target for head and neck, and other, cancers.

head anc neck cancer

cancer

chemokine

interleukin 8

CXCL8

Life Sciences

Physiology

Ultra-sensitive carbon based molecular sensors

Huang, Jingfeng

January 2015

This thesis presented the study of carbon-based materials for ultra-sensitive molecular sensing. Reduced Graphene Oxide (rGO), a 2-dimensional one-atomic layer thick carbon material, had the advantage of low-cost, aqueous and industrial-scalable production route. Using rGO as the transducer platform could potentially lower the cost of sensors down to a few dollars per chip. However, there were still limitations in rGO that prevented its widespread usage as a biosensor transducer or in electronics: its low electrical conductivity and large electrical deviations. This thesis was structured to understand and solve these problems for transducer application. The thesis could be broken down into 3 parts: The first part of the thesis presented the critical review of the background and limitations of graphene research, followed by the background and importance of biosensor developments for the detection of sweat sodium ions and circulatory Interleukin-6 proteins. The second part of the thesis tested the hypothesis that the rGO limitations could be eliminated to create a highly sensitive biosensor transducer via (A) improving rGO synthesis (B) pristine Carbon Nanotubes-rGO hybrid film and (C) growth of rGO. The mechanism of ultra-large graphene oxide synthesis and graphene oxide growth was also elucidated in this section. The third part of the thesis then presented the fabrication and test of the practical and homogenous carbon-based biosensor using the transducer synthesized earlier. The thesis showed that through proving the hypothesis correct, it enabled the synthesis of an all organic sodium ion sensor with integrated pump and an ultra-sensitive interleukin-6 bio-sensor. Both of these novel sensors were able to detect the respective molecules in their physiological ranges.

610.28

Etude des rôles des voies Notch et du couple IL-7 / IL-7R au cours des étapes précoces de la différenciation lymphoïde T chez l’Homme / Role of Notch an IL-7/IL-7R pathways during human T lymphoïd differentiation

Magri, Maymouna

29 March 2011

Nous avons au cours de notre travail de thèse tenté de préciser les outils nécessaires àamplifier le potentiel lymphocytaire T de précurseurs hématopoïétiques chez l’Homme. Aucours de la différenciation lymphoïde T deux facteurs semblent importants, Notch et l’IL7.Nous avons étudié le rôle de l’IL7 et de Notch au cours de la différenciation T humaine. Nousavons montré que seule l’IL7 est indispensable à la différenciation des thymocytes immatureshumains. L’activation de la voie Notch potentialise la survie et la prolifération induite parl’IL7 des CD34+TN et des CD4 ISP. Notch maintien l’expression de la chaîne α de l’IL7Rmalgré la présence de l’IL7. Une étude épigénétique a montré que Notch est capable d’induirela déméthylation du promoteur de l’IL-7Rα permettant son expression.Les résultats obtenus avec les cellules CD34+ de sang de cordon ont montré que Notch etnon l’IL7 était indispensable à la différenciation au moins dans les stades précoces. Lesdifférences entre les thymocytes et les CD34+ de sang de cordon ne semblent pas êtreexpliquées par une expression différente des récepteurs Notch. Le système de différenciationdes cellules CD34+ de sang de cordon permet aussi d’augmenter le potentiel T in vitro.Nos données confirment le rôle indispensable de Notch et de l’IL7 dans la différenciationT avec toutefois des implications différentes selon l’origine des précurseurs et du stade dedifférenciation. La poursuite de l’étude du rôle de ces deux signaux au cours de l’ontogénie Thumaine permettrait de définir les conditions de culture optimale à l’amplification dupotentiel T des précurseurs CD34+ dans une optique d’utilisation en thérapeutique humaine / In this work, we have attempted to define tools for amplifying the T lymphocyte potentialof hematopoietic precursor cells in man. Notch and IL7 are important factors for Tlymphocyte differentiation. We have studied the roles of IL7 and Notch during human T celldifferentiation. We have shown that only IL7 is essential for differentiation of humanimmature thymocytes. Notch pathway activation potentiates IL7 induced CD34+ TN and CD4ISP survival and proliferation. Notch maintains IL7Rαchain expression in spite of thepresence of IL7. Epigenetic study showed that Notch is able to induce IL7RαpromoterdemethylationOur results on cord blood CD34+ cells showed that Notch, but not IL7, was essential fordifferentiation, at least in early stages. Differences between thymocytes and cord blood cellsCD34+ cells do not seem to be accounted for by different Notch receptor expression. Inaddition, cord blood CD34+ cell differentiation system increases in vitro T lymphocytepotential.Our data confirm the essential role of Notch and IL7 in T cell differentiation, with somediffferences between these two factors according to precursor origin and differentiation stage.Continuation of this study on the role of these signals in human T cell ontogeny would help indefining optimal culture conditions fot T lymphocyte potential amplification from CD34+precursors, in the perspective of therapeutical use in man

Thymocytes

Notch

Interleukine 7

Différenciation

Prolifération

Survie

Thymocytes

Notch

Interleukin 7

Differentiation

Proliferation

Survival

Exprese interleukinu 20 a jeho význam u revmatoidní artritidy / The expression of interleukin 20 and its role in rheumatoid arthritis

Yadollahi, Benjamin

January 2013

Rheumatoid arthritis (RA) is a chronic autoimmune disease that is associated with formation of autoantibodies, activation of inflammatory cascade and up-regulation of several cytokines. These processes lead to persistent synovial inflammation, joint damage and systemic manifestations. The aim of this diploma thesis is to characterize the role of a novel cytokine interleukin-20 (IL-20) in the pathogenesis of RA and to investigate its involvement in different stages of the disease as a potential surrogate biomarker. In this work, several methods including Enzyme-Linked Immunosorbent Assay (ELISA), Immunohistochemistry and Real-Time quantitative Polymerase Chain Reaction (RT-qPCR) have been employed. We demonstrated increased expression of IL-20 in the synovial tissue of RA compared with control osteoarthritis (OA) patients. Along with the up-regulation at sites of inflammation, concentrations of IL-20 were higher in the synovial fluid compared with circulating levels of IL-20. Furthermore, serum and synovial fluid IL-20 levels significantly correlated with RA disease activity. Synthesis of IL-20 was significantly increased in peripheral blood mononuclear cells (PBMCs) and synovial fibroblasts upon stimulation with some TLR ligands and pro-inflammatory cytokines. Although not regulating PBMCs functions in...

Early life stress and its association with epigenetics and immune system response

Maj, El sharif

January 2017

Stress can induce prolonged deleterious effects on many characteristics in chickens (Gallus gallus). Particular interest has been paid to early life stress. Social isolation as an early life stressor results in increased plasma corticosterone levels. Moreover, it induces behavioural and physiological changes as well as gene expression modifications in the hypothalamus. In the first part of my study, I aim to inquire into social isolation impacts on the short and long-term. Short and long-term effects were assessed by immune system, behaviour and weight. 82 male chickens were assigned to three groups (stress, control and enrichment). The stress group was exposed to social isolation, the enrichment group was provided with enrichment substrates while the control group was left untreated. According to my knowledge, this is the first study that investigates the effects of social isolation on the interuleikn-6 levels as an indicator of immune system response. My findings suggest that social isolation induces short and long-term effects on immune response as well as on body weight. In the second part of my study, I aim to develop a method investigating effects of early stress on DNA methylation in blood and sperm. For this purpose, two methods GBS (Genotyping by sequencing) and MeDIP (Methylated DNA immuneprecipitation) were f using pooled DNA from all individuals for the first time. Moreover, I developed a protocol for extracting sperm DNA from frozen testis. Combining both methods has many advantages, such as cost effectiveness and the ability to evaluate epigenetic signatures in large number of individuals

DNA methylation

Epigenetic

GBS

Interleukin-6

MeDIP

Stress

social isolation

sperms

Behavioral Sciences Biology

Etologi

Analyse von Interleukin-10-Genvariationen bei diffus großzelligen B-Zell-Lymphomen / Analysis of Interleukin-10 gene variations in diffuse large B-cell lymphoma

Stächele, Julia

22 September 2016

No description available.

610

Interleukin-10

gene variations

diffuse large B-cell lymphoma

Le polymorphisme du promoteur de l'interleukine-10 et son rôle éventuel dans la maladie d'Alzheimer / Interleukin-10 promoter polymorphism and its possible role in alzheimer's disease

Asselineau, Delphine

20 June 2014

La maladie d'Alzheimer (MA) est une maladie neurodégénérative irréversible et progressive entraînant des troubles cognitifs et comportementaux. L'inflammation est caractéristique de la MA. L'interleukine-10 (IL-10), une cytokine anti-inflammatoire a été associée à un risque plus faible de développer la MA. Cependant le lien entre l'IL-10 et la progression de la MA n'a jamais été étudié. Le but de cette thèse a été d'étudier le rôle de l'IL-10 dans le développement ainsi que dans la progression de la MA. Pour mener à bien cette étude, 31 sujets atteints par la MA et 20 sujets contrôles cognitivement intacts ont été recrutés. En fonction de la vitesse de diminution du test de Mini-Mental State Examination et de l’évolution des troubles cognitifs sur deux ans, les patients souffrant de la MA ont été divisés en deux sous-groupes: les patients avec une progression lente (MA lent) et ceux avec une progression rapide (MA rapide). Les analyses se sont portées sur la concentration d’IL-10 en périphérie (plasma, production par les cellules mononuclées du sang périphérique (PBMCs) après stimulation par les peptides Aβ) ainsi que le polymorphisme de son promoteur en position -592, -819 et -1082. En complément, d’autres cytokines impliquées dans l’inflammation ont été étudiées : l’IL-6 (sa concentration plasmatique, sa production par les PBMCs à la suite d’une stimulation par les peptides Aβ et son polymorphisme en position -174) et les polymorphismes du TGF-β1 (-10 et - 25), de l’IFN-γ (-874) et du TNF-α (-308) ainsi que le gène de l'apolipoprotéine E (ApoE). Une étude de la longueur des télomères, liée à l’inflammation, a été aussi réalisée. Les résultats ont montré une association entre le génotype AA et l’allèle A du polymorphisme de l’IFN-γ en position -874 avec la progression rapide de la MA. Une augmentation statistiquement significative de la production d'IL-10 après stimulation par les peptides Aβ a été montrée chez les patients atteints avec une progression lente (MA lent). Une longueur significativement plus courte des télomères a été aussi associée aux patients MA lent. L’ensemble de ces travaux suggère qu’un profil de forte production de l’IL-10 ainsi qu’un profil génétique d’IFN-γ (TT -874) pourrait ralentir la progression de la MA. Il est aussi apparu que la longueur des télomères pourrait être un marqueur du déficit cognitif. Il est clair que ces résultats préliminaires ont besoin d’être confirmés par une étude de plus grande envergure, avec un nombre de patients plus élevé. / Alzheimer’s disease (AD) is an irreversible and progressive neurodegenerative disorder leading to cognitive and behavioral impairment. Inflammation is hallmark of AD although the exact mechanisms involved and the roles of the different inflammatory components are far less clear. Interleukin-10 (IL-10) is a key anti-inflammatory cytokine and IL-10 -1082 A > G polymorphism has been associated with a lower risk of developing AD although the link between IL-10 and the AD progression have never been studied. The aim of this study is to study the role of IL-10 in the risk of developing AD and its role in AD progression. In order to complete successfully this study, 31 AD patients and 20 cognitively intact controls were recruited. Depending of the rate of decrease of mini-mental state test examination (MMSE) and evolution of cognitive disorders, AD patients were divided in two subgroups: patients with slow progression (AD slow) and those with fast progression (AD fast). Analysis were focused on periphery concentration of IL-10 (plasma and and its production by peripheral blood mononuclear cells (PBMCs) after Aβ peptides stimulation) as well as its promoter polymorphism in position -592, -819 and -1082. In addition, other cytokines involved in inflammation were studied: IL-6 (its plasma concentration, its production by PBMCs following stimulation with Aβ peptides and its polymorphism at position -174) and polymorphisms of TGF-β1 (-10 to - 25), IFN-γ (-874) and TNF-α (-308) as well as the gene polymorphisms of Apolipoprotein E (ApoE). A study of telomere length, link to inflammation, was also performed. Results showed IFNγ -874AA genotype and -874A allele was associated with AD fast progression. A statistically significant increase of IL-10 production by PBMCs stimulated with Aβ peptides was shown in AD slow patients. A significantly shorter telomere length was also associated with AD slow patients. All of this work suggests that a profile with high IL-10 production and high IFN-γ (-874 TT) genotype could confer a slower AD progression. It was also found that telomere length may be a marker of cognitive impairment. It is clear that these preliminary results need to be confirmed in a larger study with a larger number of patients.

Maladie d'alzheimer

Interleukine-10

Interféron-γ

Inflammation

Single nucleotide polymorphism

Télomère

Alzheimer’s disease

Interleukin-10

616.83