CD8 T cell differentiation during immune responses

De Campos Pereira Lemos, Sara Sofia

23 May 2014

CD8 T cells are essential for the elimination of intracellular pathogens and tumor cells. Understanding how naïve CD8 T cells differentiate into effector cells capable of eliminating pathogens and to generate adequate memory cells during immune responses is fundamental for optimal T cell vaccine design. In this PhD thesis work we addressed two central questions: 1) What are the mechanisms by which early effector T cells could act as pro-inflammatory effectors? And what is their role in the immune response? 2) How heterogeneous are CD8 responses? Could different pathogens modulate CD8 T cell differentiation programs and be responsible for CD8 cell-to-cell heterogeneity? Could they also generate memory cells with different protection capacities? To address these questions related to the diversity of CD8 T cell differentiation during immune responses, we used the single cell RT-PCR technique to detect ex vivo expression of mRNA in each individual cell, and Brefeldin A injected mice to detect ex vivo intracellular proteins. As experimental system to evaluate in vivo cell activation we used T cell receptor transgenic (TCR-Tg) CD8 T cells. Since the use of TCR-Tg cells to study immune responses has been subjected to criticism (due to high frequency of naïve-precursor transfers), in a first Ms. we compared the behavior of TCR-Tg and endogenous (non-transgenic and present at low frequency) cells in the same mouse. We found fully overlapping behavior between these two cell populations, which reinforced the advantage of using TCR-Tg cells to study CD8 immune responses. In addition, we concluded that the frequency of naïve-precursors do not induce diversity on CD8 T cell differentiation patterns. In a second Ms. we evaluated the impact of different pathogens in the diversity of CD8 T cell properties during two different immune responses: OT1 TCR-Tg cells (specific for OVA antigen) in the response to LM-OVA (Listeria Monocytogenes expressing OVA) infection; and P14 TCR-Tg cells (specific for GP33 epitope) in the response to Lymphocytic choriomeningitis vírus (LCMV) infection. We found that OT1 and P14 cells had different properties. As this difference could also be attributed to the different TCR avidity between OT1 and P14 cells, we then compared the behavior of P14 and OT-1 cells in the same mouse, co-injected with LM-OVA and LM-GP33. Since no differences were then detected, these results demonstrated that priming with different pathogens generates CD8 T cells with different characteristics that are not determined by TCR usage, but rather by the infection context. In addition, when looking for the protection capacity of endogenous CD8 memory cells generated in bacterial or viral context, we found that memory cells generated after LCMV priming were more efficient in responding to a second challenge, than memory cells generated after LM-GP33 priming. We also found that this better protection is associated with a T cell effector memory (TEM) phenotype associated with the LCMV infection, in contrast with a T cell central memory (TCM) phenotype generated after LM-OVA infection. These results demonstrate that different pathogens are responsible for diversity of CD8 T cell differentiation patterns and that even when distinct pathogens are efficiently eliminated during the primary immune response the quality of the memory generated may differ. In a third Ms. we studied the mechanisms by which effector CD8 T cells attracted other cell types in the early days of an immune response. We used two experimental systems: the response of OT1 TCR-Tg cells to LM-OVA infection; and the response of anti-HY TCR-Tg cells to male cells ("sterile"-non infectious context). In both cases we found that immediately after activation, CD8 T cells expressed high levels of pro-inflammatory cytokines and chemokines (such as TNFα, XCL1, CCL3 and CCL4). (...)

[SDV:IMM] Life Sciences/Immunology

[SDV:IMM] Sciences du Vivant/Immunologie

CD8 T cell

Differentiation

Effector

Inflammatory

Memory

In vivo

Listeria Monocytogenes

LCMV

TCR-Transgenic cells

In-vitro Generation of potent T-lymphoid Progenitors in a feeder-cell-free DL-4 system

Reimann, Christian

19 November 2012

Human leukocyte antigen (HLA)-mismatched haematopoietic stem cell transplantation (HSCT) represents an important therapeutic option for patients lacking suitable donors. Delayed posttransplant immune recovery constitutes one of its major complications and is most pronounced in the T cellular compartment. A novel strategy to promote de novo thymopoiesis from donor derived HSCs and to accelerate T cellular reconstitution in patients after HSCT consists in the adoptive transfer of in vitro generated T cell progenitor cells. Identification of Notch1 as the key regulator of early T-lineage development has allowed the generation of Notch ligand-based culture systems, which provide a powerful tool to generate T-lymphoid progenitors in vitro. The efficacy of murine T-lymphoid progenitors to promote T cell reconstitution has been well demonstrated in conventional mouse models. In consistency, in vitro-generated human T cell progenitors were demonstrated to promote thymic recovery in humanized mice. Yet, positive effects of in vitro generated human T cell precursors on peripheral T cell reconstitution have not been demonstrated. Moreover currently used Notch-based co-culture systems consist of genetically modified murine cell lines. With view to establishing a clinically applicable system, feeder-cell-free Notch-ligand culture systems for the generation of T-lymphopoietic progenitors are warranted. During my PhD project I developed a new culture system based on the immobilized Notch ligand Delta-like-4 (DL-4). Exposure of human CD34+ cord blood cells to immobilized DL-4 enabled the in vitro generation of high number of T cell progenitors, which harboured the phenotype of immature early thymic progenitor cells (ETP) and prothymocytes (proT). ETP and proT cell generated during DL-4 culture upregulated essential genes involved in early T-lymphoid development (i.e. IL7Rα, PTα, RAG1 and BCL11b) and had undergone stage-specific recombination of the T cell receptor (TCR) locus in a similar way as in native human thymopoiesis. In limiting dilution analysis after secondary OP9/DL-1 co-culture, DL-4 progenitors displayed a highly increased T-lymphoid potential, which could be entirely attributed to the ETP and proT subset. When transferred into NOD/SCID/γc-/- mice, DL-4 primed T cell progenitors migrated to the thymus and accelerated intrathymic T cell differentiation and emergence of functional, mature and polyclonal αβ T cells in the periphery. In a co-transplantation approach, which more closely mimics a clinical setting, DL-4 progenitors and untreated CD34+ cells from HLA-disparate donors were simultaneously injected in the same recipient. This procedure allowed even more rapid and more robust T cell reconstitution. HLA-tracking of the distinct graft sources further showed, that DL-4 progenitors specifically reconstituted the T-lymphoid compartments. This work provides further evidence for the ability of in vitro-generated human T cell progenitors to promote de novo thymopoiesis and shows for the first time, that these cells accelerate peripheral T cell reconstitution in humanized mice. The availability of the efficient feeder-cell-free DL-4 culture technique represents an important step towards the future clinical exploitation translation of in vitro generated T-lymphoid progenitor cells to improve posttransplant immune reconstitution

T cell development

T-lymphoid progenitor cells

Notch1

DL-4 protein

Immunereconstitution after HSCT

M-DC8+ Leukocytes – A Novel Human Dendritic Cell Population

Schäkel, Knut, Poppe, Claudia, Mayer, Elfriede, Federle, Christine, Riethmüller, Gert, Rieber, Ernst Peter

26 February 2014

Dendritic cells (DC) constitute a heterogeneous leukocyte population having in common a unique capacity to induce primary T cell responses and are therefore most attractive candidates for immunomodulatory strategies. Two populations of blood DC (CD11c+ CD123dim and CD11c– CD123high) have been defined so far. However, their direct isolation for experimental purposes is hampered by their low frequency and by the lack of selective markers allowing large scale purification from blood. Here we describe the monoclonal antibody (mAb) M-DC8, which was generated by immunizing mice with highly enriched blood DC. This mAb specifically reacts with 0.2–1% of blood leukocytes and enables their direct isolation by a one-step immunomagnetic procedure from fresh mononuclear cells. These cells can be differentiated from T cells, B cells, NK cells and monocytes using lineage-specific antibodies. M-DC8+ cells express HLA class II molecules, CD33 and low levels of the costimulatory molecules CD86 and CD40. Upon in vitro culture M-DC8+ cells spontaneously mature into cells with the phenotype of highly stimulatory cells as documented by the upregulation of HLA-DR, CD86 and CD40; in parallel CD80 expression is induced. M-DC8+ cells display an outstanding capacity to present antigen. In particular, they proved to be excellent stimulators of autologous mixed leukocyte reaction and to activate T cells against primary antigens such as keyhole limpet hemocyanin. Furthermore, they induce differentiation of purified allogeneic cytotoxic T cells into alloantigen-specific cytotoxic effector cells. While the phenotypical analysis reveals similarities with the two known blood DC populations, the characteristic expression of Fc=γRIII (CD16) and the M-DC8 antigen clearly defines them as a novel population of blood DC. The mAb M-DC8 might thus be a valuable tool to determine circulating DC for diagnostic purposes and to isolate these cells for studies of antigen-specific T cell priming. / Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

menschliches Blut

Zellmarker

dendritische Zelle

T-Zellen

Priming

Dendritic cell

Cell marker

Human blood

T cell priming

ddc:610

ddc:570

rvk:XA 10000

rvk:WA 15000

CD8+FoxP3+ T cells: A new player in the immune response to ovarian cancer

Kost, Sara E. F.

28 November 2013

Introduction Tumour-infiltrating lymphocytes (TIL) are an important prognostic indicator in high-grade serous ovarian carcinoma (HGSC). Certain types of TIL (in particular CD8+ effector T cells) predict better outcomes, whereas others (most notably CD4+CD25+FoxP3+ regulatory T cells; Tregs) predict worse outcomes. An unconventional subset of CD8+FoxP3+ T cells has been reported to be involved in autoimmunity and in immune response to several cancers. While the functional significance of CD8+FoxP3+ TIL remains poorly understood, they were associated with effective anti-tumour responses in a murine tumour model. Hypothesis CD8+FoxP3+ TIL are present in a subset of cases of HGSC and correlate with a strong immune response and increased patient survival. Experimental Design Multi-colour immunohistochemistry (IHC) was performed on a cohort of 44 primary HGSC specimens to enumerate and locate CD8+FoxP3+ TIL in comparison to CD8+FoxP3- and CD8-FoxP3+ TIL. Triple-colour IHC methodology was developed to further assess the phenotype of CD8+FoxP3+ TIL, including the measurement of additional markers CD4 and CD25 (classical markers of Tregs), Ki-67 (a marker of proliferation), and TIA-1 (a marker of cytotoxic potential). Intraepithelial versus stromal location was determined by staining adjacent sections for the epithelial marker pan-cytokeratin. Survival analysis was performed using a cohort of 188 cases of HGSC. Multi-colour staining was resolved using the Nuance™ multispectral imaging system in conjunction with Metamorph™ software. Survival analysis was performed using Kaplan-Meier and log rank tests. Results CD8+FoxP3+ cells were found in 60% of 44 cases of HGSC, in variable proportions ranging from 0.2 - 7.9% of CD8+ TIL and 0.5 – 12.7% of FoxP3+ TIL. CD8+FoxP3+ TIL were found to be either CD4+ (38.8%) or CD4- (61.2%). The majority of CD8+FoxP3+ TIL were also found to be CD25-TIA-1+Ki-67-, more closely resembling their CD8+FoxP3- counterparts. CD8+FoxP3+ TIL were found mainly in intraepithelial regions and were positively associated with patient survival (progression free survival; P = 0.0396). Conclusions CD8+FoxP3+ TIL are a component of the host immune response to HGSC. They appear to have a non-proliferative effector phenotype, consistent with an active role in the anti-tumour response. CD8+FoxP3+ TIL are associated with increased patient survival. An improved understanding of this new TIL subset may inform future immunotherapeutic strategies for this challenging malignancy. / Graduate / 0982 / sarakost@hotmail.com

Immunology

Cancer

T regulatory cell

Cytotoxic T cell

CD8+FoxP3+ T cells

Multi-colour Immunohistochemistry

Ovarian cancer

FoxP3

Tumour infiltrating lymphocytes

The structural basis of immune receptor signalling

Hamer, Rebecca K.

January 2008

This work investigates the mechanisms of binding of T cell receptors (TCRs) to Class I MHC-peptide complexes (pMHC). The structure of a TCR specific for the Melan-A tumour antigen bound to its cognate pMHC was solved to a resolution of 2.5 Å which gives insight into how this TCR could be mutated to optimize binding and subsequently used as a cancer vaccine. Detailed sequence and geometric analyses of all currently available structures of Class I TCR-pMHC complexes revealed that TCRs can bind to pMHC with a range of orientations, yet always focus on the central portion of the peptide and use a specific subset of six residues on the MHC helices for binding. The most striking finding was the use of aromatic residues in the TCR CDR loops to bind to residue Q155 on the MHC α2 helix. Attempts were also made to express and purify Toll-like receptors (TLRs) with the aim of solving one or more of these structures. However, despite testing of over 50 different constructs from 12 different TLRs or associated proteins, insufficient soluble protein expression was obtained for crystallization trials. Finally, a protein disorder prediction tool was developed to aid construct design for structural biology studies and improve the chances of obtaining protein crystals. This tool is based on a novel type of neural network and blind tests comparing it to 8 other disorder prediction tools showed it is one of the best in the field. It is freely available at www.strubi.ox.ac.uk/RONN. Analysis of large datasets revealed that the position of order/disorder transitions is quite precisely defined in amino-acid sequences and that transition regions have an amino acid composition distinct from that of bulk ordered and disordered sequences. There is a steady decrease in order-promoting residues on the ordered side of boundaries as well as a weak sequence signal, both of which signify the approaching disorder and may prove useful for improving existing disorder prediction tools.

571.966

Primary T cell immunodeficiencies associated with disturbed proximal T cell receptor signalling caused by human autosomal recessive LCK, ZAP-70 and ITK-mutations

Hauck, Fabian

12 November 2013

T lymphocytes express either a preTCR, or a clonotypic γδ TCR or αβ TCR together with the CD3-complex and the associated ζ-chain. TCR:CD3:ζ-signalling is crucial for T cell development and antigen-specific activation including proliferation, differentiation, effector functions and apoptosis of mature T cells. Protein tyrosine kinase (PTK) cascades lie at the heart of proximal TCR:CD3:ζ-signalling. The CSK-, SRC-, SYK- and TEC-family members C-terminal SRC kinase (CSK), lymphocyte-specific protein tyrosine kinase (LCK), ζ-chain associated protein tyrosine kinase of 70 kDa (ZAP-70) and interleukin-2-inducible T cell kinase (ITK), respectively, are the major T cell players. After TCR:CD3:ζ-complex triggering, activation of PTKs results in tyrosine phosphorylation signals. These include phosphorylation of immunoreceptor tyrosine-based activation motifs (ITAMs) of the CD3 and ζ-chains, and adaptor proteins that nucleate the proximal LAT:SLP-76-signalosome controlling almost all TCR:CD3:ζ-induced signalling events. These events initiate Ca2+-flux, activation of mitogen-activated protein kinases (MAPKs), activation of nuclear factor of kappa light polypeptide gene enhancer in B-cells (NF-κB), activation of nuclear factor of activated T cells (NFAT) and activator protein 1 (AP-1) as well as actin reorganization, cell-adhesion and motility. Throughout the last five decades, the immune system has been extensively investigated in vitro and in animal models such as the murine system. Additionally, studying and taking care of human primary immunodeficiency diseases (PIDs) has been seminal for our understanding of the human immune system as animal models not always recapitulate the subtleties found in men. In my doctoral thesis I report the first case of autosomal recessive human LCK-deficiency, a novel autosomal recessive mutation leading to human ZAP-70-deficiency and a novel autosomal recessive mutation leading to human ITK-deficiency. I provide detailed clinical, immunological and biochemical analyses especially of TCR:CD3:ζ-signalling and compare my findings to the well-established Lck-/-, Zap-70-/- and Itk-/- murine models.

PID

SCID

CID

TCR

T cell

Lck

Zap-70

Itk

Kinetic analysis of Fcγ receptor and T cell receptor interacting with respective ligands

Jiang, Ning

12 August 2005

Low affinity Fcg receptor III (FcgRIII, CD16) triggers a variety of cellular events upon binding to the Fc portion of IgG. A real-time flow cytometry method was developed to measure the affinity and kinetics of such low affinity receptor/ligand interactions, which was shown as an easily operated yet powerful tool. Results revealed an unusual temperature dependence of reverse rate of CD16aTM dissociating from IgG. Except for a few studies using mammalian cell CD16s, most kinetics analyses use purified aglycosylated extracellular portion of the molecules, making it impossible to assess the importance of the receptor anchor and glycosylation on ligand binding. We used a micropipette adhesion frequency assay to demonstrate that the anchor length affects the forward rate and affinity of CD16s for IgG in a species specific manner, most likely through conformational changes. Receptor glycosylation dramatically reduced ligand binding by 100 folds. T cell receptor (TCR) is arguably the most important receptor in the adaptive human immune system. Together with coreceptor CD4 or CD8, TCR can discriminate different antigen peptides complexed with major histocompatibility complex (MHC) molecule (pMHC), which differ by as few as only one amino acid, and trigger different T cell responses. When T cell signaling was suppressed, TCR had similar affinity and kinetics for agonist and antagonist pMHC whose binding to CD8 was undetectable. TCR on activated T cell had a higher affinity for pMHCs, suggesting that TCRs organize themselves differently on activated T cells than on naïve T cells. In the absence of inhibitors for signaling, TCR binds agonist pMHC with several orders of magnitude higher affinity than antagonist pMHC. In addition, engagement of TCR by pMHC signals an upregulation of CD8 binding to pMHC, which is much stronger than the TCR-pMHC binding. The transition from weak TCR binding to the strong CD8 binding takes place around 0.75 second after TCR in contact with pMHC and can be reduced by several inhibitors of tyrosine and lipid phosphorylation, membrane rafts, and actin cytoskeleton. These results provide new insights to understanding T cell discrimination.

Fc receptor

Cell signaling

CD8

T cell receptor

Kinetics

Receptor ligand binding

Ligands (Biochemistry)

Cell receptors

T cells Receptors

Receptor-ligand complexes

Ligand binding (Biochemistry)

Exploration of Conditions Affecting Cytokine Production in Experimental Type 1 Diabetes Mellitus

Thorvaldson, Lina

January 2007

Cytokines are soluble signalling mediators within the immune system, and have been shown to be of importance in the development of type 1 diabetes (T1D). This thesis studied the production of cytokines in experimental models of T1D and during transplantation of insulin-producing islets of Langerhans. We have demonstrated that the transcriptional TNFα-inhibitor MDL 201,449A, previously shown to reduce immune-mediated diabetes induced in mice by multiple low doses of streptozotocin, was not TNFα-specific, but also inhibited IFNγ and IL-10 in spleen cells. Furthermore, when the inhibitor was removed from in vitro cultures, a rebound phenomenon of increased cytokine secretion occurred. The thesis also investigated whether plastic adhesion, a method generally employed to deplete macrophages, influenced cytokine production in spleen cells. We observed that plastic adhesion increased TNFα, IFNγ and IL-10 release, and decreased IL-4 secretion. Plastic adhesion depleted only ~30% of the macrophages, but as much as ~60% of the regulatory T cells. Thirdly, we found that “control” treatments for islet transplantations, i.e. syngeneic and sham transplantations, exerted a clear effect on cytokine production from spleen cells, possibly due to a decrease in regulatory T cells that may be caused by the surgery and/or anaesthesia. Moreover, spleen cells from mice exposed to surgery exhibited a decreased proliferative capacity to concanavalin A stimulation. We also perceived a marked difference in cytokine response depending on the mouse strain used in the experiments. Finally, we aimed to elucidate if, besides autoimmune activities, also high glucose- and free fatty acid concentrations as seen in diabetes could cause changes in cytokine production. We observed that spleen cells cultured in varying glucose concentrations had different cytokine production profiles. The free fatty acid palmitate might also influence cytokine release, but this effect was obscured by the cytokine-suppressive action of the ethanol used to dissolve the palmitate.

Cell biology

Cytokine

Diabetes

Tumor necrosis factor-α

Interferon-γ

Interleukin-4

Interleukin-10

Transplantation

Pancreatic islet

Glucose

Regulatory T cell

Cellbiologi

Immune regulation in mouse models of allergic asthma

Su, Yung-Chang, University of New South Wales & Garvan Institute of Medical Research. St. Vincent's Clinical School, UNSW

January 2006

Allergic asthma is an immunological disease, mediated by CD4+ Th2 cells, and its prevalence has increased over recent decades. Features of allergic asthma include airway hyperresponsiveness (AHR), airway eosinophilia, excessive airway mucus production, and increased IgE and Th2 cytokine levels. Airway remodeling with pulmonary fibrosis is noted in the progress of asthma. In this thesis, a murine model of allergic asthma was used to investigate the effect of cyclophosphamide (CY) on asthma and the involvement of regulatory T cells (Treg), and the role of Granulocyte-macrophage colony stimulating-factor (GM-CSF) in allergic asthma by using GM-CSF knockout mice. CY is a cytotoxic agent, which paradoxically augments several immune responses. The first part of this thesis was aimed to study the effects of CY in a murine model of allergic airway inflammation. BALB/c mice were immunized with ovalbumin (OVA) on days 0 and 14, and challenged with aerosolized OVA from days 21 to 27. Some mice additionally received CY on days -2 and 12. In the CY-treated animals, pronounced worsening of inflammatory features was noted, including increases in eosinophil infiltration, epithelial thickness, mucus occlusion and eosinophil numbers in bronchoalveolar lavage fluid (BALF). Increased total and OVA-specific serum IgE were also noted in the CY-treated animals. In cell cultures from peritracheal lymph nodes, the Th2 cytokines IL-4 and IL-5 were elevated in animals treated with CY. It was hypothesized that the effects of CY could be caused by reduced immunosuppression mediated by Treg. mRNA expression of the immunosuppressive cytokines IL-10 and TGF-beta was reduced in the lungs of CY-treated mice. The expression of FoxP3, a marker of naturally occurring Treg, was significantly reduced in spleens, thymuses and peritracheal lymph nodes after the second injection of CY, and in the lung tissue after allergen challenge in CY-treated mice. Furthermore, lung IL-10-producing CD4+ T cells and CTLA-4+-bearing CD4+ T cells were reduced after allergen aerosol challenge in CY-treated mice. Thus CY worsened the features of allergic pulmonary inflammation in this model, in association with increased production of IgE and Th2 cytokines. The reduction in expression of FoxP3 and immunosuppressive cytokines by CY suggests that toxicity to Treg may contribute to the increased inflammation. GM-CSF plays a role in the growth, development, and maturation of bone marrow hemopoietic cells into mature blood cells, and has been proposed to be involved in potentiating the function of inflammatory cells in allergic inflammation. In the second part of this thesis, GM-CSF knockout (KO) mice were used to investigate the role of GM-CSF. In allergic KO mice, airway eosinophils were only shown in the perivascular, but not peribronchial areas in the lung, compared to the allergic wild-type (WT) mice in which eosinophil infiltration appeared in both areas. Eosinophil numbers were drastically reduced in the bronchoalveolar lavage fluid (BALF) of KO mice. IL-5 production in the lung tissue and BALF in allergic KO mice was reduced; similar results were also found in peritracheal draining lymph nodes after in vitro stimulation assays. However, IL-4 and IL-13 production, airway hyperresponsiveness (AHR), and serum IgE production were not affected in allergic KO mice. Surprisingly, lung IFN-gamma mRNA and BALF levels were increased in allergic KO mice. Lung mRNA levels of CCR3, a key chemokine receptor on eosinophils, were significantly reduced in allergic KO mice, whereas expression of the chemokines eotaxin and RANTES were at similar levels in allergic KO and WT mice. Lung mRNA levels of the IFN-gamma-inducible chemokines Mig (CXCL9) and IP-10 (CXCL10), which are antagonists of CCR3, and their receptor CXCR3 were increased in allergic KO mice, compared with allergic WT mice. Data obtained from flow cytometry showed more eosinophils survived in the lung of WT mice than KO mice. Another allergy model, a peritoneal allergy model was performed to investigate inflammation in a different model. Leukocyte subpopulations such as neutrophils, eosinophils, macrophages, and lymphocytes were reduced in the peritoneal lavage fluid of allergic KO mice. The findings revealed that GM-CSF is essential for IL-5 production, pulmonary airway eosinophilia and eosinophil survival. In the absence of GM-CSF, over-production of IFN-???? may induce chemokines, including Mig and IP-10, which are antagonists for CCR3 and may reduce airway eosinophil infiltration. In this thesis, a murine model of allergic asthma has been used to obtain novel findings on the regulation of allergic inflammation. The results with CY are relevant to the treatment of asthma patients with CY and other cytotoxic agents. The findings in the GM-CSF KO mice suggest that GM-CSF is a potential therapeutic target in asthma, and that in assessment of new therapeutic agents for asthma, effects on GM-CSF should be considered.

Asthma

eosinophil

IgE

cyclophosphamide

IL-4

IL-5

IL-10

TGF-beta

regulatory T cell

GM-CSF

chemokine

CCR3

eotaxin

RANTES

IP-10

Mig

Calmodulin mediated regulation of NF-kappaB in lymphocytes /

Edin, Sofia,

January 2008

Diss. (sammanfattning) Umeå : Univ., 2008. / Härtill 4 uppsatser.