SAG2A protein from Toxoplasma gondii interacts with both innate and adaptive immune compartments of infected hosts

Abstract Background Toxoplasma gondii is an intracellular parasite that causes relevant clinical disease in humans and animals. Several studies have been performed in order to understand the interactions between proteins of the parasite and host cells. SAG2A is a 22 kDa protein that is mainly found in the surface of tachyzoites. In the present work, our aim was to correlate the predicted three-dimensional structure of this protein with the immune system of infected hosts. Methods To accomplish our goals, we performed in silico analysis of the amino acid sequence of SAG2A, correlating the predictions with in vitro stimulation of antigen presenting cells and serological assays. Results Structure modeling predicts that SAG2A protein possesses an unfolded C-terminal end, which varies its conformation within distinct strain types of T. gondii. This structure within the protein shelters a known B-cell immunodominant epitope, which presents low identity with its closest phyllogenetically related protein, an orthologue predicted in Neospora caninum. In agreement with the in silico observations, sera of known T. gondii infected mice and goats recognized recombinant SAG2A, whereas no serological cross-reactivity was observed with samples from N. caninum animals. Additionally, the C-terminal end of the protein was able to down-modulate pro-inflammatory responses of activated macrophages and dendritic cells. Conclusions Altogether, we demonstrate herein that recombinant SAG2A protein from T. gondii is immunologically relevant in the host-parasite interface and may be targeted in therapeutic and diagnostic procedures designed against the infection.

Zearalenone, an estrogenic mycotoxin, is an immunotoxic compound

The aim of this study was to assess the toxic effects of zearalenone (ZEA) on the immune function. Ovariectomised rats were treated daily by gavage with 3.0 mg/kg of ZEA for 28 days. Body weight gain, food consumption, haemotological parameters, lymphoid organs, and their cellularities were evaluated. Moreover, acquired immune responses and macrophage activity were also assessed. ZEA promoted reduction in body weight gain, which is not fully explained by diminished food consumption. Despite no effect on haematological parameters, ZEA caused thymic atrophy with histological and thymocyte phenotype changes and decrease in the B cell percentage in the spleen. With respect to acquired and innate immune responses, no statistically significant differences in delayed-type hypersensitivity were noticed; however, in the ZEA-treated rats, antibody production and peroxide release by macrophages were impaired. The observed results could be related to ZEA activity on ERs; thus, ZEA is an immunotoxic compound similar to estrogen and some endocrine disruptors.

In vivo assessment of specific cytotoxic T lymphocyte killing

The direct killing of target cells by cytotoxic T lymphocytes (CTLs) plays a fundamental role in protective immunity to viral, bacterial, protozoan and fungi infections, as well as to tumor cells. In vivo cytotoxic assays take into account the interaction of target and effector cells in the context of the proper microenvironment making the analysis biologically more relevant than in vitro cytotoxic assays. Thus, the development, improvement and validation of in vivo methods are necessary in view of the importance of the results they may provide. We describe and discuss in this manuscript a method to evaluate in vivo specific cytotoxic T lymphocyte killing. We used as model system mice immunized with human recombinant replication-deficient adenovirus 5 (HAd5) containing different transgenes as the trigger of a CTL-mediated immune response. To these mice, we adoptively transferred syngeneic cells labeled with different vital fluorescent dyes. Donor cells were pulsed (target) or not (control non-target) with distinct CD8 T-cell epitopes, mixed in a 1:1 ratio and injected i.v. into immunized or non-immunized recipient mice. After 18-24h, spleen cells are collected and analysed by flow cytometry. A deviation from the 1:1 ratio of control and target cell populations indicates antigen specific lysis of target cells

Maturation of humoral immune responses : Studies on the effects of antigen type, apoptosis and age

The humoral immune response is dependent on the formation of antibodies. Antibodies are produced by terminally differentiated B cells, plasma cells. Plasma cells are generated either directly from antigen challenged B cells, memory cells or from cells that have undergone the germinal center (GC) reaction. The GC is the main site for class switch, somatic hypermutation and generation of memory cells. Different factors, both internal and external, shape the outcome of the immune response. In this thesis, we have studied a few factors that influence the maturation of the humoral response. We have studied how age affects the response, and we show that responses against thymus dependent antigens (TD) are more affected than responses to thymus independent (TI) antigens, in concordance with the view that the T cell compartment is more affected by age than the B cell compartment. Furthermore, we demonstrate that priming early in life have a big influence on the immune response in the aged individual. Priming with a TI form of the carbohydrate dextran B512 (Dx) induces a reduction of IgG levels in later TD responses against Dx. We have evaluated possible mechanisms for this reduction. The reduction does not seem to be caused by clonal exhaustion or antibody mediated mechanisms. We also showed that the reduced TD response after TI priming can be induced against another molecule than Dx. With the hypothesis that TI antigens induce a plasma cell biased maturation of the responding B cells, we examined the presence of Blimp-1, a master regulator of plasma cell differentiation, in GCs induced by TD and TI antigen. Blimp-1 was found earlier in GCs induced by TI antigen and the staining intensity in these GCs was stronger than in TD antigen induced GCs, indicating that plasma cells might be continuously recruited from these GCs. B cells undergoing the GC reaction are thought to be under a strict selection pressure that removes cells with low affinity for the antigen and also cells that have acquired self-reactivity. We investigated the effect of apoptotic deficiencies on the accumulation of somatic mutations in GC B cells. In mice lacking the death receptor Fas, lpr mice, the frequency of mutations was increased but the pattern of the mutations did not differ from wild type mice. In contrast, mice over-expressing the anti-apoptotic protein Bcl-2, had a lowered frequency of mutations and the mutations introduced had other characteristics.

Mechanism of resistance to tyrosine kinase inhibitors in philadelphia-positive acute lymphblastic leukaemia (all): from genetic alterations to impaired RNA editing

The Ph chromosome is the most frequent cytogenetic aberration associated with adult ALL and it represents the single most significant adverse prognostic marker. Despite imatinib has led to significant improvements in the treatment of patients with Ph+ ALL, in the majority of cases resistance developed quickly and disease progressed. Some mechanisms of resistance have been widely described but the full knowledge of contributing factors, driving both the disease and resistance, remains to be defined. The observation of rapid development of lymphoblastic leukemia in mice expressing altered Ikaros (Ik) isoforms represented the background of this study. Ikaros is a zinc finger transcription factor required for normal hemopoietic differentiation and proliferation, particularly in the lymphoid lineages. By means of alternative splicing, Ikaros encodes several proteins that differ in their abilities to bind to a consensus DNA-binding site. Shorter, DNA nonbinding isoforms exert a dominant negative effect, inhibiting the ability of longer heterodimer partners to bind DNA. The differential expression pattern of Ik isoforms in Ph+ ALL patients was analyzed in order to determine if molecular abnormalities involving the Ik gene could associate with resistance to imatinib and dasatinib. Bone marrow and peripheral blood samples from 46 adult patients (median age 55 yrs, 18-76) with Ph+ ALL at diagnosis and during treatment with imatinib (16 pts) or dasatinib (30 pts) were collected. We set up a fast, high-throughput method based on capillary electrophoresis technology to detect and quantify splice variants. 41% Ph+ ALL patients expressed high levels of the non DNA-binding dominant negative Ik6 isoform lacking critical N-terminal zinc-fingers which display abnormal subcellular compartmentalization pattern. Nuclear extracts from patients expressed Ik6 failed to bind DNA in mobility shift assay using a DNA probe containing an Ikaros-specific DNA binding sequence. In 59% Ph+ ALL patients there was the coexistence in the same PCR sample and at the same time of many splice variants corresponded to Ik1, Ik2, Ik4, Ik4A, Ik5A, Ik6, Ik6 and Ik8 isoforms. In these patients aberrant full-length Ikaros isoforms in Ph+ ALL characterized by a 60-bp insertion immediately downstream of exon 3 and a recurring 30-bp in-frame deletion at the end of exon 7 involving most frequently the Ik2, Ik4 isoforms were also identified. Both the insertion and deletion were due to the selection of alternative splice donor and acceptor sites. The molecular monitoring of minimal residual disease showed for the first time in vivo that the Ik6 expression strongly correlated with the BCR-ABL transcript levels suggesting that this alteration could depend on the Bcr-Abl activity. Patient-derived leukaemia cells expressed dominant-negative Ik6 at diagnosis and at the time of relapse, but never during remission. In order to mechanistically demonstrated whether in vitro the overexpression of Ik6 impairs the response to tyrosine kinase inhibitors (TKIs) and contributes to resistance, an imatinib-sensitive Ik6-negative Ph+ ALL cell line (SUP-B15) was transfected with the complete Ik6 DNA coding sequence. The expression of Ik6 strongly increased proliferation and inhibited apoptosis in TKI sensitive cells establishing a previously unknown link between specific molecular defects that involve the Ikaros gene and the resistance to TKIs in Ph+ ALL patients. Amplification and genomic sequence analysis of the exon splice junction regions showed the presence of 2 single nucleotide polymorphisms (SNPs): rs10251980 [A/G] in the exon2/3 splice junction and of rs10262731 [A/G] in the exon 7/8 splice junction in 50% and 36% of patients, respectively. A variant of the rs11329346 [-/C], in 16% of patients was also found. Other two different single nucleotide substitutions not recognized as SNP were observed. Some mutations were predicted by computational analyses (RESCUE approach) to alter cis-splicing elements. In conclusion, these findings demonstrated that the post-transcriptional regulation of alternative splicing of Ikaros gene is defective in the majority of Ph+ ALL patients treated with TKIs. The overexpression of Ik6 blocking B-cell differentiation could contribute to resistance opening a time frame, during which leukaemia cells acquire secondary transforming events that confer definitive resistance to imatinib and dasatinib.

Profilo molecolare dei linfomi post-trapianto

Fifty-two cases of monomorphic post-transplant lymphoproliferative disorders (M-PTLD), developed in patients undergone solid organ or bone marrow transplantation, were studied by the application of the tissue micro-array (TMA) technology. They included 50 cases of diffuse large B-cell lymphomas (DLBCL) and 2 Burkitt lymphomas (BL). In order to evaluate the immune-profile a large panel of antibodies was applied including several new markers (Cyclin D2, Cyclin D3, p27, PKC-β, FOXP-1 and Survivin) identified as negative prognostic factors in DLBCL of the immunocompetent patient. Out of 50 DLBCL, 23 cases (46%) had an Activated B Cell (ABC) phenotype, 8 (16%) a Germinal Centre B-cell (GCB) phenotype, and 11 (22%) an Unclassified (UC) phenotype. In 8 cases (16%) the subtype was not demonstrable due to sub-optimal preservation or loss of the tissue core. FISH analysis detected BCL2 gene amplification and MYC rearrangement. EBV was identified in 32 cases (64%) performing immunohistochemistry (LMP-1) and in situ hybridization (EBER). Clinical data and follow-up were available in all cases of malignant lymphomas but one. Thirty-two patients died for progression of disease or complications related to transplant (bleeding, bacterial infections, and multi-organ failure); 17 patients are actually alive and disease-free. M-PTLD are aggressive lymphomas characterized by very poor outcome. The neoplastic process is stimulated by a prolonged immunosuppressive status which is capable to induce alterations of the immune system and allow EBV reactivation in previously infected patients. Indeed EBV infection seems to be the most significant risk factor to predict the development of a PTLD while age, sex, site of involvement and type of transplant do not have significant correlation. Furthermore DLBCL arisen in a setting of immunodeficiency share phenotypic and molecular features with DLBCL of the immunocompetent patient. In particular, the former shows a high incidence of BCL2 gene amplification and this aberration typically correlates with “non-GCB” phenotype. Also M-PTLD do express prognostic markers (PKC-β, cyclin D2, FOXP-1, and Survivin): notably, in our study, PKC-β and FOXP-1 were frequently expressed and they were predictive of a shorter overall survival even in lymphomas recognized to have a good prognosis (GCB-type). Given the fact that such molecules are detectable at the time of the diagnosis, we postulate whether a “tailored” or more specific therapy might be applied in the management of the immune-compromised patient.

Synthese und radioaktive Markierung potentieller PET- bzw. SPECT-Liganden zur Quantifizierung und Visualisierung der pankreatischen beta-Zell-Masse

Abstract Due to the ongoing efforts in transplanting b-cell mass there is also a great medical interest in specific b-cell imaging agents to quantify the acceptance of transplanted islets in humans in vivo. Additionally, in the context of type 1 diabetes mellitus the chronic and progressive loss of b-cells caused by autoimmune destruction has led to concerted efforts to prevent further loss of b-cells by autoantigen-specific immunotherapy of pre-diabetic patients. nateglinide and glibenclamide are SUR1 ligands used to stimulate insulin secretion in type 2 diabetic patients. They bind to a class of molecules known as the ATP-sensitive potassium channels, located on the insulin producing b-cells of the islets of Langerhans and are therefore excellent candidates as b-cell specific tracers. To obtain a precursor for a direct labelling of nateglinide with [18F]fluoride, the aromatic system of the phenylalanine structure element was derivatised to obtain a phenolic OH-group in 4-position which is capable of further derivatisation. The formed phenylether N-(trans-4-isopropylcyclohexanecarbonyl)-O-(2-hydroxyethyl)-D-tyrosin benzylester was tried to be tosylated according to several literature procedures but none of them was applicable. The catalytic influence of ytterbium(III)triflate in the reaction of toluenesulfonic acid anhydride and the alcohol was investigated. It was found that Yb(III) facilitates the tosylation of the alcohol under non-basic conditions and was extended to the tosylation of a great variety of different alcohols to prove its applicability in general. The radioactive labelling of N-(trans-4-isopropyl-cyclohexanecarbonyl)-O-(2-[18F]fluoroethyl)-D-tyrosine with [18F]F-/ Kryptofix® 222/ K2CO3-system was achieved in radiochemical yields (RCY) of 10 % after deprotection with Pd/ C and H2. In addition to the direct labelling approach, a labelling procedure applying 2[18F]fluoroethyltosylate and N-(trans-4-isopropyl-cyclohexanecarbonyl)-D-tyrosin was performed in 40 % RCY. Unfortunately the determination of the KD value of N-(trans-4-isopropylcyclohexanecarbonyl)-O-(2-fluoroethyl)-D-tyrosine revealed a significant decrease in affinity compared to original nateglinide. The in vivo evaluation of some 18F-labelled glibenclamide derivatives in humans and animals revealed that longer measuring times are warranted because a high liver uptake spoiles the data acquisition and the activity washout proceeds very slowly. Therefore glibenclamide was labelled with a radioisotope with a longer half life such as 99mTc (t1/2 = 6 h) to lengthen the possible time frame for image acquisition. The synthesis of a 99mTc labelled hydrophilic glibenclamide derivative was performed. It is hoped that gliben-clamide is internalised into the b-cell and there binds to the 95 % of intracellular SUR-1 receptors with eventual metablolisation and thus trapping in the cell. The KD-value of the corresponding Re-compound was determined to be 0.5 nM and the insulin secretion properties were similar to those of original glibenclamide. The labelling precursor N-{4-[N,N-bis-(carboxy-methyl)-aminoethyl)-5-chlorobenzene-carboxamido]-ethyl}-benzene-sulfonyl-N'-cyclohexyl urea tris sodium salt was reacted with [99mTc(I)(OH2)3(CO)3] Cl to yield the final N-{4-[99mTc(I)-tricarbonyl-N,N-bis-(carboxymethyl)-aminoethyl)-5-chloro-benzene-carboxamidoethyl]-benzene-sulfonyl}-N'-cyclo-hexyl-urea sodium salt in 70% RCY.

Untersuchungen zur selektiven Deletion alloreaktiver Spender-T- Lymphozyten durch CD178-modifizierte dendritische Zellen im Rahmen der allogenen Blutstammzelltransplantation

Eine der häufigsten Komplikationen bei der allogenen Blutstammzelltransplantation stellt die Transplantat-gegen-Wirt-Erkrankung (Graft versus Host Disease, GvHD) dar. Sie wird durch allogene Spender-T-Lymphozyten verursacht, die Gewebe des Transplantatempfängers erkennen und inflammatorische Entzündungsprozesse auslösen. Neben dieser Alloreaktivität induzieren Spender-T-Lymphozyten jedoch auch immuntherapeutisch erwünschte Transplantat-gegen-Leukämie-Reaktionen (Graft versus Leukemia, GvL-Reaktion), bei denen residuelle Tumor- bzw. Leukämiezellen im Patienten durch Spender-T-Zellen spezifisch erkannt und eliminiert werden. Im Rahmen einer verbesserten Immmuntherapie wird daher versucht, GvHD-reaktive und GvL-reaktive Spender-T-Lymphozyten effizient voneinander zu separieren und so eine wirkungsvolle GvHD-Prophylaxe bzw. optimierte GvL-Induktion zu erreichen. In diesem Kontext war es Ziel dieser Arbeit, murine dendritische Zellen (DZ) so zu modifizieren, daß sie für die spezifische Deletion alloreaktiver T-Zellen in murinen GvHD/GvL-Tiermodellen eingesetzt werden können. Die Modifikation der DZ sollte dazu führen, daß über das CD95/CD178-System Aktivierungs-induzierter Zelltod (activation induced cell death, AICD) in alloreaktiven T-Zellen ausgelöst wird. Hierzu wurden für die Modifikation der DZ zwei verschiedene Mechanismen angewandt: a) die Transfektion der DZ mit CD178-mRNA sowie b) die zielgerichtete Immobilisierung von hCD178-X-Fusionsproteinen auf Oberflächenmolekülen von DZ bzw. T-Zellen. Als Positivkontrolle für die Induktion CD95-vermittelter Apoptose diente der agonistische anti-CD95-Antikörper Jo2. Bei der Transfektion muriner DZ mit mRNA zeigte sich anhand des Reportergens EGFP, daß aus dem Knochenmark generierte DZ mit hoher Effizienz mit EGFP-mRNA transfizierbar waren. Im Falle von hCD178-mRNA führte die Transfektion jedoch zu einer insuffizienten CD178-Expression, die mit den regulatorischen Eigenschaften der zytoplasmatischen CD178-Region in Verbindung gebracht werden konnte. So führte die Verwendung einer zytoplasmatisch trunkierten Form der CD178-mRNA (CD178Dzyt) zu einer durchflußzytometrisch nachweisbaren CD178-Expression in DZ. Mit diesen CD178Dzyt-exprimierenden DZ konnte in einem Proliferationstest die Proliferation alloreaktiver T-Zellen inhibiert werden. Die Beladung von DZ bzw. von T-Zellen mit hCD178-X-Fusionsproteinen führte in vitro ebenfalls zu einer deutlichen Reduktion von Alloreaktivität. Dabei konnte eine spezifische Deletion/Inhibition alloreaktiver T-Zellen nachgewiesen werden. Die Elimination alloreaktiver T-Zellen erfolgte in beiden Verfahren über AICD. Darüber hinaus wurde eine Bifunktionalität der Fusionsproteine festgestellt, da sie neben der Induktion CD95-vermittelter Apoptose auch in der Lage waren, die Kostimulation allogener T-Zellen effizient zu inhibieren. Mit Hilfe adoptiver T-Zell-Transferexperimente konnten abschließend die in vitro gewonnenen Ergebnisse in vivo in zwei verschiedenen GvHD-Mausmodellen bestätigt werden.

In vitro generation and characterization of acute myeloid leukemia-reactive CD8 + cytotoxic T-lymphocyte clones from healthy donors

Donor-derived CD8+ cytotoxic T lymphocytes (CTLs) eliminating host leukemic cells mediate curative graft-versus-leukemia (GVL) reactions after allogeneic hematopoietic stem cell transplantation (HSCT). The leukemia-reactive CTLs recognize hematopoiesis-restricted or broadly expressed minor histocompatibility and leukemia-associated peptide antigens that are presented by human leukocyte antigen (HLA) class I molecules on recipient cells. The development of allogeneic CTL therapy in acute myeloid leukemia (AML) is hampered by the poor efficiency of current techniques for generating leukemia-reactive CTLs from unprimed healthy donors in vitro. In this work, a novel allogeneic mini-mixed lymphocyte/leukemia culture (mini-MLLC) approach was established by stimulating CD8+ T cells isolated from peripheral blood of healthy donors at comparably low numbers (i.e. 10e4/well) with HLA class I-matched primary AML blasts in 96-well microtiter plates. Before culture, CD8+ T cells were immunomagnetically separated into CD62L(high)+ and CD62L(low)+/neg subsets enriched for naive/central memory and effector memory cells, respectively. The application of 96-well microtiter plates aimed at creating multiple different responder-stimulator cell compositions in order to provide for the growth of leukemia-reactive CTLs optimized culture conditions by chance. The culture medium was supplemented with interleukin (IL)-7, IL-12, and IL-15. On day 14, IL-12 was replaced by IL-2. In eight different related and unrelated donor/AML pairs with complete HLA class I match, numerous CTL populations were isolated that specifically lysed myeloid leukemias in association with various HLA-A, -B, or -C alleles. These CTLs recognized neither lymphoblastoid B cell lines of donor and patient origin nor primary B cell leukemias expressing the corresponding HLA restriction element. CTLs expressed T cell receptors of single V-beta chain families, indicating their clonality. The vast majority of CTL clones were obtained from mini-MLLCs initiated with CD8+ CD62L(high)+ cells. Using antigen-specific stimulation, multiple CTL populations were amplified to 10e8-10e10 cells within six to eight weeks. The capability of mini-MLLC derived AML-reactive CTL clones to inhibit the engraftment of human primary AML blasts was investigated in the immunodeficient nonobese diabetic/severe combined immune deficient IL-2 receptor common γ-chain deficient (NOD/SCID IL2Rγnull) mouse model. The leukemic engraftment in NOD/SCID IL2Rγnull was specifically prevented if inoculated AML blasts had been pre-incubated in vitro with AML-reactive CTLs, but not with anti-melanoma control CTLs. These results demonstrate that myeloid leukemia-specific CTL clones capable of preventing AML engraftment in mice can be rapidly isolated from CD8+ CD62L(high)+ T cells of healthy donors in vitro. The efficient generation and expansion of these CTLs by the newly established mini-MLLC approach opens the door for several potential applications. First, CTLs can be used within T cell-driven antigen identification strategies to extend the panel of molecularly defined AML antigens that are recognizable by T cells of healthy donors. Second, because these CTLs can be isolated from the stem cell donor by mini-MLLC prior to transplantation, they could be infused into AML patients as a part of the stem cell allograft, or early after transplantation when the leukemia burden is low. The capability of these T cells to expand and function in vivo might require the simultaneous administration of AML-reactive CD4+ T cells generated by a similar in vitro strategy or, less complex, the co-transfer of CD8-depleted donor lymphocytes. To prepare clinical testing, the mini-MLLC approach should now be translated into a protocol that is compatible with good manufacturing practice guidelines.

Identification of preferentially targeted tumor-associated antigens in melanoma patients via mRNA stimulation of CD8+ blood lymphocytes

Until now, therapeutic vaccination of cancer patients has mainly relied on rather few T cell epitopes processed from structurally normal shared tumor antigens and presented by frequent HLA alleles. So far the design of these studies has not addressed the individuality of tumor-host interactions, which are not only determined by the antigenic tumor phenotype or the natural HLA polymorphism, but also by the individual T cell repertoire. The procedure described herein was developed to identify the preferential targets of the individual repertoire from a panel of known shared tumor-associated antigens. Lymphocytes were isolated from the peripheral blood of cancer patients or healthy donors and stimulated twice with autologous mRNA-transfected FastDC (Dauer et al., J Immunol. 170:4069, 2003). FastDC were generated from blood monocytes and separately transfected via lipofection with in vitro transcribed mRNAs encoding the panel antigens. Responder lymphocytes were tested on day 12 in a 20-hour IFN-g ELISPOT assay for recognition of 293T cells co-transfected pairwise with plasmids encoding the stimulation antigens and the respective individual’s HLA class I alleles. In a first step, stimulation parameters were optimized for the detection of anti-HCMV pp65 responses. A maximum amplification of pp65-specific CD8+ T cell responses was obtained at a rather low IL-2 concentration (25 IU/ml) and at a minimum APC-to-effector ratio of 1:10. Addition of IL-4, IL-7 or IL-15 did not substantially improve the stimulatory potential. The test was applied to the human melanoma models D05 and MZ2, in both of which multiple T cell-defined antigens had previously been identified by expression screening. Blood lymphocytes were stimulated in parallel with autologous tumor cells and with mRNA-transfected FastDC. In D05, T cell reactivities against three out of eleven epitopes induced by stimulation with tumor cells were also found after stimulation with mRNA-transfected FastDC. Two further T cell target epitopes were identified with mRNA but not with tumor cell stimulation. In MZ2, T cell responses against five distinct epitopes were detected on day 12 after stimulation with mRNA transfectants. The same responses were detectable after stimulation with tumor cells only on day 32. mRNA stimulations against 21 tumor-associated antigens in addition to HCMV pp65 were performed in four healthy individuals. In all cases, CD8+ T cells against HCMV pp65 could be expanded. Among tumor-associated antigens, only reactivity against Melan-A/MART-1 in association with HLA-A*0201 was detectable in one of the donors. The vaccination of patients with targets a priori known to be recognized by their T cell repertoire may help to improve the outcome of therapeutic vaccination.

The search for Multiple Myeloma Stem cells: molecular characterization and self-renewal mechanisms involved in the disease persistence

The existence of Multiple Myeloma Stem cells (MMSCs)is supposed to be one of the major causes of MM drug-resistance. However, very little is known about the molecular characteristics of MMSCs, even if some studies suggested that these cells resembles the memory B cells. In order to molecularly characterize MMSCs, we isolated the 138+138- population. For each cell fraction we performed a VDJ rearrangement analysis. The complete set of aberrations were performed by SNP Array 6.0 and HG-U133 Plus 2.0 microarray analyses (Affymetrix). The VDJ rearrangement analyses confirmed the clonal relationship between the 138+ clone and the immature clone. Both BM and PBL 138+ clones showed exactly the same genomic macroalterations. In the BM and PBL 138-19+27+ cell fractions several micro-alterations (range: 1-350 Kb) unique of the memory B cells clone were highlighted. Any micro-alterations detected were located out of any genomic variants region and are presumably associated to the MM pathogenesis, as confirmed by the presence of KRAS, WWOX and XIAP genes among the amplified regions. To get insight into the biology of the clonotypic B cell population, we compared the gene expression profile of 8 MM B cells samples 5 donor B cells vs, thus showing a differential expression of 11480 probes (p-value: <0,05). Among the self-renewal mechanisms, we observed the down-regulation of Hedgehog pathway and the iperactivation of Notch and Wnt signaling. Moreover, these immature cells showed a particular phenotype correlated to resistance to proteasome inhibitors (IRE1α-XBP1: -18.0; -19.96. P<0,05). Data suggested that the MM 138+ clone might resume the end of the complex process of myelomagenesis, whereas the memory B cells have some intriguing micro-alterations and a specific transcriptional program, supporting the idea that these post germinal center cells might be involved in the transforming event that originate and sustain the neoplastic clone.

Signaltransduktion von IgG-Antiphospholipid-Antikörpern in plasmazytoiden Dendriten und Monomac1 Zellen

Das Antiphospholipid-Syndrom (APS) ist eine Autoimmunerkrankung die sich durch venöse und arterielle Thrombosen und/oder Spontanaborte bei gleichzeitigem Nachweis von persistierenden, erhöhten Antiphospholipid-Antikörper (aPL)-Titern charakterisieren lässt. Die zugrunde liegenden Mechanismen, über die aPL Pathogenität vermitteln, sind bislang wenig verstanden. Im Rahmen dieser Arbeit konnte gezeigt werden, dass drei humane monoklonale IgG aPL sowie IgG Fraktionen von APS Patienten eine Überexpression von TLR7 und TLR8 in plasmazytoiden dendritischen Zellen bzw. monozytären Zellen induzieren. Gleichzeitig erfolgt die Induktion der TLR7/8 Translokation vom endoplasmatischen Retikulum (ER) ins Endosom. Diese Effekte werden durch die Internalisierung der aPL und die nachfolgende Aktivierung einer NADPH Oxidase sowie durch endosomale Superoxid Produktion vermittelt. Als Folge dessen werden die Zellen extrem für TLR7/8 Liganden sensibilisiert. Diese Beobachtungen beschreiben einen neuen Signalmechanismus der innaten Immunität, der seinen Ursprung im Endosom nimmt. Da die Überexpression von TLR7 auch in pDCs von APS Patienten detektiert werden konnte, bieten unsere Ergebnisse eine Erklärung für die proinflammatorischen und prokoagulanten Effekte von aPL. rnWeiterhin führte die kombinierte Stimulation mit aPL und TLR7 Liganden in pDCs zu einem signifikant verstärkten Potential zur CD4+ Th2 Zell Aktivierung bzw. zur Regulation der B-Zell Differenzierung und Immunglobulin Produktion. Die Anwesenheit der pDCs erhöhte dabei synergistisch die CD40/86 Expression, die Proliferation sowie die Plasmazell-Differenzierung von isolierten peripheren B-Zellen, die mit aPL und TLR Liganden stimuliert wurden. Dieser Stimulationsansatz war außerdem ausreichend um naive B-Zellen zur IgM/IgG Produktion anzuregen und die Synthese neuer IgG aPL durch Gedächtnis-B-Zellen einzuleiten. Die Beteiligung der pDCs an diesem Prozess erfolgte durch Zytokin Sekretion sowie direktem Zell-Zell-Kontakt. Die Anwesenheit von Th2-Helferzellen war dabei nicht obligatorisch, konnte jedoch die B-Zell Aktivierung zusätzlich fördern. Eine Hochregulierung von TLR7 oder TLR9 innerhalb der B-Zell Population war nicht involviert. rnrnDiese Ergebnisse zeigen erstmalig die Relevanz einer pDC Aktivierung im Hinblick auf die Aufrechterhaltung der pathogenen Aktivität im Rahmen des APS. Da eine Dysregulierung von TLR7 bereits als ursächlich für die Ausbildung einer systemischen Autoimmunität erachtet wird, sollten unsere Ergebnisse für das generelle Verständnis von Autoimmunität von großer Relevanz sein.rn

Misregulation of the tumour suppressor gene CYLD drives hyperactivation of T cells leading to intestinal pathology

The tumour suppressor gene cyld is mutated in familial cylindromatosis, an autosomal-dominant condition that predisposes to multiple skin tumours. The deubiquitinase CYLD acts as a negative regulator of NF-κB signaling. To analyse the function of CYLD in vivo we used the CYLDex7/8 mice, which are characterized by loss of the full-length transcript and overexpression of a short splice variant of CYLD (sCYLD). In CYLDex7/8 mice the overexpression of sCYLD results in splenomegaly and lymphadenopathy. Additionally, the B cell population in spleen and lymph nodes is increased at the expense of T cells. Analysis of CYLDex7/8 T cells showed a significant reduction of CD4 single positive (SP) and CD8 SP T cells in the thymus and in the periphery. By investigating the impact of sCYLD in TCR signaling in thymocytes, we could demonstrate that sCYLD partially inhibited the activation of Zap70 and thereby negatively regulated TCR signaling. In vitro as well as in vivo we could show that CD4+ T cells displayed a hyperactive phenotype, proliferated to a better extent than WT cells and expressed high amounts of inflammatory cytokines such as IL-6 and IL-17A. Western Blots of steady state thymocytes and peripheral CD4+ T cells were performed, showing that the noncanonical pathway was highly upregulated visualized by the expression levels of RelB and p100 leading to a hyperactive phenotype of CD4+ T cells. In order to investigate the contribution of sCYLD in positive and negative selection in the thymus in vivo, the HY-TCR transgene (HYtg) was crossed to CYLDex7/8 mice. The analysis of CYLDex7/8 HYtg males revealed an increase in CD4+CD8+ DP as well as in CD8+ SP thymocytes, suggesting a less pronounced negative selection in CYLD mutant mice compared to HYtg control mice. Interestingly, the impaired negative selection in the thymus was accompanied by a strong colitis phenotype at early ages (4 weeks). Since medullary TECs (mTECs) play an important role in the late stage of T cell development by negatively selecting autoreactive thymocytes, the levels of mTECs in the medullary compartment was investigated. Of note, low numbers of mTECs were observed, combined with decreased expression levels of the mTEC markers UEA-1, keratin-5, claudin-3 and claudin-4. The reduction of mTECs in the medullary compartment could explain the inflammatory phenotype of CD4+ T cells in CYLDex7/8 mice leading to the severe intestinal pathology observed in these mice. Taken together, these results show an important role of sCYLD in T cell development and function as well as in NF-кB signaling of T cells.

Untersuchungen zu Migration, Homing und Effektor-Funktionen humaner T-Lymphozyten in NOD.Cg-Prkdc scid Il2r gtm1Wjl, SzJ-Mäusen im Rahmen der allogenen hämatopoetischen Stammzelltransplantation

Die akute myeloische Leukämie (AML) zählt zu den aggressivsten neoplastischen Erkrankungenrnder Hämatopoese. Die Mehrheit der Patienten mit AML erreicht nach Induktions-rnChemotherapie den Zustand der kompletten Remission, jedoch erleiden mehr als die Hälfterndieser Patienten anschließend einen Rückfall und versterben an den Folgen der Erkrankungrn[1]. Die allogene hämatopoetische Stammzelltransplantation (engl.: hematopoietic stem cellrntransplantation, HSCT) stellt die einzig putativ kurative Behandlungsform für rezidierendernPatienten und solche mit schlechter Prognose dar. Jedoch birgt diese Form der Therapiernauch eine Vielzahl an Risiken. Insbesondere das Auftreten einer akuten Transplantat-gegen-rnWirt-Erkrankung (engl.: graft-versus-host disease, GvHD) stellt die Hauptursache für transplantationsassoziierternMortalität und Morbidität dar [2]. Die Depletion von alloreaktiven zytotoxischenrnT Lymphozyten (CTL) aus dem Transplantat ermöglicht zwar die Prävention derrnEntstehung einer GvH-Erkrankung, jedoch häufig unter gleichzeitigem Verlust des förderlichen,rnanti-leukämischen Transplantat-gegen-Leukämie-Effekts (engl.: graft-versus-leukemia,rnGvL) [3]. Um den GvL-Effekt unter Vermeidung einer GvH-Erkrankung zu erhalten, bietetrnsich der gezielte adoptive Transfer von Leukämie-spezifischen, nicht alloreaktiven CTL alsrnattraktive Strategie der Immuntherapie für AML-Patienten nach allogener HSCT an. In derrnvorliegenden Arbeit konnte erfolgreich ein prä-klinisches murines AML-Modell unter Einsatzrndes stark immundefizienten NOD.Cg-Prkdcscid Il2rgtm1Wjl/SzJ- (NSG-) Mausstamms und primärenrnAML-Blasten durch die Optimierung bereits publizierter Protokolle etabliert werden.rnBei zehn von 17 transplantierten primären AML-Proben konnte ein erfolgreiches Engraftmentrnder humanen Zellen und eine Rekonstitution der humanen Neoplasie in den NSG-Mäusenrnerzielt werden. Die Engraftment-Rate betrug somit 58,82% und lag etwas unter dem aus derrnLiteratur bekannten Wert von 65-70% [4, 5]. Es ließen sich gut, intermediär und schlecht anwachsendernAML-Proben anhand der Engraftment-Stärke und -Reproduzierbarkeit voneinanderrnunterscheiden. Anhand der Analyse von für das Engraftment kritischer Parameter konnternein Zusammenhang zwischen Engraftment-Rate in der Maus und Flt3-Mutationsstatus sowiernFAB-Klassifikation des Patienten hergestellt und somit Angaben aus der Literatur bestätigtrnwerden. Für zwei Patienten-spezifische AML-Modelle, MZ580 und MZ308, konnten in vitrornerfolgreich AML-reaktive, über einzelne bzw. duale HLA-Diskrepanzen restringierte CTLPopulationenrngeneriert und über einen Zeitraum von bis zu 70 Tagen expandiert werden.rnDeren adoptiver Transfer in zuvor mit humanen AML-Blasten inokulierte NSG-Mäuse führternzu einer nahezu vollständigen Eradikation der AML-Blasten und Remission der Versuchstiere.rnAnhand unterschiedlich langer in vitro Kultur-Zeiträume konnte ein für die in vivo ausgeübtenrnEffektor-Funktionen optimaler Reifungszustand der CTL-Populationen von maximalrn28 Tagen bestimmt werden. Die kinetische Analyse der lytischen Aktivität in vivo deutete auf eine relativ schnelle Ausübung der Effektor-Funktionen durch die CTL-Populationen innerhalbrnvon zwei bis 24 Stunden nach adoptivem Transfer hin. Durch die Verwendung von inrnvitro generierten EBV-reaktiven CTL aus einem irrelevanten Spender konnte zudem die Spezifitätrnder in vivo ausgeübten Effektor-Funktionen nachgewiesen werden. Die ex vivo Re-rnIsolation adoptiv transferierter CTL und deren in vitro Analyse in einem IFNγ ELISpot wiesrneine konstante Reaktivität der Zellen ohne Induktion einer Xeno-Reaktivität nach. Die zurrnVerbesserung der Persistenz humaner CTL-Populationen eingesetzten autologen CD4+ TrnZellen zeigten nur im AML MZ308-System eine positive Wirkung. Generell konnte die Persistenzrnin vivo jedoch trotz initialer Substitution mit den Zytokinen IL-2 und IL-7 nicht über einenrnZeitraum von sieben Tagen hinaus aufrechterhalten werden.rnZur Untersuchung des Extravasations-Mechanismus humaner T Zellen über murines Endothelrnwurden sowohl Flusskammer- als auch Transwell-Studien durchgeführt, um die molekularenrnGrundlagen des Adhäsions- und Transmigrationsprozesses aufzuklären. Durch denrnparallelen Einsatz humaner und muriner T Zellen auf murinen Endothelzellen unter Zusatzrnfunktionsblockierender monoklonaler Antikörper konnte gezeigt werden, dass derrnExtravasations-Mechanismus beider Spezies auf Interaktionen homologer Adhäsionsmolekül-rnPaare, nämlich VLA-4–VCAM-1 und LFA-1–ICAM-1, beruht. Für einzelne Moleküle konntenrnin Abhängigkeit der eingesetzten Endothelzellen Unterschiede in der Funktionalität zwischenrnden Spezies identifiziert werden. Der Adhäsionsprozess war durch die Blockade derrnVLA-4–VCAM-1-Interaktion stärker inhibierbar als durch die Blockade von LFA-1–ICAM-1.rnDie Transmigration hingegen war durch die Blockade beider Adhäsionsmolekül-Paare vergleichbarrnstark inhibierbar.

Regulation der Funktion dendritischer Zellen im immunologischen steady state

Dendritische Zellen sind professionelle Antigenpräsentierende Zellen und übernehmen sowohl in der Aktivierung naiver T-Zellen als auch in der Aufrechterhaltung peripherer Toleranz eine zentrale Funktion. Ruhende Dendritische Zellen im immunologischen Steady State induzieren antigenspezifisch Toleranz in autoreaktiven T-Zellen, welche bei der negativen Selektion im Thymus nicht eliminiert wurden und verhindern somit die Entstehung von Autoimmunität. Mit Hilfe eines transgenen Maus Modells, welches die induzierbare Expression transgen kodierter CD8+ T-Zell-Epitope auf ruhenden Dendritischen Zellen erlaubt, konnten wir zeigen, dass die periphere Toleranz Induktion durch Dendritische Zellen in Abwesenheit von regulatorischen T-Zellen beeinträchtigt ist. Wir konnten verdeutlichen, dass für die Suppression von steady-state Dendritischen Zellen die Erkennung von MHC Klasse II Molekülen auf Dendritischen Zellen durch den T-Zell-Rezeptor regulatorischer T-Zellen zwingend erforderlich ist. In Abwesenheit dieser suppressiven Interaktion hatten Dendritische Zellen einen aktivierten Phänotyp und lösten eine funktionale T-Zell-Antwort aus, anstatt periphere Toleranz zu induzieren. Als Folge dessen entwickelten Mäuse, in denen Dendritische Zellen nicht antigenspezifisch mit suppressiven CD4+ T-Zellen interagieren konnten, spontane Autoimmunität, welche durch CD8+ T-Zellen mediiert wurde. Wir konnten weiterhin zeigen, dass der Verlust peripherer T-Zell Toleranz durch basale Level an Typ I Interferonen mediiert wird sowie durch CD40 Signale, welche von adaptiven Immunzellen geliefert werden.