High number of antigen binding cells in unimmunized mice and possible occurrence of multispecific lymphocytes

A high frequency of Tobacco Mosaic virus (TMV) binding cells was found in spleen cells from unimmunized mice (about 3 to 4%). TMV binding is strongly inhibited by previous incubation with anti immunoglobulin antisera. After stripping of membrane receptors, a full recovery for antigen binding capacity can be observed after 24 hr culture. Experiments are presented to exclude artefactual fluorescent cells: interaction of TMV with some non immunoglobulin membrane components; interaction of fluorescent anti TMV antibody with the Fc receptor of B cells; the binding of TMV to cytophilic immunoglobulins. The occurrence of lymphocytes able to bind several non crossreactive antigens is suggested by three lines of evidence: the high number of antigen binding cells in unimmunized mice, presence of surface immunoglobulins on some TMV binding cells after complete capping of TMV receptors and the direct demonstration of lymphocytes binding TMV and hemocyanin at different membrane sites.

Immune engagement thresholds for CD8+ T CELL control of yherpesvirus-driven B CELL

Tese de doutoramento, Ciências Biomédicas (Ciências Biopatológicas), Universidade de Lisboa, Faculdade de Medicina, 2014

Preactivation of B lymphocytes does not enhance mouse mammary tumor virus infection.

We investigated whether mouse mammary tumor virus (MMTV) favors preactivated or naive B cells as targets for efficient infection. We have demonstrated previously that MMTV activates B cells upon infection. Here, we show that polyclonal activation of B cells leads instead to lower infection levels and attenuated superantigen-specific T-cell responses in vivo. This indicates that naive small resting B cells are the major targets of MMTV infection and that the activation induced by MMTV is sufficient to allow efficient infection.

Immunology taught by lung dendritic cells.

Dendritic cells (DCs) are leukocytes specialised in the uptake, processing, and presentation of antigen and fundamental in regulating both innate and adaptive immune functions. They are mainly localised at the interface between body surfaces and the environment, continuously scrutinising incoming antigen for the potential threat it may represent to the organism. In the respiratory tract, DCs constitute a tightly enmeshed network, with the most prominent populations localised in the epithelium of the conducting airways and lung parenchyma. Their unique localisation enables them to continuously assess inhaled antigen, either inducing tolerance to inoffensive substances, or initiating immunity against a potentially harmful pathogen. This immunological homeostasis requires stringent control mechanisms to protect the vital and fragile gaseous exchange barrier from unrestrained and damaging inflammation, or an exaggerated immune response to an innocuous allergen, such as in allergic asthma. During DC activation, there is upregulation of co-stimulatory molecules and maturation markers, enabling DC to activate naïve T cells. This activation is accompanied by chemokine and cytokine release that not only serves to amplify innate immune response, but also determines the type of effector T cell population generated. An increasing body of recent literature provides evidence that different DC subpopulations, such as myeloid DC (mDC) and plasmacytoid DC (pDC) in the lungs occupy a key position at the crossroads between tolerance and immunity. This review aims to provide the clinician and researcher with a summary of the latest insights into DC-mediated pulmonary immune regulation and its relevance for developing novel therapeutic strategies for various disease conditions such as infection, asthma, COPD, and fibrotic lung disease.

Study of pulmonary experimental paracoccidioidomycosis by analysis of bronchoalveolar lavage cells: Resistant vs. susceptible mice

Adult Swiss (susceptible) and BALB/c (non-susceptible) mice were inoculated by the intravenous route with 1 x 10(6) yeast cells of Paracoccidioides brasiliensis, strain 18. Immunologic parameters, histopathology and features of the bronchoalveolar lavage (BAL) were evaluated at week 2, 4, 8 and 16 post-infection. The pulmonary infection was progressive in Swiss mice and regressive in BALB/c mice. The numbers of total cells, lymphocytes and polymorphonuclear neutrophils increased in BAL, as well as the percentages of giant cells, and CD4 and CD8 positive cells. The ultrastructural study of BAL cells revealed a predominance of macrophages and a frequency of 13.2% of type II pneumocytes. As the infection progressed, the number of fungal cells and spreading macrophages, as well as the stimulated release of H2O2 by macrophages, increased. The animals exhibited an exacerbation of the humoral immune response and a depression of cellular immunity during the infection. There was a good correlation between the intensity and the pattern of the pulmonary histopathology and the cellular findings in the BAL. The present model reproduces some anatomoclinical patterns of the human disease and shows that BAL may be a useful tool in monitoring the pulmonary infection caused by P. brasiliensis.

In situ expression of mononuclear cell markers and interleukin-2 receptor in renal allograft biopsies of acute rejection and borderline cases

The correct diagnosis of renal allograft rejection may be difficult using only clinical and/or histopathological criteria. Immunological assays should be considered in order to evaluate the phenotype of inflammatory infiltrate in renal allograft biopsies. Immunohistochemical studies were performed to detect mononuclear cells, CD4 and CD8 T lymphocytes, B lymphocytes, macrophages, null cells, and positive cells for interleukin-2 receptors. A total of 41 allograft biopsies classified into three groups were studied: acute cellular rejection (28 biopsies/22 patients), borderline (7 biopsies/5 patients) and control (6 biopsies/6 patients). In the rejection group (RG), increased cellularity was found mainly at the tubulo-interstitial level. Expression of CD8 positive cells was higher in RG when compared to borderline (BG) and control (CG) groups, respectively (0.9 vs. 0.0 vs. 0.35 cells/mm2; p < 0.001). Expression of macrophages was not statistically significant among the three groups (RG = 0.6 vs. BG = 0.2 vs. CG = 0.0 cells/mm2; p < 0.02). In the BG, CD4 + cells predominated (BG = 0.2 vs. RG = 0.05 vs. CG = 0.0 cells/mm2; p < 0.05). Clinically these patients were treated as cases of acute rejection. The numbers and different types of infiltrating cells did not correlate with patient's clinical outcome. Copyright © Informa Healthcare.

Avaliação da resposta imune celular de sangue periférico e medula óssea pela técnica de imunocitoquímica em cães vacinados para Leishmaniose visceral canina

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Avaliação das lesões encefálicas e fenotipagem de linfócitos T e células dentríticas em linfócitos de cães com leishmaniose visceral

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Immunohistochemical expression of B and T-lymphocytes and TGF-beta in experimentally transplanted canine venereal tumor

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

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.

Evaluation der Leukämie-Reaktivität von PRAME- und p53-spezifischen T-Zellen bei lymphohämatopoetischen Neoplasien im Rahmen einer adoptiven Immuntherapie

Der Transplantat-gegen-Leukämie (GVL) Effekt als immuntherapeutisches Mittel bei der allogenen hämatopoetischen Stammzell Transplantation (HSZT) ist hauptsächlich durch Spender Lymphozyten vermittelt, welche hämatopoetische Minor-Histokompatibilitäts Antigene bzw. Leukämie-assoziierte Antigene (z. B.: PRAME, p53) erkennen. Der adoptive Transfer von Leukämie-spezifischen T-Zellen kann den GVL-Effekt, ohne ein Auftreten einer Transplantat-gegen-Wirt Erkrankung (GVHD), steigern. Unter Verwendung von HLA-A2 und human CD8 transgenen Mäusen (CD8yCyA2Kb) konnten in dieser Arbeit PRAME spezifische CD8+ zytotoxischen T-Zellen generiert werden. Diese zytotoxischen CD8+ T-Zellen zeigten in Chromfreisetzungsuntersuchungen lytische Aktivität gegen eine Vielzahl von Zelllinien, die PRAME endogen prozessieren sowie gegen das spezifische PRAME-Peptid. Des Weiteren wurden die hier generierten T-Zellen auf ihre zytotoxische Aktivität gegen akute myeloische Leukämie Blasten hin untersucht, und diese Untersuchungen zeigten AML-Reaktivität der PRAME-spezifischen sowie der als Vergleich genutzten p53- und HLA-A2-spezifischen T-Zellen. Das Potenzial der PRAME-spezifischen ZTL die GVL-Immunität in vivo zu erhöhen ohne das Vorkommen einer GVHD wurde in einem Tumor-Protektions-Model unter der Nutzung von NOD/SCIDgcnull Mäusen untersucht. Die PRA100- bzw. p53-ZTL wurden adoptiv in NOD/SCIDgcnull Rezipienten transferiert und gleichzeitig wurden die Tiere mit PRAME-, oder p53-exprimierende Tumorzelllinien inokuliert. Die Reduktion des Tumorwachstums bestätigte die Spezifität der T-Zellen auch in vivo. In weiteren in vivo Experimenten wurden NOD/SCIDgcnull Mäuse mit AML-Blasten rekonstituiert. Durch die Applikation von nur CD34 positiven Zellen aus einer AML-Probe, oder einer CD56 depletierten Probe, konnten Rekonstitutionen in 95 % aller Versuche erfolgreich beendet werden. Wurde eine Rekonstitution mittels PCR- und FACS-Analysen diagnostiziert, so folgten mehrere Applikationen der PRAME- oder p53-spezifischen ZTL. In diesen Untersuchungen konnten wir in einem therapeutischen AML-in vivo-Modell zeigen, dass die in diesen Untersuchungen generierten/verwandten ZTL in der Lage sind AML-Blasten in vivo zu bekämpfen und so die leukämische Last der Tiere im Blut sowie in der Milz auf unter 1 % zu regulieren. Der prozentuale Anteil humaner AML Zellen im Knochenmark konnte deutlich gesenkt werden (< 10 %). Zusammenfassend sind die von uns generierten PRAME-spezifischen T-Zellen in der Lage, in vitro und auch in vivo, endogen prozessiertes Protein auf Zelllinien und AML-Blasten zu erkennen und zu lysieren. Auch die p53-ZTL, welche als eine weitere Antigen-spezifische ZTL-Population in vivo getestet wurden, zeigten GVL-Effekte. Die Kenntnis von Tumor- bzw. Leukämie assoziierten Antigenen und die daraus erwachsene Möglichkeit der Generierung krankheitsspezifischer ZTL bietet die Grundlage für eine spezifische Immuntherapie maligner Erkrankungen.

Immunevasive Strategien des Humanen Cytomegalovirus : Einfluss des Tegumentproteins pp71 und des Immunevasins gpUS3 auf die MHC-Klasse-I-Antigenpräsentation infizierter Zellen

Bei Menschen mit unreifem oder geschwächtem Immunsystem kann eine Infektion mit dem Humanen Cytomegalovirus (HCMV) zu schweren Erkrankungen führen. Hingegen kontrolliert das Immunsystem bei Gesunden die HCMV-Infektion fast vollständig. Wichtige Effektoren hierbei sind CD8-positive zytotoxische T-Zellen (CTLs). Um dieser Kontrolle entgegenzuwirken, exprimiert HCMV die als Immunevasine bekannten Proteine gpUS2, gpUS3, gpUS6 und gpUS11. Sie greifen an unterschiedlichen Stellen in die MHC-Klasse-I (MHC-I)-vermittelte Antigenpräsentation ein und schützen so infizierte Zellen vor der Erkennung durch CTLs. Zusätzlich waren auch den Tegumentproteinen pp65 und pp71 immunevasive Funktionen zugeschrieben worden, wobei jedoch über diese Funktionen bisher nur wenig bekannt war. Daher sollte im ersten Teil der vorliegenden Arbeit die Beteiligung von pp71 an der MHC-I-Immunevasion von HCMV-infizierten humanen Fibroblasten untersucht werden. Zu diesem Zweck wurden HCMV-Mutanten eingesetzt, die pp71 verstärkt exprimierten. Entgegen der postulierten immunevasiven Rolle von pp71 konnte zu keinem Zeitpunkt der Infektion ein inhibierender Effekt von pp71 auf die Antigenpräsentation infizierter Fibroblasten festgestellt werden. Sehr früh nach Infektion war sogar eine pp71-vermittelte Steigerung der Präsentation des HCMV-Proteins IE1 zu beobachten. Um zu prüfen, ob es auch während einer natürlichen Infektion zu einer Erhöhung der pp71-Expression und den damit verbundenen Effekten kommen kann, wurde untersucht, ob die Expression von pp71 durch Zellstress induzierbar ist. Dies erschien möglich, da der Leserahmen für pp71 von einer bizistronischen mRNA kodiert wird. Über die Erzeugung von Zellstress durch Serumentzug konnte zum ersten Mal gezeigt werden, dass die Expression des wichtigen viralen Transaktivators pp71 abhängig vom physiologischen Zustand der infizierten Zellen reguliert wird. Im zweiten Teil der vorliegenden Arbeit sollte die Rolle des Immunevasins gpUS3 näher beleuchtet werden. Sein Wirkmechanismus war, wie die Mechanismen der drei anderen Immunevasine gpUS2, gpUS6 und gpUS11, bereits ausführlicher untersucht worden. Der individuelle Beitrag von gpUS3 zur MHC-I-Immunevasion in infizierten Zellen sowie ein mögliches Zusammenspiel mit den anderen Immunevasinen waren hingegen noch zu erforschen. Hierzu wurden HCMV-Mutanten eingesetzt, die keines oder nur eines der Immunevasine exprimierten. Mit ihrer Hilfe konnte gezeigt werden, dass gpUS3 sehr früh nach Infektion überraschenderweise die Immunevasion in infizierten Fibroblasten behindert. Zu späteren Infektionszeitpunkten war dagegen ein immunevasiver Effekt von gpUS3 in Form einer Kooperation mit jeweils einem der drei anderen Immunevasine festzustellen. Aus diesen Ergebnissen ergibt sich die neue Hypothese, dass die Hauptaufgabe von gpUS3 im Rahmen der HCMV-Immunevasion in der Regulation der Funktionen der übrigen Immunevasine liegt.

Generation of FLT3-ITD-reactive T-cell populations from different sources

Approximately 25% of acute myeloid leukemias (AMLs) carry internal tandem duplications (ITD) of various lengths within the gene encoding the FMS-like tyrosine kinase receptor 3 (FLT3). Although varying duplication sites exist, most of these length mutations affect the protein´s juxtamembrane domain. FLT3-ITDs support leukemic transformation by constitutive phosphorylation resulting in uncontrolled activation, and their presence is associated with worse prognosis. As known form previous work, they represent leukemia- and patient-specific neoantigens that can be recognized by autologous AML-reactive CD8+ T cells (Graf et al., 2007; Graf et al., unpublished). Herein, in patient FL, diagnosed with FLT3-ITD+ AML and in first complete remission after induction chemotherapy, T cells against her leukemia´s individual FLT3-ITD were detected at a frequency up to 1.7x10-3 among peripheral blood CD8+ T lymphocytes. This rather high frequency suggested, that FLT3-ITD-reactive T cells had been expanded in vivo due to the induction of an anti-leukemia response.rnrnCell material from AML patients is limited, and the patients´ anti-leukemia T-cell repertoire might be skewed, e.g. due to complex previous leukemia-host interactions and chemotherapy. Therefore, allogeneic sources, i.e. buffy coats (BCs) from health donors and umbilical cord blood (UCB) donations, were exploited for the presence and the expansion of FLT3-ITD-reactive T-cell populations. BC- and UCB-derived CD8+ T cells, were distributed at 105 cells per well on microtiter plates and, were stimulated with antigen-presenting cells (APCs) transfected with in vitro-transcribed mRNA (IVT-mRNA) encoding selected FTL3-ITDs. APCs were autologous CD8- blood mononuclear cells, monocytes or FastDCs.rnrnBuffy coat lymphocytes from 19 healthy individuals were analyzed for CD8+ T-cell reactivity against three immunogenic FLT3-ITDs previously identified in patients VE, IN and QQ and designated as VE_, IN_ and QQ_FLT3-ITD, respectively. These healthy donors carried at least one of the HLA I alleles known to present an ITD-derived peptide from one of these FLT3-ITDs. Reactivities against single ITDs were observed in 8/19 donors. In 4 donors the frequencies of ITD-reactive T cells were determined and were estimated to be in the range of 1.25x10-6 to 2.83x10-7 CD8+ T cells. These frequencies were 1,000- to 10,000-fold lower than the frequency of autologous FLT3-ITD-reactive T cells observed in patient FL. Restricting HLA I molecules were identified in two donors. In one of them, the recognition of VE_FLT3-ITD was found to be restricted by HLA-C*07:02, which is different from the HLA allele restricting the anti-ITD T cells of patient VE. In another donor, the recognition of IN_FLT3-ITD was restricted by HLA-B*35:01, which also had been observed in patient IN (Graf et al., unpublished). By gradual 3´-fragmentation of the IN_FLT3-ITD cDNA, the 10-mer peptide CPSDNEYFYV was identified as the target of allogeneic T cells against IN_FLT3-ITD. rnLymphocytes in umbilical cord blood predominantly exhibit a naïve phenotype. Seven UCB donations were analyzed for T-cell responses against the FLT3-ITDs of patients VE, IN, QQ, JC and FL irrespective of their HLA phenotype. ITD-reactive responses against all stimulatory FLT3-ITDs were observed in 5/7 UCB donations. The frequencies of T cells against single FLT3-ITDs in CD8+ lymphocytes were estimated to be in the range of 1.8x10-5 to 3.6x10-6, which is nearly 15-fold higher than the frequencies observed in BCs. Restricting HLA I molecules were identified in 4 of these 5 positive UCB donations. They were mostly different from those observed in the respective patients. But in one UCB donation T cells against the JC_FLT3-ITD had exactly the same peptide specificity and HLA restriction as seen before in patient JC (Graf et al., 2007). Analyses of UCB responder lymphocytes led to the identification of the 10-mer peptide YESDNEYFYV, encoded by FL_FLT3-ITD, that was recognized in association with the frequent allele HLA-A*02:01. This peptide was able to stimulate and enrich ITD-reactive T cells from UCB lymphocytes in vitro. Peptide responders not only recognized the peptide, but also COS-7 cells co-transfected with FL_FLT3-ITD and HLA-A*02:01.rnrnIn conclusion, T cells against AML- and individual-specific FLT3-ITDs were successfully generated not only from patient-derived blood, but also from allogeneic sources. Thereby, ITD-reactive T cells were detected more readily and at higher frequencies in umbilical cord blood than in buffy coat lymphocytes. It occurred that peptide specificity and HLA restriction of allogeneic, ITD-reactive T cells were identical to autologous patient-derived T cells. As shown herein, allogeneic, FLT3-ITD-reactive T cells can be used for the identification of FLT3-ITD-encoded peptides, e.g. for future therapeutic vaccination studies. In addition, these T cells or their receptors can be applied to adoptive transfer.

Targeted ablation of the 25-hydroxyvitamin D 1α-hydroxylase enzyme: Evidence for skeletal, reproductive, and immune dysfunction

The active form of vitamin D, 1α,25-dihydroxyvitamin D [1α,25(OH)2D], is synthesized from its precursor 25 hydroxyvitamin D [25(OH)D] via the catalytic action of the 25(OH)D-1α-hydroxylase [1α(OH)ase] enzyme. Many roles in cell growth and differentiation have been attributed to 1,25(OH)2D, including a central role in calcium homeostasis and skeletal metabolism. To investigate the in vivo functions of 1,25(OH)2D and the molecular basis of its actions, we developed a mouse model deficient in 1α(OH)ase by targeted ablation of the hormone-binding and heme-binding domains of the 1α(OH)ase gene. After weaning, mice developed hypocalcemia, secondary hyperparathyroidism, retarded growth, and the skeletal abnormalities characteristic of rickets. These abnormalities are similar to those described in humans with the genetic disorder vitamin D dependent rickets type I [VDDR-I; also known as pseudovitamin D-deficiency rickets (PDDR)]. Altered non-collagenous matrix protein expression and reduced numbers of osteoclasts were also observed in bone. Female mutant mice were infertile and exhibited uterine hypoplasia and absent corpora lutea. Furthermore, histologically enlarged lymph nodes in the vicinity of the thyroid gland and a reduction in CD4- and CD8-positive peripheral T lymphocytes were observed. Alopecia, reported in vitamin D receptor (VDR)-deficient mice and in humans with VDDR-II, was not seen. The findings establish a critical role for the 1α(OH)ase enzyme in mineral and skeletal homeostasis as well as in female reproduction and also point to an important role in regulating immune function.