Immunoregulation of T-lymphocyte proliferative activity by alveolar macrophages from mice bearing Lewis lung carcinoma tumors

Endicott, Roger A.

03 June 2011

The immune regulatory abilities of alveolar macrophages from C57B1/6 mice bearing a metastatic variant of Lewis lung carcinoma were determined. During early stages of tumor development, or before tumors metastasized to the lungs, alveolar macrophages did not affect or slightly enhanced T-lymphocyte proliferation; as tumor growth progressed, or following tumor metastasis, alveolar macrophages suppressed the T-cell response. Macrophage suppressor activity was probably not mediated by their production of PGE, since macrophages of tumor-bearing mice secreted less 2 PGE than did macrophages of normal mice. Normal alveolar 2 macrophages or macrophages preincubated in tumor cell supernatant for a short period stimulated T-cell blastogenesis and secreted PGE during in vitro culture. However, with 2 longer exposure to tumor cell supernatant, alveolar macrophages lost the capacity to augment T-cell proliferation and secreted less PGE 2.Ball State UniversityMuncie, IN 47306

T cells.

Tumors -- Immunological aspects.

Macrophages.

Ball State University. Thesis (M.S.)

Study of pathogenesis and immune response in human Puumala virus infection

Thunberg, Therese

January 2013

Hantaviruses can cause two severe human diseases: hemorrhagic fever with renal syndrome (HFRS) and hantavirus cardiopulmonary syndrome (HCPS). Hantaviruses are spread to humans mainly through inhalation of infectious virions, secreted from infected rodents. The human diseases are characterized by an increased capillary leakage syndrome. Hantaviruses are known to infect endothelial cells, but they are non-cytopathogenic. The mechanism behind human disease is not well understood, but an overactive immune response is implicated in the pathogenesis. The aim of my thesis has been to investigate parts of innate and adaptive immune responses in Puumala virus-infected patients. In paper I we found a sex difference in the cytokine profile during acute infection. Females had significantly higher plasma levels of IL-9, FGF-2, GM-CSF and lower levels of IL-8 and IP-10 compared to males. These differences may affect the activation and function of the immune response. In paper II we studied the phenotype and kinetics of NK cells. We observed that CD56dim NK cells were elevated during acute infection and that these, predominantly NKG2C+ NK cells, remained elevated for at least two months after symptom debut. Our novel finding of a prolonged NK cell response, implicates that NK cells may possess adaptive immunity features.  In paper III we observed a vigorous cytotoxic T cell (CTL) response during acute infection, which contracted in parallel with decrease in viral load. The CTL response was not balanced by an increase in regulatory T cells. The T cells expressed inhibitory immunoregulatory receptors, known to dampen intrinsic T cell activity.  In paper IV, we found that a low IgG response in patients was significantly associated with more severe disease, while the viral load did not affect the outcome. Our findings support the use of passive immunization as a treatment alternative for hantavirus-infected patients. In conclusion, my thesis contributes to an increased knowledge about the immune response in hantavirus-infected patients. The findings, combined with future studies, will hopefully lead to a better understanding of the pathogenesis and possible treatment alternatives.

Hantavirus

puumala virus

immune response

viral load

NK cells

T cells

cytokines

disease severity

Diagnosing Changes in Cells Using FTIR Microspectroscopy

Guo, Jing

13 May 2011

Fourier transform infrared (FTIR) microscopy has shown promise as an analytical tool for detecting changes in cells and tissues, such as those due to viral infection, apoptosis induction or malignancy. In many cases, diagnosis via FTIR microscopy can be undertaken on a timescale shorter than that required for other physical or histological techniques. In this work we have used FTIR microscopy to study Vero cells that have been infected with herpes simplex virus (type I) and adenovirus. We have studied cellular samples at various time intervals following exposure to the virus. Several spectral regions were identified that allow discrimination between infected and uninfected Vero cell samples at 24 hours post exposure to both HSV1 and adenovirus. Spectral features were also identified that could be used to discriminate infected cells within 2-6 hours after exposure to both viruses. FTIR microscopy is therefore a useful tool for following the kinetics of viral infection in the 2-24 hours time range, at least at the levels of infection used in this study. In a second type of study, FTIR microscopy was used to study apoptosis induction in acute lymphoblastic leukemia T-cells. Apoptosis was induced in T-cells in three different ways. We show that FTIR microscopy can be used to distinguish T-cells in the early stages of apoptosis from normal cells. We also provide data that may suggest that FTIR microscopy can distinguish cells that have undergone apoptosis via different pathways. For most of the FTIR microscopic studies on cellular samples we have focused on the collection of spectral data in the 1500-800 cm-1 region. Spectra were collected for control cells and variously treated cells. The two sets of cells were then analyzed statistically using: 1) pair-wise comparison, 2) logistic regression, 3) partial least square regression, 4) principle component fed linear discriminant analysis and 5) hierarchical cluster analysis. The statistical analyses rigorously quantify to what extent treated and untreated cells can be distinguished. Since different statistical methods give differing results for the same data, it is important the right statistical method should be applied. The basis for these differences is discussed.

FTIR Microspectroscopy

Vero cells

Herpes simplex virus

T-cells

Apoptosis.

Astrophysics and Astronomy

Physics

Therapeutic immunomodulation of allergic lung disease using regulatory dendritic cells in a mouse model of asthma

Nayyar, Aarti

24 February 2009

We report herein that IL-10-treated dendritic cells (DC) can be used effectively to reverse established severe asthma-like disease in a mouse model. Our lab had shown previously that allergen-presenting splenic CD8¦Á+ DCs could ¡Ö50% reduce airway hyper responsiveness (AHR), eosinophilia, and Th2 responses in asthma-phenotype mice, but only marginally reduce IgE/IgG1 levels. We now show that bone marrow-derived DCs that have been differentiated in the presence of IL-10 (DCIL-10) are effective in reversing the asthma phenotype. Co-culture of DCIL-10 with T memory (TM) cells from asthma-phenotype mice was associated with lack of Th2 responses, and this was partially reversed by IL-2. Immunostimulatory DC activated these Th2 cells. <i>In vivo</i>, delivery of allergen-pulsed DCIL-10, either into the airway or intraperitoneally abrogated AHR from weeks 3-10 post-treatment, and ameliorated lung eosinophilia and Th2 (IL-4, -5, -9, & -13, IgE) responses, as well as circulating allergen-specific IgE responses for at least 32 weeks following treatment. Repeated OVADCIL-10 treatments kept AHR normalized for 8 weeks as well as Th2 responses significantly low. In vivo, delivery of anti-IL-10R, but not anti-TGF-¦Â from day 12-21 after treatment had moderate effects on DCIL-10-driven tolerance, but 1-methyl tryptophan (inhibitor of indoleamine-2,3-dioxygenase) treatment had significant effects on Th2 responses. The mechanisms mediating tolerance in vivo are likely complex, but we speculate that infectious tolerance sustains this regulatory activity during the 32-week period in which we have observed tolerance to be in place.

Immunomodulation

Th2 responses

Airway Hyperresponsiveness

Asthma

Dendritic cells

regulatory T cells

Interleukin-10

Tolerogenic CD4-8- Dendritic Cells and their Conversion into Immunogenic Ones via TLR9 Signaling

Zhang, Xueshu

07 November 2008

It is clear that dendritic cells (DCs) are essential for priming of T cell responses against tumors. However, the distinct roles DC subsets play in regulation of T cell responses in vivo are largely undefined. In this study, we investigated the capacity of ovalbumin (OVA)-presenting CD48, CD4+8, or CD48+ DCs (OVA-pulsed DC (DCOVA)) from mouse spleen in stimulation of OVA-specific T cell responses. Our data show that each DC subset stimulated proliferation of allogeneic and autologous OVA-specific CD4+ and CD8+ T cells in vitro, but that the CD48 DCs did so only weakly. Both CD4+8 and CD48+ DCOVA induced strong tumor-specific CD4+ Th1 responses and fully protective CD8+ cytotoxic T lymphocyte (CTL)-mediated antitumor immunity, whereas CD48 DCOVA, which were less mature and secreted substantial transforming growth factor (TGF- ) upon coculture with T cell receptor (TCR)-transgenic OT II CD4+ T cells, induced the development of interleukin-10 (IL-10)-secreting CD4+ T regulatory 1 (Tr1) cells. Transfer of these Tr1 cells, but not T cells from cocultures of CD48 DCOVA and IL-10/ OT II CD4+ T cells, into CD48+ DCOVA-immunized animals abrogated otherwise inevitable development of antitumor immunity. Taken together, CD48 DCs stimulate development of IL-10-secreting CD4+ Tr1 cells that mediated immune suppression, whereas both CD4+8 and CD48+ DCs effectively primed animals for protective CD8+ CTL-mediated antitumor immunity. <p> Different DC subsets play distinct roles in immune responses. CD4-8- DCs secreting TGF-â stimulate CD4+ regulatory T type 1 (Trl) cell responses leading to inhibition of CD8 CTL responses and antitumor immunity. In this study, we explored the potential effect of three stimuli CpG, lipopolysaccharide (LPS) and anti-CD40 antibody in conversion of CD4-8- DC-induced tolerance. We demonstrated that when CD4-8- DCs were isolated from overnight culture and cultured for another 8 hrs in AIM-V plus recombinant mouse granulocyte-macrophage colony-stimulating factor (rmGM-CSF) (15-20 ng/ml) and OVA (0.1 mg/ml) with CpG (5 ug/ml), LPS (2 ug/ml) and anti-CD40 antibody (10 ug/ml), their phenotype became more mature compared with the freshly isolated ones. CpG is the only agent that stimulates the DCs to secrete significant level of interleukin-6 (IL-6) and interleukin-15 (IL-15); DNA array analyses also indicate that CpG stimulates higher expression of IL-6 and IL-15 mRNA. CpG treatment most efficiently converts the tolerogenic DCs into immunogenic ones which stimulated the OTII CD4+ T cell to become T helper type 1 (Th1) and T helper type 17 (Th17) rather Tr1, while the other two stimulator-treated DCs could not induce Th17 response. Their vaccination also induced the strongest antitumor CTL responses and protective immunity against tumor cell challenge. When CD4-8- DCs were isolated from IL-6 knock out (IL-6-/-) mice, CpG-treated DCOVA vaccination almost completely lost their animal protection capacity. Wild type B6 DCOVA-vaccinated IL-15 receptor knock out (IL-15R-/-) mice can only provide up to 30% protection against tumor challenge. Those results indicate that IL-6/ IL-l5-induced Th17 plays a critical role in their conversion. Taken together, our findings indicate that CpG treatment is the most efficient agent that can convert tolerogenic DCs into immunogenic ones and induce long-lasting antitumor immunity. We previously demonstrated that the nonspecific CD4+ T cells can acquire antigen-specific DC-released exosomes (EXO) and these CD4+ T cells with acquired exosomal MHC I peptide complex (pMHC I) can stimulate antigen-specific CD8+ CTL responses. In my project we have found that CD4-8-DCs could induce regulatory T cell type 1(Tr1) response, thus it would be very necessary to know whether regulatory T cells would change their antigen specificity if they got the membrane complex from DC through coculture or DC-derived exosome pulsing. During the beginning of my regulatory T cell project, we found that CD8+CD25+ Tr were much more easily expanded, while CD4+CD25+ Tr usually began to die just after 3 days in vitro culture and its very hard to get enough cells for further research. Therefore, CD8+CD25+ were used as a model Tr cells in the following project. To assess whether the nonspecific CD8+CD25+ Tr cells can acquire antigen-specificity via acquired exosomal pMHC I, we purified CD8+CD25+ Tr cells from wild-type C57BL/6 mice and OVA-pulsed DCOVA-released EXOOVA expressing pMHC I complexes. We demonstrated that the nonspecific CD8+CD25+ Tr cells expressing forkhead box P3 (Foxp3), cytotoxic T-Lymphocyte Antigen 4 (CTLA-4), glucocorticoid-induced tumor necrosis factor receptor (GITR), perforin and granzyme B inhibited in vitro T cell proliferation and in vivo OVA-specific CD4+ T cell-dependent and independent CD8+ CTL responses and antitumor immunity. CD8+CD25+ Tr cells suppressive effect is possibly mediated through its inhibition of DC maturation, down-regulation of secretion of Th1 polarization cytokines by DCs and its induction of T cell anergy via cell-to-cell contact. The nonspecific CD8+CD25+ Tr cells acquired antigen specificity by uptake of DCOVA-released EXOOVA expressing pMHC I and enhanced its effect on inhibition of OVA-specific CD8+ T cell responses and antitumor immunity by 10-folds. The principles elucidated in this study may have significant implications not only in antitumor immunity, but also in other sectors of immunology (e.g, autoimmunity and transplantation).

CD4-8-DCs

Tolerogenic

Regulatory T cells

Conversion

CpG

CD8+CD25+

pMHC I

Receptor-Mediated Antigen Delivery by &Alpha;<Sub>2</Sub>-Macroglobulin: Effect on Cytotoxic T Lymphocyte Immunity and Implications for Vaccine Development

Bowers, Edith Villette

January 2009

<p><p>The receptor-recognized form of &alpha;₂-macroglobulin (&alpha;₂M*) targets antigens (Ag) to professional Ag-presenting cells (APCs) for rapid internalization, processing, and presentation. When employed as an Ag delivery vehicle, &alpha;₂M* amplifies major histocompatibility complex (MHC) class II presentation as demonstrated by increased antibody (Ab) titers. Recent evidence, however, suggests that &alpha;₂M*-encapsulation may also enhance Ag-specific cytotoxic T lymphocyte (CTL) immunity. In these studies, we demonstrate that &alpha;₂M*-delivered Ag (ovalbumin, OVA) enhances the production of specific <italic>in vitro</italic> and <italic>in vivo</italic> CTL responses. <br><p>Murine splenocytes expressing a transgenic T cell receptor (TCR) specific for CTL peptide OVA_257-264 (SIINFEKL) demonstrated up to 25-fold greater IFN-&gamma; and IL-2 secretion when treated <italic>in vitro</italic> with &alpha;₂M*-OVA compared to soluble OVA. The frequency of IFN-&gamma; -producing cells was increased ~15-fold as measured by ELISPOT. Expansion of the OVA-specific CD8<super>+</super> T cells, as assayed by tetramer binding and [<super>3</super>H]thymidine incorporation, and cell-mediated cytotoxicity, as determined by a flow cytometric assay, were also significantly enhanced by &alpha;₂M*-OVA. Furthermore, CTL responses were observed at Ag doses tenfold lower than those required with OVA alone. <br><p>We also observed enhanced humoral and CTL responses by naïve mice following intradermal immunization with &alpha;₂M*-OVA. These &alpha;₂M*-OVA-immunized mice displayed increased protection against a subcutaneously implanted OVA-expressing tumor, as demonstrated by delayed tumor growth and prolonged animal survival. The anti-tumor response observed with &alpha;₂M*-mediated Ag delivery was comparable to that of an accepted vaccine adjuvant (CpG 1826) and appeared superior to a cell-based vaccine technique. <br><p>To further understand the mechanism underlying this enhanced CTL immunity, the subsets of professional APCs capable of cross-presenting &alpha;₂M*-encapsulated Ag were investigated. Although both dendritic cells (DCs) and macrophages appear to stimulate some degree of cross-priming in response to &alpha;₂M*-encapsulated Ag, CD8<super>+</super>CD4<super>-</super> and CD8<super>-</super>CD4<super>+</super> DCs appear to do so with the greatest efficiency. The implications of this finding to the ongoing debate regarding the relative contributions of APC subsets to Ag cross-presentation and the determinants of which cells cross-present with high efficiency are discussed. <br><p>These observations demonstrate that &alpha;₂M*-mediated Ag delivery promotes cross-presentation resulting in enhanced Ag-specific CTL immunity. Considered in the context of previous work, these results support &alpha;₂M* as an effective Ag delivery system that may be particularly useful for vaccines based on weakly immunogenic subunits or requiring dose sparing.</p> / Dissertation

Health Sciences, Pathology

Health Sciences, Immunology

antigen presentation

cross

presentation

cytotoxic T cells

dendritic cells

vaccination

The Impact of Social Stress on Central Nervous System Inflammation and T Cell Response to Theiler’s Virus Infection

Vichaya, Elisabeth Good

2011 May 1900

A growing body of evidence suggests that social stress contributes to the pathogenesis of neurodegenerative diseases, such as multiple sclerosis (MS). For example, prior research has shown that social disruption (SDR) stress behaviorally and immunologically exacerbates Theiler’s murine encephalomyelitis virus (TMEV) infection. TMEV infection results in acute infection of the central nervous system (CNS) followed by a chronic demyelinating autoimmune disease, similar to that seen in MS. Research suggests that social stress exerts these effects by altering the immune response to infection. More specifically, it is hypothesized that SDR sensitizes the acute inflammatory response to infection and suppresses T cell effector function in the acute phase of disease. It was demonstrated that SDR is sufficient to alter inflammation. Exposure to a single session of SDR increases IL-­‐1β mRNA expression; however, IL-­‐6 mRNA expression, but not IL-­‐1β, is up regulated in response to chronic SDR. Furthermore, chronic SDR prior to infection resulted in increased infection related central IL-­‐6 and IL-­‐1β mRNA expression, and central administration of IL-­‐6 neutralizing antibody during SDR reverses this increase in neuroinflammation. This suggests that SDR sensitizes infection related CNS inflammation through an up-­‐regulation of IL-­‐6. Chronic SDR prior to infection also resulted in enhanced CNS viral titers and suppression of virus-­‐induced CD4 and CD8 T cell IFN-­‐γ release within the CNS. As a whole, this research indicates that SDR exacerbates the disease course of TMEV infection by altering the central innate and adaptive immune response to infection. This research enhances our understanding of the mechanisms by which social stress exacerbates neurodegenerative disease pathogenesis.

multiple sclerosis

Theiler's Virus

TMEV

social stress

IL-6

neuroinflammation

T cells

Untersuchungen zur differentiellen Wirkung von verschiedenen Anti-CD4 monoklonalen Antikörpern auf T-Zellen

Pohlers, Dirk

16 February 2011

CD4+-T-Helferzellen sind in großer Zahl in der entzündeten Synovialmembran bei rheumatoider Arthritis (RA) sowie in Arthritismodellen vorhanden und spielen mit großer Wahrscheinlichkeit eine bedeutende Rolle in der Pathogenese von Arthritiden. Bei der präventiven Behandlung mit drei verschiedenen Anti-CD4 monoklonalen Antikörpern (mAk) im Modell der Adjuvansarthritis der Ratte (AA) wurden abhängig von dem jeweils eingesetzten mAk unterschiedliche klinische Verbesserungen beobachtet. Im Mittelpunkt der Untersuchungen stand deshalb die Suche nach Parallelen zwischen der unterschiedlichen klinischen Effizienz der Anti-CD4 mAk W3/25, OX35 (klinisch effizient) und RIB5/2 (klinisch ineffizient) bei der präventiven Therapie der AA und ihren in vitro Effekten auf TZell-Funktionen als Erklärung für die unterschiedlichen Therapieeffekte. Keine klaren Parallelen zur differentiellen klinischen Effizienz ergaben sich bei den folgenden Untersuchungen: 1.) Bestimmung der Affinitäten der mAk zum CD4-Molekül. 2.) Inhibition der Proliferation in der primären gemischten Lymphozytenkultur (1° MLC) mit CD4+-T-Zellen und CD8+-T-Zellen durch die drei mAk 3.) Beeinflussung der Produktion der Zytokine IL-2, IFNg, IL-10 und IL-4 in verschiedenen experimentellen Ansätzen (sekundäre MLC nach Anwesenheit der mAk in der 1° MLC, Kreuzvernetzung des CD4-Moleküls mittels der mAk nach bzw. vor einer Stimulation von CD4+-T-Zellen über den TZR). 4.) Einfluss der drei Anti-CD4 mAk auf die TZR-vermittelte Apoptose. 5.) Mobilisierung von intrazellulärem Kalzium durch CD4-Kreuzvernetzung mittels der mAk. 6.) Aktivität der Tyrosinkinasen p56lck und p59fyn nach CD4-Kreuzvernetzung mittels der mAk. 7) Phosphorylierung des Shc-Adaptermoleküls durch CD4-Kreuzvernetzung mittels der drei mAk. 8.) Effekte der drei mAk auf die Aktivität der Transkriptionsfaktoren NF-AT und AP-1. Dagegen ergaben sich bei den Untersuchungen zur Produktion von TNFa und zur Aktivität des Transkriptionsfaktors NF-kB eindeutige Parallelen zur differentiellen klinischen Effizienz: 1.) Die Kreuzvernetzung des CD4-Moleküls mittels des mAk RIB5/2 nach bzw. vor einer Stimulation von CD4+-T-Zellen über den TZR induzierte eine signifikant höhere Sekretion von TNFa als mit den mAk W3/25 und OX35. 2.) Die Kreuzvernetzung des CD4-Moleküls mittels des mAk RIB5/2 vor einer Stimulation von CD4+-T-Zellen über den TZR führte zu einer signifikant stärkeren Erhöhung der Aktivität von NF-kB als mit den mAk W3/25 und OX35. Beide differentiellen Effekte könnten daher die Erklärung für die unterschiedliche klinische Effizienz der drei Anti-CD4 mAk darstellen.

Anti-CD4 T-Zellen Immunologie

Anit-CD4 T cells immunology

ddc:570

Functional and molecular characterization of RIBP, an Rlk/Itk-binding adaptor protein involved in TCR signal transduction /

Rajagopal, Keshava.

January 2001

Thesis (Ph. D.)--University of Chicago, Faculty of the Division of the Biological Sciences and the Pritzker School of Medicine, Commitee on Immunology, June 2001. / Includes bibliographical references. Also available on the Internet.

Periodic solutions and bistability in a model for cytotoxic T-lymphocyte (CTL) response to human T-cell lymphotropic virus type 1 (HTLV-I)

Lang, John Cameron.

January 2009

Thesis (M. Sc.)--University of Alberta, 2009. / Title from pdf file main screen (viewed on January 10, 2010). "A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Master of Science in Applied Mathematics, Department of Mathematics and Statistical Sciences, University of Alberta." Includes bibliographical references.