Generation of Therapeutic T Cells for Prostate Cancer

Forsberg, Ole

January 2009

The work presented herein focuses on the activation of the adaptive immune system in order to develop T cell-based immunotherapy for viral infections and cancer. The main goal was to identify and activate viral or tumoral antigen-specific T cells by using different identification, isolation and stimulation techniques. One such approach was that we modified dendritic cells (DCs) with an adenoviral vector encoding the full length pp65 antigen from cytomegalovirus (CMV). Through strategic modification techniques we demonstrate that it is possible to obtain DCs presenting antigen-specific peptides both on major histocompatibility complex (MHC) class I and MHC class II molecules for simultaneous CD8+ and CD4+ T cell activation. We also demonstrate that it is possible to generate prostate antigen-specific CD8+ T cells from a naïve repertoire of T cells by using DCs and HLA-A2-restricted peptides derived from prostate tumor-associated antigens or by using an adenoviral vector encoding the full length prostate tumor-associated antigen STEAP. We further demonstrate that CD8+ T cells directed against several prostate-specific peptide epitopes can be found in peripheral blood and in the prostate tumor area of prostate cancer patients. Furthermore, we have characterized a number of prostate-derived cell lines in terms of HLA haplotype and tumor-association antigen expression. We concluded that our methods for generating T cells restricted to CMV antigen have the ability to be applied for adoptive T cell transfer to patients with CMV disease and that prostate antigen-specific T cells can be found within prostate cancer patients, which enables future development of immunotherapeutic strategies for prostate cancer.

Prostate cancer

T cells

dendritic cells

peptides

cytomegalovirus

adenovirus

immunotherapy

Clinical immunology

Klinisk immunologi

Spatiotemporal Dynamics of Calcium/calmodulin-dependent Kinase II in Single Dendritic Spines During Synaptic Plasticity

Lee, Seok-Jin

January 2011

<p>Synaptic plasticity is the leading candidate for the cellular/molecular basis of learning and memory. One of the key molecules involved in synaptic plasticity is Calcium/calmodulin-dependent Kinase II (CaMKII). Synaptic plasticity can be expressed at a single dendritic spine independent of its neighboring dendritic spines. Here, we investigated how long the activity of CaMKII lasts during synaptic plasticity of single dendritic spines. We found that CaMKII activity lasted ~2 minutes during synaptic plasticity and was restricted to the dendritic spines undergoing synaptic plasticity while nearby dendritic spines did not show any change in the level of CaMKII activity. Our experimental data argue against the persistent activation of CaMKII in dendritic spines undergoing synaptic plasticity and suggest that the activity of CaMKII is a spine-specific biochemical signal necessary for synapse-specificity of synaptic plasticity. We provide a biophysical explanation of how spine-specific CaMKII activation can be achieved during synaptic plasticity. We also found that CaMKII is activated by highly localized calcium influx in the proximity of Voltage-dependent Calcium Channels (VDCCs) and a different set of VDCCs and their respective Ca2+ nanodomains are responsible for the differential activation of CaMKII between dendritic spines and dendritic shafts.</p> / Dissertation

Neurosciences

Calcium Nanodomain

CaMKII

Dendritic Spine

FRET/FLIM

Synaptic Plasticity

Two-photon microscopy

A novel method of generating Dendritic cells in vitro using the KG-1 cell line and its use as a model for testing effects of lactic acid bacteria

Vidya, Parimala

01 August 2011

Dendritic cells (DCs) are prime mediators of innate and adaptive immunity. In humans the DC population comprise only 0.1% of all leukocytes, making their isolation and ex vivo manipulation difficult. Since study of DC activity in vitro requires large numbers of DCs to be readily available, a cell line model, KG-1, was selected. KG-1 cells are a cytokine-responsive human CD34+ myelomonocytic cell line and can be induced to differentiate to a DC phenotype. A range of differentiation agents and protocols were compared, and differentiation efficiency was determined using both morphological features and cell surface marker expression. Expression of CD83, CD11c, CD123, CD86, HLA-DR and DC-SIGN was assessed by immunofluorescence and flow cytometry. KG-1 cells stimulated with 10 ng/ml PMA and 100 ng/ml Ionomycin were found to be the ideal model for obtaining Dendritic Like Cells (DLCs) in vitro. The effect of lactic acid bacteria on KG-1 differentiation was also tested using two immunomodulatory strains, Lactobacillus rhamnosus R0011 and Lactobacillus helveticus R0052. After 5 days of incubation with R0011 the KG-1 cells expressed DC-specific surface markers CD83, CD86, CD11c, CD123, DC-SIGN and HLA-DR. Lactobacillus rhamnosus R0011 induced a marked rise in CD83 expression with a mean fluorescence intensity of 115.3 after 5 days, suggesting this strain promoted KG-1 differentiation to DLC. Analysis of cytokine by KG-1 DLC indicated that constitutive production of pro-inflammatory cytokines TNF-α and IL-12 was minimal. However IL-10 and TGF-β were detected after TLR-agonist stimulation of R0011-differentiated KG-1s. This study aimed to develop and assess the KG-1 cell model for screening effects of mediators and microbes on DC. / UOIT

Dendritic cells

KG-1 cells

Cell surface markers

Flow cytometry

Lactobacilli

Histogram

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

HER-2/neu-targeted immunoprevention of breast cancer

Sas, Sheena Emm

27 March 2007

Improvements in the use of traditional breast cancer therapies have improved the overall survival of women with early stage disease. Remarkable advances in research have created a unique opportunity for developing active vaccination strategies that engage the bodys own immune system in the fight against breast cancer. Human Epidermal Growth Factor Receptor 2 (HER-2/neu) is a breast tumor antigen (Ag) commonly overexpressed in 30% of breast cancer cases. HER-2/neu-targeted DNA-based and fiber-modified dendritic cell (DC)-based vaccines are both analyzed as potent elements in eliciting HER-2/neu specific antitumor immune responses. A HER-2/neu-expressing DNA plasmid (pcDNA/neu) coadministered with the appropriate adjuvant vector was the first study looking at improving vaccine efficacy and enhancing immune responses. Various protection and prevention studies, using FVB/N (wild-type) and FVB/neuN [transgenic (Tg)] mice and Tg1-1 tumor cells, derived from a spontaneous tumor from Tg mice, are used to help narrow down the large panel of adjuvant vectors. Results showed the adjuvant vector pcDNA/TNF-α, when coadministered with pcDNA/neu, induced more efficient protective tumor-specific immunity and significantly delayed breast cancer development in Tg mice.<p>Another study utilized an<i>in vivo</i> murine tumor model expressing the rat neu Ag to compare the immunization efficacy between DC transduced with replication-deficient fiber-modified adenovirus (AdV) containing neu (AdV(RGD)neu), to form DC(RGD)neu, and non-modified DCneu. DC(RGD)neu displayed an upregulation of immunologically important molecules and inflammatory cytokine expression through FACS Analysis, and more importantly increased expression of neu, when compared to DCneu. DC(RGD)neu stimulated a higher percentage of HER-2/neu-specific CD8+ T cells, a stronger neu-specific CTL response, and induced a much stronger Th1- and Th2-type immune response than DCneu. Furthermore, vaccination with DC(RGD)neu induced enhanced protective tumor-specific immunity compared to DCneu in wild-type and Tg mice.<p>Overall the construction of recombinant vectors containing two transgenes (HER-2/neu and TNF-α), can not overcome the induction of HER-2/neu-directed immune tolerance. The fiber-modified (RGD) DCneu vaccine induced enhanced anti-HER-2/neu immunity compared to non-modified DCneu in the prevention of breast cancers.

cancer vaccine

dendritic cell

fiber modified adenovirus

HER-2/neu

breast cancer

The Effect of Helicobacter pylori on Innate Immunity

Ang, Michelle

21 July 2010

The innate immune system is important in both acute and chronic infection. In this thesis, I investigated the effect of H. pylori infection on 1) DCs, key orchestrators of the immune system, and 2) autophagy, recently identified as an important component of innate immunity. I determined that H. pylori activates the STAT3 pathway in DCs, increasing DC maturation and inducing production of IL-10, IL-12p40 and TNF-α, without IL-12p70. This cytokine profile may favour an immunoregulatory response, promoting persistent H. pylori infection. In addition I determined that H. pylori’s VacA toxin induced autophagy, ROS production and Parkin aggregation which has been implicated in mediating autophagy in response to mitochondrial damage. Thus H. pylori alters these key effectors of innate immunity which may play a role in promoting its chronic infection and disease.

H. pylori

Immunity

STAT3

Dendritic Cell

Autophagy

VacA

ROS

Parkin

0719

The Effect of Helicobacter pylori on Innate Immunity

Ang, Michelle

21 July 2010

The innate immune system is important in both acute and chronic infection. In this thesis, I investigated the effect of H. pylori infection on 1) DCs, key orchestrators of the immune system, and 2) autophagy, recently identified as an important component of innate immunity. I determined that H. pylori activates the STAT3 pathway in DCs, increasing DC maturation and inducing production of IL-10, IL-12p40 and TNF-α, without IL-12p70. This cytokine profile may favour an immunoregulatory response, promoting persistent H. pylori infection. In addition I determined that H. pylori’s VacA toxin induced autophagy, ROS production and Parkin aggregation which has been implicated in mediating autophagy in response to mitochondrial damage. Thus H. pylori alters these key effectors of innate immunity which may play a role in promoting its chronic infection and disease.

H. pylori

Immunity

STAT3

Dendritic Cell

Autophagy

VacA

ROS

Parkin

0719

The immunomodulation of porcine immune cells by innate and synthetic host defense peptides

2013 January 1900

Dendritic cells (DCs) are potent antigen presenting cells (APCs) that link the innate and adaptive immune system by their unique ability to induce and direct immune responses towards various T helper (Th)-type of immune responses such as Th1-, Th2-, Th9-, Th17-, Th22- or T regulatory (TR). The type of Th response generated very much depends on the nature of the antigen encountered and allows for an effective and proficient immune response. For example, Th1 responses are used to clear intracellular pathogens while Th2 responses are needed to clear extracellular pathogens The ability to specifically modulate Th-responses is an area of intense research, as it allows for the development of more effective vaccines and immunotherapeutics. Immunomodulation of DCs is one strategy by which specific Th-type immune responses may be tailored. Current research is focused on identifying agents that have the capacity to immunomodulate DCs such as host defense peptides (HDPs). Apart from their anti-microbial activities, HDPs have a number of immune functions including recruitment and subsequent activation of DCs. The goal of this study was to examine the immunomodulatory effects of HDPs on porcine DC functions. This research was part of a larger multinational research project to develop a novel adjuvant platform for single-immunization vaccines against pertussis in neonates. The pig model was used for this research because of its physiological similarities to humans and the recently developed pertussis infection model in young piglets. A series of experiments was conducted to characterize and describe porcine DC functions. Two subsets of DCs were successfully characterized and tested for their response to stimulation with HDPs. Initial results demonstrated a minimal effect of HDPs on DC functions, therefore we expanded the number of HDPs used to include both synthetic derivatives of HDPs known as innate defense regulators (IDRs) and naturally- occurring HDPs. We examined these effects on peripheral blood mononuclear cells (PBMC) in vitro and found that HDPs induce expression of the chemokine interleukin (IL)-8, which resulted in PBMC recruitment in vitro. We then proceeded to evaluate the HDPs in vivo by intradermally administering them into the flank of pigs. Surprisingly, treatment with the HDPs did not result in recruitment of neutrophils in vivo. We also examined the effects of formulating IDR-1002 as an adjuvant with the academic antigen Keyhole Limpet Hemocyanin (KLH) on the development of KLH-specific immune responses in vaccinated pigs. While there was no difference in antibody titers between vaccinated and control animals, we found that co-formulation with IDR-1002 decreased both antigen-specific and mitogen-induced proliferation in KLH/IDR-1002 vaccinated animals as long as four weeks post-treatment. These results demonstrate that specific IDRs can suppress certain aspects of the pro-inflammatory immune response making them potentially highly versatile tools to modulate and tailor the immune response in disease states characterized by a pro-inflammatory component.

porcine

dendritic cells

peripheral blood mononuclear cells

host defense peptides

immunomodulation

Distribution and frequency of myeloid and t cell populations in the small intestine of newborn and weaned calves

Fries, Patrick Norbert

25 August 2011

The development of mucosal dendritic cells (DCs) in cattle is poorly understood and an analysis of myeloid cells in the bovine small intestine is required to increase our knowledge in this area. The phenotype, frequency and distribution of mucosal myeloid and lymphoid lamina propria leukocytes (LPL) and intraepithelial leukocytes (IEL) in the ileum and jejunum of newborn calves (3-5 weeks old) were analyzed using flow cytometry and immunohistochemistry (IHC). LPL and IEL were isolated through the use of chemical and enzymatic incubations. Costaining with a CD45-specific monoclonal antibody allowed us to exclude all non-leukocytic cells from our analysis of IEL and LPL. The morphology of CD45+CD11c+MHC Class II+ cells isolated from the lamina propria (LP) of ileum and jejunum showed myeloid characteristics, validating the use of CD11c and MHC Class II co-expression to identify myeloid cells. Regional differences in the frequency and number of leukocytes isolated from the IEL and LP compartments of the ileum and jejunum were analyzed in newborn calves. The CD11cHiCD14+ and CD335+ NK cell populations were significantly more abundant in the ileum than the jejunum. IHC was then used to identify the distribution of myeloid cells within the intestine. This analysis confirmed the presence of a variety of myeloid cell populations within the LP. Furthermore, CD11c+ cells were uniquely distributed within the jejunal, but not the ileal IEL compartment. In contrast, CD11b+ cells were present in the ileal, but absent from the jejunal, IEL compartment. A comparison of myeloid cell populations isolated from jejunum and blood dentified distinct mucosal DC populations, such as CD11c+CD13+ cells, which were present in he jejunum but absent from blood. The phenotype, frequency and distribution of IEL and LPL in the ileum and jejunum of weaned calves (6 months old) were then investigated. Significant regional differences were observed when comparing mucosal T cell populations with CD8+ and γδ T cells more abundant in the ileum and CD4+ T cells more abundant in the jejunum. Proportionally, there were no significant differences between the frequency and number of myeloid populations in the two regions. IHC was, once again, used to confirm these unique distributions of cells within each region. CD11b+ cells were present in the LP of both the ileum and jejunum, although a small number of CD11b+ cells were found in the ileal epithelium. CD4+ T cells were restricted to the LP, while CD8+ and γδ T cells were restricted to the IEL compartment. Significant age-related changes were observed when comparing mucosal leukocyte populations in the ileum and jejunum of newborn and 6 month old calves. In the ileum there was an age-related enrichment of CD8+ and γδ T cells, while in the jejunum there was enrichment in CD4+ and CD8+ T cells. In contrast, total myeloid (CD11c+MHC Class II+) cells number remained unchanged but there was a significant age-related enrichment of DC subpopulations (CD13, CD26, CD205). In conclusion, the ileum and jejunum of the newborn calf was populated by diverse myeloid subpopulations, some of which were distinct from myeloid subpopualtions identified in blood. Furthermore, the total number of CD11cHiMHC Class II+ myeloid cells isolated from a 10 cm segment of intestine did not change with age. If neonatal DCs are functionally equivalent to DCs present in weaned calves then the neonatal mucosal immune system appears to have an equivalent capacity to acquire and present antigens acquired from diet, commensal microflora, or pathogens. The one limitation to this conclusion may be the marked difference in the distribution of intraepithelial DC and macrophage distribution when comparing newborn and weaned calves.

lamina propria leukocytes

intraepithelial lymphocytes

dendritic cells

cellular immunology

bovine

small intestine

mucosal immunity

Distribution and frequency of myeloid and t cell populations in the small intestine of newborn and weaned calves

Fries, Patrick Norbert

25 August 2011

The development of mucosal dendritic cells (DCs) in cattle is poorly understood and an analysis of myeloid cells in the bovine small intestine is required to increase our knowledge in this area. The phenotype, frequency and distribution of mucosal myeloid and lymphoid lamina propria leukocytes (LPL) and intraepithelial leukocytes (IEL) in the ileum and jejunum of newborn calves (3-5 weeks old) were analyzed using flow cytometry and immunohistochemistry (IHC). LPL and IEL were isolated through the use of chemical and enzymatic incubations. Costaining with a CD45-specific monoclonal antibody allowed us to exclude all non-leukocytic cells from our analysis of IEL and LPL. The morphology of CD45+CD11c+MHC Class II+ cells isolated from the lamina propria (LP) of ileum and jejunum showed myeloid characteristics, validating the use of CD11c and MHC Class II co-expression to identify myeloid cells. Regional differences in the frequency and number of leukocytes isolated from the IEL and LP compartments of the ileum and jejunum were analyzed in newborn calves. The CD11cHiCD14+ and CD335+ NK cell populations were significantly more abundant in the ileum than the jejunum. IHC was then used to identify the distribution of myeloid cells within the intestine. This analysis confirmed the presence of a variety of myeloid cell populations within the LP. Furthermore, CD11c+ cells were uniquely distributed within the jejunal, but not the ileal IEL compartment. In contrast, CD11b+ cells were present in the ileal, but absent from the jejunal, IEL compartment. A comparison of myeloid cell populations isolated from jejunum and blood dentified distinct mucosal DC populations, such as CD11c+CD13+ cells, which were present in he jejunum but absent from blood. The phenotype, frequency and distribution of IEL and LPL in the ileum and jejunum of weaned calves (6 months old) were then investigated. Significant regional differences were observed when comparing mucosal T cell populations with CD8+ and γδ T cells more abundant in the ileum and CD4+ T cells more abundant in the jejunum. Proportionally, there were no significant differences between the frequency and number of myeloid populations in the two regions. IHC was, once again, used to confirm these unique distributions of cells within each region. CD11b+ cells were present in the LP of both the ileum and jejunum, although a small number of CD11b+ cells were found in the ileal epithelium. CD4+ T cells were restricted to the LP, while CD8+ and γδ T cells were restricted to the IEL compartment. Significant age-related changes were observed when comparing mucosal leukocyte populations in the ileum and jejunum of newborn and 6 month old calves. In the ileum there was an age-related enrichment of CD8+ and γδ T cells, while in the jejunum there was enrichment in CD4+ and CD8+ T cells. In contrast, total myeloid (CD11c+MHC Class II+) cells number remained unchanged but there was a significant age-related enrichment of DC subpopulations (CD13, CD26, CD205). In conclusion, the ileum and jejunum of the newborn calf was populated by diverse myeloid subpopulations, some of which were distinct from myeloid subpopualtions identified in blood. Furthermore, the total number of CD11cHiMHC Class II+ myeloid cells isolated from a 10 cm segment of intestine did not change with age. If neonatal DCs are functionally equivalent to DCs present in weaned calves then the neonatal mucosal immune system appears to have an equivalent capacity to acquire and present antigens acquired from diet, commensal microflora, or pathogens. The one limitation to this conclusion may be the marked difference in the distribution of intraepithelial DC and macrophage distribution when comparing newborn and weaned calves.

lamina propria leukocytes

intraepithelial lymphocytes

dendritic cells

cellular immunology

bovine

small intestine

mucosal immunity