Functional characterization of in vivo effector CD4+ and CD8+ T cell responses in acute Toxoplasmosis: An interplay of IFN-γ and cytolytic T cells

Vaccine ◽  
2010 ◽  
Vol 28 (13) ◽  
pp. 2556-2564 ◽  
Author(s):  
Erik Jongert ◽  
Arnaud Lemiere ◽  
Jo Van Ginderachter ◽  
Stéphane De Craeye ◽  
Kris Huygen ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Functional Characterization ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
Cell Responses ◽  
Ifn Γ ◽  
Acute Toxoplasmosis

scholarly journals Adrenergic signaling controls early transcriptional programs during CD8+ T cell responses to viral infection

2021 ◽  
Author(s):  
Leonardo Estrada ◽  
Didem Agac Cobanoglu ◽  
Aaron Wise ◽  
Robert Maples ◽  
Murat Can Cobanoglu ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
Receptor Activation ◽  
Cell Development ◽  
Primary Response ◽  
Cell Responses

Viral infections drive the expansion and differentiation of responding CD8+ T cells into variegated populations of cytolytic effector and memory cells. While pro-inflammatory cytokines and cell surface immune receptors play a key role in guiding T cell responses to infection, T cells are also markedly influenced by neurotransmitters. Norepinephrine is a key sympathetic neurotransmitter, which acts to suppress CD8 + T cell cytokine secretion and lytic activity by signaling through the beta2-adrenergic receptor (ADRB2). Although ADRB2 signaling is considered generally immunosuppressive, its role in regulating differentiation of effector T cells in response to infection has not been investigated. Using an adoptive transfer approach, we compared the expansion and differentiation of wild type (WT) to Adrb2-/- CD8 + T cells throughout the primary response to vesicular stomatitis virus (VSV) infection in vivo. We measured the dynamic changes in transcriptome profiles of antigen-specific CD8 + T cells as they responded to VSV. Within the first 7 days of infection, WT cells out-paced the expansion of Adrb2-/- cells, which correlated with reduced expression of IL-2 and the IL-2Ralpha; in the absence of ADRB2. RNASeq analysis identified over 300 differentially expressed genes that were both temporally regulated following infection and selectively regulated in WT vs Adrb2-/- cells. These genes contributed to major transcriptional pathways including cytokine receptor activation, signaling in cancer, immune deficiency, and neurotransmitter pathways. By parsing genes within groups that were either induced or repressed over time in response to infection, we identified three main branches of genes that were differentially regulated by the ADRB2. These gene sets were predicted to be regulated by specific transcription factors involved in effector T cell development, such as Tbx21 and Eomes. Collectively, these data demonstrate a significant role for ADRB2 signaling in regulating key transcriptional pathways during CD8 + T cells responses to infection that may dramatically impact their functional capabilities and downstream memory cell development.

scholarly journals Functional characterization of CD4 and CD8 T cell responses among human papillomavirus infected patients with ano-genital warts

VirusDisease ◽  
2017 ◽  
Vol 28 (2) ◽  
pp. 133-140 ◽  
Author(s):  
Manjula Singh ◽  
Deepshi Thakral ◽  
Narayan Rishi ◽  
Hemanta Kumar Kar ◽  
Dipendra Kumar Mitra
Keyword(s):  
Human Papillomavirus ◽  
T Cell ◽  
Functional Characterization ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
Genital Warts ◽  
Cell Responses

Ex-Vivo Characterization of Polyclonal Memory CD8+ T-Cell Responses to PRAME-Specific Peptides in Patients with Acute Leukemia and Chronic Myeloid Leukemia

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 2910-2910
Author(s):  
Katayoun Rezvani ◽  
Agnes S. M. Yong ◽  
Abdul Tawab ◽  
Behnam Jafarpour ◽  
Rhoda Eniafe ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Myeloid Leukemia ◽  
Ex Vivo ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
High Avidity ◽  
Cell Responses ◽  
Ifn Γ

Abstract PRAME (Preferentially expressed antigen of melanoma) is aberrantly expressed in hematological malignancies and may be a useful target for immunotherapy in leukemia. We studied CD8+ T-cell responses to four HLA-A*0201-restricted PRAME-derived epitopes (PRA100, PRA142, PRA300, PRA425) in HLA-A*0201-positive patients with acute lymphoblastic leukemia (ALL), acute myeloid leukemia (AML), chronic myeloid leukemia (CML) and healthy donors, using PRA300/HLA-A*0201 tetramer staining, intracellular cytokine (IC) assay and ex-vivo and cultured ELISPOT analysis. CD8+ T-cells recognizing PRAME peptides were detected directly ex-vivo in 4/10 ALL, 6/10 AML, 3/10 CML patients and 3/10 donors. The frequency of PRAME-specific CD8+ T-cells was greater in patients with AML, CML and ALL than in healthy controls. All peptides were immunogenic in patients, whilst PRA300 was the only immunogenic peptide in donors. High PRAME expression in patient peripheral blood mononuclear cells was associated with responses to two or more PRAME epitopes (4/7 vs. 0/23 in individuals with low PRAME expression, P = 0.001), suggesting a PRAME-driven T-cell response. In 2 patients studied PRA300/HLA-A*0201+ CD8+T-cells were found to be a mixture of effector and central memory phenotypes. To determine the functional avidity of the PRAME T-cell response, the response of CD8+ T-cells to stimulation with 2 concentrations of peptide was measured by IC-IFN-γ staining. High-avidity CD8+ T-cells were defined as those capable of producing IFN-γ in response to the lower concentration of peptide (0.1μM), while low-avidity CD8+ T-cells were those that only produced IFN-γ in response to the higher concentration of peptide (10 μM). Both high and low-avidity CD8+ T-cell responses could be detected for all peptides tested (median 1.05, 0.90, 0.52, 0.40 high/lowavidity ratios for PRA100, PRA142, PRA300 and PRA425 respectively). In patients with high PRAME expression (>0.001 PRAME/ABL) low-avidity CD8+ T-cell responses to PRAME peptides were more prominent than high-avidity responses, suggesting selective deletion of high-avidity T-cells. In contrast, in some patients with levels <0.001 PRAME/ABL, we could detect the presence of high-avidity CD8+ T-cell responses to PRAME. PRAME-specific CD8+ T-cells were further characterized by IC staining for IL-2, IL-4 and IL-10 production and CD107a mobilization (as a marker of cytotoxicity). Following stimulation with the relevant PRAME peptide, there was no significant production of IL-2, IL-4 or IL-10, suggesting a Tc1 effector response but no significant CD107a mobilization was detected despite significant CD107a mobilization in the same patient in response to CMVpp65495. This finding suggests that patients with leukemia have a selective functional impairment of PRAME-specific CD8+ T-cells, consistent with PRAME-specific T cell exhaustion. However, PRAME-specific T-cells were readily expanded in the presence of cytokines in short-term cultures in-vitro to produce IFN-γ, suggesting that it may be possible to improve the functional capacity of PRAME-specific T-cells for therapeutic purposes. These results provide evidence for spontaneous T-cell reactivity against multiple epitopes of PRAME in ALL, AML and CML and support the usefulness of PRAME as a target for immunotherapy in leukemia. The predominance of low-avidity PRAME-specific CD8+ T-cells suggests that achievement of a state of minimal residual disease may be required prior to peptide vaccination to augment T-cell immune surveillance.

The Response to Repeated Vaccination with PR1 and WT1 Peptides Admixed in Montanide Adjuvant Is Transient and Fails to Induce Sustained Anti-Leukemia Responses in Patients with Myeloid Malignancies.

Blood ◽  
2009 ◽  
Vol 114 (22) ◽  
pp. 4096-4096
Author(s):  
Katayoun Rezvani ◽  
Agnes S. M. Yong ◽  
Stephan Mielke ◽  
Behnam Jafarpour ◽  
Bipin N. Savani ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Cell Response ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
T Cell Response ◽  
Gm Csf ◽  
Cell Responses ◽  
Ifn Γ

Abstract Abstract 4096 Poster Board III-1031 We previously demonstrated the immunogenicity of a combined vaccine approach employing two leukemia-associated antigenic peptides, PR1 and WT1 (Rezvani Blood 2008). Eight patients with myeloid malignancies received one subcutaneous 0.3 mg and 0.5 mg dose each of PR1 and WT1 vaccines in Montanide adjuvant, with 100 μg of granulocyte-macrophage colony-stimulating factor (GM-CSF). CD8+ T-cell responses against PR1 or WT1 were detected in all patients as early as 1 week post-vaccination. However, responses were only sustained for 3-4 weeks. The emergence of PR1 or WT1-specific CD8+ T-cells was associated with a significant but transient reduction in minimal residual disease (MRD) as assessed by WT1 expression, suggesting a vaccine-induced anti-leukemia response. Conversely, loss of response was associated with reappearance of WT1 transcripts. We hypothesized that maintenance of sustained or at least repetitive responses may require frequent boost injections. We therefore initiated a phase 2 study of repeated vaccination with PR1 and WT1 peptides in patients with myeloid malignancies. Five patients with acute myeloid leukemia (AML) and 2 patients with myelodysplastic syndrome (MDS) were recruited to receive 6 injections at 2 week intervals of PR1 and WT1 in Montanide adjuvant, with GM-CSF as previously described. Six of 7 patients completed 6 courses of vaccination and follow-up as per protocol, to monitor toxicity and immunological responses. Responses to PR1 or WT1 vaccine were detected in all patients after only 1 dose of vaccine. However, additional boosting did not further increase the frequency of PR1 or WT1-specific CD8+ T-cell response. In 4/6 patients the vaccine-induced T-cell response was lost after the fourth dose and in all patients after the sixth dose of vaccine. To determine the functional avidity of the vaccine-induced CD8+ T-cell response, the response of CD8+ T-cells to stimulation with 2 concentrations of PR1 and WT1 peptides (0.1 and 10 μM) was measured by IC-IFN-γ staining. Vaccination led to preferential expansion of low avidity PR1 and WT1 specific CD8+ T-cell responses. Three patients (patients 4, 6 and 7) returned 3 months following the 6th dose of PR1 and WT1 peptide injections to receive a booster vaccine. Prior to vaccination we could not detect the presence of PR1 and WT1 specific CD8+ T-cells by direct ex-vivo tetramer and IC-IFN-γ assay or with 1-week cultured IFN-γ ELISPOT assay, suggesting that vaccination with PR1 and WT1 peptides in Montanide adjuvant does not induce memory CD8+ T-cell responses. This observation is in keeping with recent work in a murine model where the injection of minimal MHC class I binding peptides derived from self-antigens mixed with IFA adjuvant resulted in a transient effector CD8+ T cell response with subsequent deletion of these T cells and failure to induce CD8+ T cell memory (Bijker J Immunol 2007). This observation can be partly explained by the slow release of vaccine peptides from the IFA depot without systemic danger signals, leading to presentation of antigen in non-inflammatory lymph nodes by non-professional antigen presenting cells (APCs). An alternative explanation for the transient vaccine-induced immune response may be the lack of CD4+ T cell help. In summary these data support the immunogenicity of PR1 and WT1 peptide vaccines. However new approaches will be needed to induce long-term memory responses against leukemia antigens. To avoid tolerance induction we plan to eliminate Montanide adjuvant and use GM-CSF alone. Supported by observations that the in vivo survival of CD8+ T-effector cells against viral antigens are improved by CD4+ helper cells, we are currently attempting to induce long-lasting CD8+ T-cell responses to antigen by inducing CD8+ and CD4+ T-cell responses against class I and II epitopes of WT1 and PR1. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Development of a System To Study CD4+-T-Cell Responses to Transgenic Ovalbumin-Expressing Toxoplasma gondii during Toxoplasmosis

2004 ◽  
Vol 72 (12) ◽  
pp. 7240-7246 ◽  
Author(s):  
Marion Pepper ◽  
Florence Dzierszinski ◽  
Amy Crawford ◽  
Christopher A. Hunter ◽  
David Roos
Keyword(s):  
T Cells ◽  
T Cell ◽  
Toxoplasma Gondii ◽  
T Cell Responses ◽  
Cell Receptor ◽  
In Vivo Studies ◽  
Cell Responses ◽  
Ifn Γ

ABSTRACT The study of the immune response to Toxoplasma gondii has provided numerous insights into the role of T cells in resistance to intracellular infections. However, the complexity of this eukaryote pathogen has made it difficult to characterize immunodominant epitopes that would allow the identification of T cells with a known specificity for parasite antigens. As a consequence, analysis of T-cell responses to T. gondii has been based on characterization of the percentage of T cells that express an activated phenotype during infection and on the ability of these cells to produce cytokines in response to complex mixtures of parasite antigens. In order to study specific CD4+ T cells responses to T. gondii, recombinant parasites that express a truncated ovalbumin (OVA) protein, in either a cytosolic or a secreted form, were engineered. In vitro and in vivo studies reveal that transgenic parasites expressing secreted OVA are able to stimulate T-cell receptor-transgenic OVA-specific CD4+ T cells to proliferate, express an activated phenotype, and produce gamma interferon (IFN-γ). Furthermore, the adoptive transfer of OVA-specific T cells into IFN-γ−/− mice provided enhanced protection against infection with the OVA-transgenic (but not parental) parasites. Together, these studies establish the utility of this transgenic system to study CD4+-T-cell responses during toxoplasmosis.

scholarly journals Functional Characterization of Class Ia- and Non-Class Ia-RestrictedChlamydia-Reactive CD8+T Cell Responses in Humans

2003 ◽  
Vol 171 (8) ◽  
pp. 4278-4286 ◽  
Author(s):  
Ana L. Gervassi ◽  
Peter Probst ◽  
Walter E. Stamm ◽  
Jeanne Marrazzo ◽  
Kenneth H. Grabstein ◽  
...  
Keyword(s):  
T Cell ◽  
Functional Characterization ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
Cell Responses

scholarly journals Increasing the potency of dendritic cell based vaccines for the treatment of cancer

2021 ◽  
Author(s):  
◽  
Dianne Sika-Paotonu
Keyword(s):  
T Cells ◽  
T Cell ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
Cell Responses ◽  
Vaccination Strategies ◽  
Monophosphoryl Lipid A ◽  
Tlr Agonist

<p>Tumours can be eradicated by T cells that recognise unique tumour-associated antigens. These T cells are initially stimulated by dendritic cells (DCs) that have acquired antigens from tumour tissue. Vaccination strategies that increase the frequencies of tumour-specific T cells by enhancing the activity of DCs are being evaluated in the clinic as novel cancer therapies. Our hypothesis is that existing DC-based vaccination strategies can be improved by stimulating toll-like receptor (TLR) signalling in the DCs, and also by encouraging interactions with iNKT cells, as these two activities are known to enhance DC function. It was also hypothesised that superior T cell responses could be induced by combining these two activities together. We used the TLR 4 agonist monophosphoryl lipid A (MPL) alone and in combination with other TLR agonists to achieve effective activation of bone marrow-derived DCs (BM-DCs) cultured in-vitro, which was characterised by upregulated expression of maturation markers on the cell surface, and enhanced release of pro-inflammatory cytokines. Some TLR agonist combinations provided significantly enhanced activities in this regard, notably the combination of MPL with either the TLR 2 agonist Pam3Cys, or the TLR 7/8 agonist Resiquimod. Although in-vitro activated BM-DCs were unable to induce stronger antigen-specific CD8+ T cell responses after intravenous injection when compared to BMDCs without TLR stimulation, enhanced CD8+ T cell responses were achieved in-vivo with the co-administration of TLR ligands, implying that TLR stimulation needed to act on cells of the host. Further studies identified the langerin-expressing CD8ɑ+ splenic DC subset in the spleen as recipients of antigen that was transferred from injected cells, and that these recipients were participants in the cross-presentation and T cell priming activities driving the CD8+ T cell response after vaccination. Antigen-loaded BM-DCs carrying the NKT cell ligand ɑ-galactosylceramide (ɑ-GalCer) were found to consistently increase antigen-specific CD8+ T cell responses in-vivo, and also cytotoxic responses as seen in cytotoxic killing assays. Again, langerin-expressing CD8ɑ+ splenic DCs were shown to be involved in this response by acquiring antigen and ɑ-GalCer from the injected vaccine BM-DCs. Finally, it was possible to achieve even greater CD8+ T cell responses in-vivo by injecting BM-DCs carrying antigen and ɑ-GalCer, together with timely co-administration of the TLR agonist. These results suggest a reassessment of the activities of DC-based vaccines to include the important role of “courier” to DCs already resident in the host that can be exploited to improve vaccination outcomes.</p>

scholarly journals EXTH-51. GENETICALLY STABLE POLIOVIRUS VECTOR PLATFORM FOR DIPG IMMUNOTHERAPY

2019 ◽  
Vol 21 (Supplement_6) ◽  
pp. vi93-vi93
Author(s):  
Matthias Gromeier ◽  
Mubeen Mosaheb ◽  
Elena Dobrikova ◽  
Michael Brown ◽  
Darell Bigner ◽  
...  
Keyword(s):  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
Viral Vector ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
Anatomical Location ◽  
Cell Responses ◽  
Cell Immunity

Abstract Options for the immunotherapy of diffuse intrinsic pontine glioma (DIPG), due to its anatomical location and inherent therapy resistance, are limited. The histone 3.3(K27M) mutation in ~80% of such tumors offers a unique opportunity for immunotherapy intervention, as it defines a high affinity, HLA-A2-restricted tumor neoantigen that spontaneously elicits CD8+ T cell responses in DIPG patients. Immunizing against the H3.3(K27M) signature in the clinic has been challenging, as conventional approaches (i.e. peptide-conjugates administered with adjuvants) lack the costimulatory signals known to drive CD8+ effector T cell responses. Therefore, we built on a viral vector approach for engaging innate immune responses to virus infection specifically in antigen presenting cells. Viruses naturally engage innate immunity, induce antigen presentation, and mediate CD8 T cell priming against foreign antigens. Polioviruses can provide a context optimal for generating antigen-specific CD8 T cells, as they have natural tropism for dendritic cells, preeminent inducers of CD8 T cell immunity; elicit Th1-promoting inflammation; and lack interference with innate or adaptive immunity. However, notorious genetic instability and underlying neuropathogenicity has hampered poliovirus-based vector applications. We devised a strategy based on the polio:rhinovirus chimera PVSRIPO, devoid of viral neuropathogenicity after intracerebral inoculation in human subjects, for stable expression of exogenous antigens. PVSRIPO vectors infect, activate, and induce epitope presentation in DCs in vitro; recruit and activate DCs with Th1-dominant cytokine profiles at the injection site in vivo. They efficiently prime tumor antigen-specific CD8 T cells in vivo, induce CD8 T cell migration to the tumor site, delay tumor growth and enhance survival in syngeneic rodent tumor models. We are preparing a prototype PVSRIPO-derived vector delivering the H3.3(K27M) signature for clinical investigation.

Initial Identification of a Mouse Human Factor IX-Specific CD8+ T-Cell Epitope.

Blood ◽  
2006 ◽  
Vol 108 (11) ◽  
pp. 5490-5490
Author(s):  
Brad E. Hoffman ◽  
Roland W. Herzog
Keyword(s):  
T Cells ◽  
T Cell ◽  
Catalytic Domain ◽  
Cell Epitope ◽  
Cd8 T Cell ◽  
Factor Ix ◽  
T Cell Epitope ◽  
Cell Responses ◽  
Ifn Γ

Abstract A significant complication associated with treatment of inherited protein deficiencies, such as hemophilia B, by gene replacement therapy is the potential for the activation of transgene specific B and T cells to the therapeutic protein, coagulation factor IX (F.IX). In addition to the potential for inhibitor formation as a result of MHC class II antigen presentation (CD4+ T cell-dependent activation of B cells, which may also be observed in conventional protein-based therapy), gene expression may lead to MHC class I presentation of F.IX-derived peptides to CD8+ T cells. Upon in vivo gene transfer, such immune responses to may elicit a cytotoxic T lymphocyte (CTL) response capable of destroying target cells that express the F.IX transgene product. Therefore, to better understand the role of F.IX-specific CD8+ T-cell responses, it is essential that MHC I-restricted CD8 T-cell epitopes be identified. Here, we used a peptide library consisting of 82 individual 15-mer peptides overlapping by ten residues that spans the complete human F.IX (hF.IX) protein to preliminarily identify a specific immunodominate CD8+ T-cell epitope. The peptides were pooled into groups, each containing 8–11 peptides to create a matrix of 18 pools, with each peptide represented in two pools. C3H/HeJ were immunized with 5×1010 vector genomes of E1/E3-deleted adenovirus expressing hF.IX (Ad-hF.IX) via intramuscular injection into the quadriceps. Nine days later, the harvested spleen and popliteal lymph node cells were pooled and evaluated for CD8+ T-cell responses by intracellular cytokine staining for IFN-γ after being stimulated for 5h with peptides or controls. The frequency of IFN-γ producing hF.IX-specific CD8+ T-cells was determined by flow cytometry. While 16 pools from Ad-hF.IX immunized C3H/HeJ mice showed no response above the frequency of mock-stimulated cells, lymphocytes from two overlapping pools demonstrated a ~2.5-fold increase in frequency of CD8+ IFN-γ+ cells. From these results we can conclude that peptide 74 (SGGPHVTEVEGTSFL) contains a CD8+ T cell epitope for C3H/HeJ mice (H-2k haplotype). Furthermore, splenocytes from naive mice failed to respond to any of the peptide pools. The amino acid sequence corresponding to peptide 74 is located within the catalytic domain of hF.IX. This finding is of particular interest, in that, we previously reported a peptide containing the immunodominate CD4+ T-cell epitope in C3H/HeJ is also located within the catalytic domain of hF.IX (Blood 108:408). The definitive identification of hF.IX-specific CD8+ epitopes will facilitate the evaluation of experimental gene therapy strategies in murine models by providing a reagent for in vitro stimulation of F.IX specific CD8+ lymphocytes. For example, we can now determine the efficiency of CD8+ T cell activation as a function of vector, route, and dose following in vivo gene transfer.

scholarly journals Mesothelin-specific CD8+ T Cell Responses Provide Evidence of In Vivo Cross-Priming by Antigen-Presenting Cells in Vaccinated Pancreatic Cancer Patients

2004 ◽  
Vol 200 (3) ◽  
pp. 297-306 ◽  
Author(s):  
Amy Morck Thomas ◽  
Lynn M. Santarsiero ◽  
Eric R. Lutz ◽  
Todd D. Armstrong ◽  
Yi-Cheng Chen ◽  
...  
Keyword(s):  
Pancreatic Cancer ◽  
T Cells ◽  
T Cell ◽  
Cd8 T Cells ◽  
T Cell Responses ◽  
Cd8 T Cell ◽  
Cross Presentation ◽  
Cell Responses ◽  
Antigen Presenting

Tumor-specific CD8+ T cells can potentially be activated by two distinct mechanisms of major histocompatibility complex class I–restricted antigen presentation as follows: direct presentation by tumor cells themselves or indirect presentation by professional antigen-presenting cells (APCs). However, controversy still exists as to whether indirect presentation (the cross-priming mechanism) can contribute to effective in vivo priming of tumor-specific CD8+ T cells that are capable of eradicating cancer in patients. A clinical trial of vaccination with granulocyte macrophage–colony stimulating factor–transduced pancreatic cancer lines was designed to test whether cross-presentation by locally recruited APCs can activate pancreatic tumor-specific CD8+ T cells. Previously, we reported postvaccination delayed-type hypersensitivity (DTH) responses to autologous tumor in 3 out of 14 treated patients. Mesothelin is an antigen demonstrated previously by gene expression profiling to be up-regulated in most pancreatic cancers. We report here the consistent induction of CD8+ T cell responses to multiple HLA-A2, A3, and A24-restricted mesothelin epitopes exclusively in the three patients with vaccine-induced DTH responses. Importantly, neither of the vaccinating pancreatic cancer cell lines expressed HLA-A2, A3, or A24. These results provide the first direct evidence that CD8 T cell responses can be generated via cross-presentation by an immunotherapy approach designed to recruit APCs to the vaccination site.

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