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4. 5-Azacytidine treatment sensitizes tumor cells to T-cell mediated cytotoxicity and modulates NK cells in patients with myeloid malignancies

Author

Gang, A O, Frøsig, T M, Brimnes, M K, Lyngaa, R, Treppendahl, M B, Grønbæk, K, Dufva, I H, Straten, P Thor, Hadrup, S R, Gang, A O, Frøsig, T M, Brimnes, M K, Lyngaa, R, Treppendahl, M B, Grønbæk, K, Dufva, I H, Straten, P Thor, and Hadrup, S R

Abstract

Treatment with the demethylating agent 5-Azacytidine leads to prolonged survival for patients with myelodysplastic syndrome, and the demethylation induces upregulation of cancer-testis antigens. Cancer-testis antigens are well-known targets for immune recognition in cancer, and the immune system may have a role in this treatment regimen. We show here that 5-Azacytidine treatment leads to increased T-cell recognition of tumor cells. T-cell responses against a large panel of cancer-testis antigens were detected before treatment, and these responses were further induced upon initiation of treatment. These characteristics point to an ideal combination of 5-Azacytidine and immune therapy to preferentially boost T-cell responses against cancer-testis antigens. To initiate such combination therapy, essential knowledge is required about the general immune modulatory effect of 5-Azacytidine. We therefore examined potential treatment effects on both immune stimulatory (CD8 and CD4 T cells and Natural Killer (NK) cells) and immune inhibitory cell subsets (myeloid-derived suppressor cells and regulatory T cells). We observed a minor decrease and modulation of NK cells, but for all other populations no effects could be detected. Together, these data support a strategy for combining 5-Azacytidine treatment with immune therapy for potential clinical benefit.

Published
2014

7. Extended T-Cell Epitope Landscape in Merkel Cell Polyomavirus Large T and Small T Oncoproteins Identified Uniquely in Patients with Cancer.

Author

Hansen UK, Lyngaa R, Ibrani D, Church C, Verhaegen M, Dlugosz AA, Becker JC, Straten PT, Nghiem P, and Hadrup SR

Subjects
Adult, Aged, Aged, 80 and over, Antigens, Viral, Tumor immunology, Cells, Cultured, Epitope Mapping, Epitopes, T-Lymphocyte immunology, Female, HLA Antigens metabolism, Humans, Immunologic Surveillance, Lymphocyte Activation, Male, Middle Aged, Peptides immunology, CD8-Positive T-Lymphocytes immunology, Carcinoma, Merkel Cell immunology, Merkel cell polyomavirus physiology, Polyomavirus Infections immunology, Skin Neoplasms immunology
Published
2022
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8. T cell receptor fingerprinting enables in-depth characterization of the interactions governing recognition of peptide-MHC complexes.

Author

Bentzen AK, Such L, Jensen KK, Marquard AM, Jessen LE, Miller NJ, Church CD, Lyngaa R, Koelle DM, Becker JC, Linnemann C, Schumacher TNM, Marcatili P, Nghiem P, Nielsen M, and Hadrup SR

Abstract

The promiscuous nature of T-cell receptors (TCRs) allows T cells to recognize a large variety of pathogens, but makes it challenging to understand and control T-cell recognition. Existing technologies provide limited information about the key requirements for T-cell recognition and the ability of TCRs to cross-recognize structurally related elements. Here we present a 'one-pot' strategy for determining the interactions that govern TCR recognition of peptide-major histocompatibility complex (pMHC). We measured the relative affinities of TCRs to libraries of barcoded peptide-MHC variants and applied this knowledge to understand the recognition motif, here termed the TCR fingerprint. The TCR fingerprints of 16 different TCRs were identified and used to predict and validate cross-recognized peptides from the human proteome. The identified fingerprints differed among TCRs recognizing the same epitope, demonstrating the value of this strategy for understanding T-cell interactions and assessing potential cross-recognition before selection of TCRs for clinical development.

Published
2018
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10. Epidemiology, biology and therapy of Merkel cell carcinoma: conclusions from the EU project IMMOMEC.

Author

Becker JC, Stang A, Hausen AZ, Fischer N, DeCaprio JA, Tothill RW, Lyngaa R, Hansen UK, Ritter C, Nghiem P, Bichakjian CK, Ugurel S, and Schrama D

Subjects
Animals, Carcinoma, Merkel Cell virology, Europe, Humans, Immunotherapy methods, Merkel cell polyomavirus pathogenicity, Skin Neoplasms virology, Carcinoma, Merkel Cell epidemiology, Carcinoma, Merkel Cell therapy, Skin Neoplasms epidemiology, Skin Neoplasms therapy
Abstract

Merkel cell carcinoma (MCC) is a highly aggressive, often lethal neuroendocrine cancer. Its carcinogenesis may be either caused by the clonal integration of the Merkel cell polyomavirus into the host genome or by UV-induced mutations. Notably, virally-encoded oncoproteins and UV-induced mutations affect comparable signaling pathways such as RB restriction of cell cycle progression or p53 inactivation. Despite its low incidence, MCC recently received much attention based on its exquisite immunogenicity and the resulting major success of immune modulating therapies. Here, we summarize current knowledge on epidemiology, biology and therapy of MCC as conclusion of the project 'Immune Modulating strategies for treatment of Merkel Cell Carcinoma', which was funded over a 5-year period by the European Commission to investigate innovative immunotherapies for MCC.

Published
2018
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11. PD-1 + Polyfunctional T Cells Dominate the Periphery after Tumor-Infiltrating Lymphocyte Therapy for Cancer.

Author

Donia M, Kjeldsen JW, Andersen R, Westergaard MCW, Bianchi V, Legut M, Attaf M, Szomolay B, Ott S, Dolton G, Lyngaa R, Hadrup SR, Sewell AK, and Svane IM

Subjects
Adult, Aged, Antigens, Neoplasm immunology, CD8-Positive T-Lymphocytes immunology, Female, Humans, Immunotherapy, Adoptive, Lymphocyte Activation immunology, Male, Melanoma genetics, Melanoma immunology, Melanoma pathology, Middle Aged, Programmed Cell Death 1 Ligand 2 Protein antagonists & inhibitors, Programmed Cell Death 1 Ligand 2 Protein immunology, Programmed Cell Death 1 Receptor antagonists & inhibitors, T-Lymphocytes, Cell- and Tissue-Based Therapy, Lymphocytes, Tumor-Infiltrating immunology, Melanoma therapy, Programmed Cell Death 1 Receptor immunology
Abstract

Purpose: Infusion of highly heterogeneous populations of autologous tumor-infiltrating lymphocytes (TIL) can result in tumor regression of exceptional duration. Initial tumor regression has been associated with persistence of tumor-specific TILs 1 month after infusion, but mechanisms leading to long-lived memory responses are currently unknown. Here, we studied the dynamics of bulk tumor-reactive CD8 + T-cell populations in patients with metastatic melanoma following treatment with TILs. Experimental Design: We analyzed the function and phenotype of tumor-reactive CD8 + T cells contained in serial blood samples of 16 patients treated with TILs. Results: Polyfunctional tumor-reactive CD8 + T cells accumulated over time in the peripheral lymphocyte pool. Combinatorial analysis of multiple surface markers (CD57, CD27, CD45RO, PD-1, and LAG-3) showed a unique differentiation pattern of polyfunctional tumor-reactive CD8 + T cells, with highly specific PD-1 upregulation early after infusion. The differentiation and functional status appeared largely stable for up to 1 year after infusion. Despite some degree of clonal diversification occurring in vivo within the bulk tumor-reactive CD8 + T cells, further analyses showed that CD8 + T cells specific for defined tumor antigens had similar differentiation status. Conclusions: We demonstrated that tumor-reactive CD8 + T-cell subsets that persist after TIL therapy are mostly polyfunctional, display a stable partially differentiated phenotype, and express high levels of PD-1. These partially differentiated PD-1 + polyfunctional TILs have a high capacity for persistence and may be susceptible to PD-L1/PD-L2-mediated inhibition. Clin Cancer Res; 23(19); 5779-88. ©2017 AACR ., (©2017 American Association for Cancer Research.)

Published
2017
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12. Preclinical evaluation of NF-κB-triggered dendritic cells expressing the viral oncogenic driver of Merkel cell carcinoma for therapeutic vaccination.

Author

Gerer KF, Erdmann M, Hadrup SR, Lyngaa R, Martin LM, Voll RE, Schuler-Thurner B, Schuler G, Schaft N, Hoyer S, and Dörrie J

Abstract

Background: Merkel cell carcinoma (MCC) is a rare but very aggressive skin tumor that develops after integration of a truncated form of the large T-antigen (truncLT) of the Merkel cell polyomavirus (MCV) into the host's genome. Therapeutic vaccination with dendritic cells (DCs) loaded with tumor antigens is an active form of immunotherapy, which intends to direct the immune system towards tumors which express the respective vaccination antigens., Methods: Cytokine-matured monocyte-derived DCs of healthy donors and MCC patients were electroporated with mRNA encoding the truncLT. To permit major histocompatibility complex (MHC) class II next to class I presentation, we used an RNA construct in which the antigen was fused to a DCLamp sequence in addition to the unmodified antigen. To further improve their immunogenicity, the DCs were additionally activated by co-transfection with the constitutively active nuclear factor (NF)-κB activator caIKK. These DCs were used to stimulate autologous CD8 + T-cells or a mixture of CD4 + and CD8 + T-cells. Then the percentage of T-cells, specific for the truncLT, was quantified by interferon (IFN)γ ELISpot assays., Results: Both the truncLT and its DCLamp-fusion were detected within the DCs by flow cytometry, albeit the latter required blocking of the proteasome. The transfection with caIKK upregulated maturation markers and induced cytokine production. After 2-3 rounds of stimulation, the T-cells from 11 out of 13 healthy donors recognized the antigen. DCs without caIKK appeared in comparison less potent in inducing such responses. When using cells derived from MCC patients, we could induce responses for 3 out of 5 patients; however, here the caIKK-transfected DCs did not display their superiority., Conclusion: These results show that optimized DCs are able to induce MCV-antigen-specific T-cell responses. Therapeutic vaccination with such transfected DCs could direct the immune system against MCC., Competing Interests: Conflict of interest statement: The authors declare the following potential conflict of interest: REV, GS, NS, and JD are named as inventors on a patent on caIKK-RNA-electroporated DCs (WO/2012/055551), which is held by the University of Erlangen-Nuremberg, Erlangen, Germany.

Published
2017
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13. Influence of ipilimumab on expanded tumour derived T cells from patients with metastatic melanoma.

Author

Bjoern J, Lyngaa R, Andersen R, Hölmich LR, Hadrup SR, Donia M, and Svane IM

Subjects
Adult, Aged, Antineoplastic Agents, Immunological therapeutic use, Antineoplastic Combined Chemotherapy Protocols adverse effects, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Biomarkers, CTLA-4 Antigen antagonists & inhibitors, Female, Humans, Immunomodulation drug effects, Ipilimumab therapeutic use, Lymphocyte Activation drug effects, Lymphocyte Activation immunology, Lymphocytes, Tumor-Infiltrating metabolism, Male, Melanoma drug therapy, Melanoma metabolism, Middle Aged, Neoplasm Grading, Neoplasm Staging, Phenotype, T-Cell Antigen Receptor Specificity immunology, Antineoplastic Agents, Immunological pharmacology, Ipilimumab pharmacology, Lymphocytes, Tumor-Infiltrating drug effects, Lymphocytes, Tumor-Infiltrating immunology, Melanoma immunology, Melanoma pathology
Abstract

Introduction: Tumour infiltrating lymphocyte (TIL) based adoptive cell therapy (ACT) is a promising treatment for patients with advanced melanoma. Retrospective studies suggested an association between previous treatment with anti-CTLA-4 antibodies and long term survival after subsequent ACT. Thus, we hypothesized that treatment with anti-CTLA-4 antibodies can induce favourable changes to be detected in TILs., Results: Expanded T cells from Ipilimumab treated patients had a higher proportion of cells expressing CD27, intracellular CTLA-4, TIM-3 and LAG-3. In addition, broader and more frequent T cell responses against common tumour antigens were detected in patients treated with Ipilimumab as compared to anti-CTLA-4 naïve patients., Materials and Methods: Expanded TILs were obtained from patients with advanced melanoma who had received Ipilimumab in the previous six months, or had not received any type of anti-CTLA-4 antibody. T cell specificity and expression of phenotypic and exhaustion markers were scrutinized as well as functional properties., Conclusions: Ipilimumab may induce tumor-infiltration of T cells of a more naïve phenotype expressing markers related to activation or exhaustion. Additionally, Ipilimumab may increase the frequency of T cells recognizing common tumour associated antigens.

Published
2017
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14. Large-scale detection of antigen-specific T cells using peptide-MHC-I multimers labeled with DNA barcodes.

Author

Bentzen AK, Marquard AM, Lyngaa R, Saini SK, Ramskov S, Donia M, Such L, Furness AJ, McGranahan N, Rosenthal R, Straten PT, Szallasi Z, Svane IM, Swanton C, Quezada SA, Jakobsen SN, Eklund AC, and Hadrup SR

Subjects
Cells, Cultured, DNA Barcoding, Taxonomic, Genes, MHC Class I immunology, Humans, Peptides genetics, Peptides immunology, Protein Multimerization genetics, Protein Multimerization immunology, Staining and Labeling methods, Antigens genetics, Antigens immunology, CD8-Positive T-Lymphocytes immunology, Genes, MHC Class I genetics, High-Throughput Screening Assays methods, Immunoassay methods
Abstract

Identification of the peptides recognized by individual T cells is important for understanding and treating immune-related diseases. Current cytometry-based approaches are limited to the simultaneous screening of 10-100 distinct T-cell specificities in one sample. Here we use peptide-major histocompatibility complex (MHC) multimers labeled with individual DNA barcodes to screen >1,000 peptide specificities in a single sample, and detect low-frequency CD8 T cells specific for virus- or cancer-restricted antigens. When analyzing T-cell recognition of shared melanoma antigens before and after adoptive cell therapy in melanoma patients, we observe a greater number of melanoma-specific T-cell populations compared with cytometry-based approaches. Furthermore, we detect neoepitope-specific T cells in tumor-infiltrating lymphocytes and peripheral blood from patients with non-small cell lung cancer. Barcode-labeled pMHC multimers enable the combination of functional T-cell analysis with large-scale epitope recognition profiling for the characterization of T-cell recognition in various diseases, including in small clinical samples.

Published
2016
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15. Clonal neoantigens elicit T cell immunoreactivity and sensitivity to immune checkpoint blockade.

Author

McGranahan N, Furness AJ, Rosenthal R, Ramskov S, Lyngaa R, Saini SK, Jamal-Hanjani M, Wilson GA, Birkbak NJ, Hiley CT, Watkins TB, Shafi S, Murugaesu N, Mitter R, Akarca AU, Linares J, Marafioti T, Henry JY, Van Allen EM, Miao D, Schilling B, Schadendorf D, Garraway LA, Makarov V, Rizvi NA, Snyder A, Hellmann MD, Merghoub T, Wolchok JD, Shukla SA, Wu CJ, Peggs KS, Chan TA, Hadrup SR, Quezada SA, and Swanton C

Subjects
Adenocarcinoma drug therapy, Adenocarcinoma genetics, Adenocarcinoma of Lung, Aged, Aged, 80 and over, Antigens, Neoplasm genetics, Antineoplastic Agents therapeutic use, CTLA-4 Antigen immunology, Carcinoma, Non-Small-Cell Lung genetics, Carcinoma, Non-Small-Cell Lung immunology, Cell Cycle Checkpoints immunology, Female, Humans, Lung Neoplasms drug therapy, Lung Neoplasms genetics, Lymphocytes, Tumor-Infiltrating immunology, Male, Melanoma immunology, Middle Aged, Mutation, Programmed Cell Death 1 Receptor immunology, Skin Neoplasms immunology, Adenocarcinoma immunology, Antigens, Neoplasm immunology, CD4-Positive T-Lymphocytes immunology, Immunologic Surveillance, Lung Neoplasms immunology
Abstract

As tumors grow, they acquire mutations, some of which create neoantigens that influence the response of patients to immune checkpoint inhibitors. We explored the impact of neoantigen intratumor heterogeneity (ITH) on antitumor immunity. Through integrated analysis of ITH and neoantigen burden, we demonstrate a relationship between clonal neoantigen burden and overall survival in primary lung adenocarcinomas. CD8(+)tumor-infiltrating lymphocytes reactive to clonal neoantigens were identified in early-stage non-small cell lung cancer and expressed high levels of PD-1. Sensitivity to PD-1 and CTLA-4 blockade in patients with advanced NSCLC and melanoma was enhanced in tumors enriched for clonal neoantigens. T cells recognizing clonal neoantigens were detectable in patients with durable clinical benefit. Cytotoxic chemotherapy-induced subclonal neoantigens, contributing to an increased mutational load, were enriched in certain poor responders. These data suggest that neoantigen heterogeneity may influence immune surveillance and support therapeutic developments targeting clonal neoantigens., (Copyright © 2016, American Association for the Advancement of Science.)

Published
2016
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16. Design and validation of conditional ligands for HLA-B*08:01, HLA-B*15:01, HLA-B*35:01, and HLA-B*44:05.

Author

Frøsig TM, Yap J, Seremet T, Lyngaa R, Svane IM, Thor Straten P, Heemskerk MH, Grotenbreg GM, and Hadrup SR

Subjects
Amino Acid Sequence, CD8-Positive T-Lymphocytes immunology, Humans, Ligands, Peptides immunology, HLA-B35 Antigen immunology, HLA-B8 Antigen immunology, T-Lymphocytes immunology
Abstract

We designed conditional ligands restricted to HLA-B*08:01, -B*35:01, and -B*44:05 and proved the use of a conditional ligand previously designed for HLA-B*15:02 together with HLA-B*15:01. Furthermore, we compared the detection capabilities of specific HLA-B*15:01-restricted T cells using the HLA-B*15:01 and HLA-B*15:02 major histocompatibility complex (MHC) multimers and found remarkable differences in the staining patterns detected by flow cytometry. These new conditional ligands greatly add to the application of MHC-based technologies in the analyses of T-cell recognition as they represent frequently expressed HLA-B molecules. This expansion of conditional ligands is important to allow T-cell detection over a wide range of HLA restrictions, and provide comprehensive understanding of the T-cell recognition in a given context., (© 2015 International Society for Advancement of Cytometry.)

Published
2015
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17. Broadening the repertoire of melanoma-associated T-cell epitopes.

Author

Frøsig TM, Lyngaa R, Met Ö, Larsen SK, Donia M, Svane IM, Thor Straten P, and Hadrup SR

Subjects
Cell Line, Tumor, HLA-A1 Antigen immunology, HLA-A11 Antigen immunology, HLA-A3 Antigen immunology, HLA-B7 Antigen immunology, Humans, Immunotherapy, Adoptive, Leukocytes, Mononuclear cytology, Lymphocytes, Tumor-Infiltrating immunology, Peptide Mapping, T-Lymphocytes, Cytotoxic transplantation, Epitopes, T-Lymphocyte immunology, HLA Antigens immunology, Melanoma immunology, Melanoma-Specific Antigens immunology, T-Lymphocytes, Cytotoxic immunology
Abstract

Immune therapy has provided a significant breakthrough in the treatment of metastatic melanoma. Despite the remarkable clinical efficacy and established involvement of effector CD8 T cells, the knowledge of the exact peptide-MHC complexes recognized by T cells on the tumor cell surface is limited. Many melanoma-associated T-cell epitopes have been described, but this knowledge remains largely restricted to HLA-A2, and we lack understanding of the T-cell recognition in the context of other HLA molecules. We selected six melanoma-associated antigens (MAGE-A3, NY-ESO-1, gp100, Mart1, tyrosinase and TRP-2) that are frequently recognized in patients with the aim of identifying novel T-cell epitopes restricted to HLA-A1, -A3, -A11 and -B7. Using in silico prediction and in vitro confirmation, we identified 127 MHC ligands and analyzed the T-cell responses against these ligands via the MHC multimer-based enrichment of peripheral blood from 39 melanoma patients and 10 healthy donors. To dissect the T-cell reactivity against this large peptide library, we used combinatorial-encoded MHC multimers and observed the T-cell responses against 17 different peptide-MHC complexes in the patient group and four in the healthy donor group. We confirmed the processing and presentation of HLA-A3-restricted T-cell epitopes from tyrosinase (TQYESGSMDK) and gp100 (LIYRRRLMK) and an HLA-A11-restricted T-cell epitope from gp100 (AVGATKVPR) via the cytolytic T-cell recognition of melanoma cell lines and/or K562 cells expressing the appropriate antigen and HLA molecule. We further found T-cell reactivity against two of the identified sequences among tumor-infiltrating lymphocytes from melanoma patients, suggesting a potential clinical relevance of these sequences.

Published
2015
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19. T-cell responses to oncogenic merkel cell polyomavirus proteins distinguish patients with merkel cell carcinoma from healthy donors.

Author

Lyngaa R, Pedersen NW, Schrama D, Thrue CA, Ibrani D, Met O, Thor Straten P, Nghiem P, Becker JC, and Hadrup SR

Subjects
Carcinogenesis immunology, Carcinoma, Merkel Cell diagnosis, Carcinoma, Merkel Cell virology, Epitopes immunology, Epitopes isolation & purification, Humans, Merkel cell polyomavirus genetics, Skin Neoplasms diagnosis, Skin Neoplasms pathology, Skin Neoplasms virology, T-Lymphocytes immunology, Viral Proteins isolation & purification, Carcinoma, Merkel Cell genetics, Immunity, Innate, Merkel cell polyomavirus pathogenicity, Skin Neoplasms genetics
Abstract

Purpose: Merkel cell carcinoma (MCC) is a highly aggressive skin cancer with strong evidence of viral carcinogenesis. The association of MCC with the Merkel cell polyomavirus (MCPyV) may explain the explicit immunogenicity of MCC. Indeed, MCPyV-encoded proteins are likely targets for cytotoxic immune responses to MCC as they are both foreign to the host and necessary to maintain the oncogenic phenotype. However, to date only a single MCPyV-derived CD8 T-cell epitope has been described, thus impeding specific monitoring of T-cell responses to MCC., Method: To overcome this limitation, we scanned the MCPyV oncoprotein large T and small T antigens and the virus capsid protein VP1 for potential T-cell epitopes, and tested for MHC class I affinity. We confirmed the relevance of these epitopes using a high-throughput platform for T-cell enrichment and combinatorial encoding of MHC class I multimers., Results: In peripheral blood from 38 patients with MCC and 30 healthy donors, we identified 53 MCPyV-directed CD8 T-cell responses against 35 different peptide sequences. Strikingly, T-cell responses against oncoproteins were exclusively present in patients with MCC, but not in healthy donors. We further demonstrate both the processing and presentation of the oncoprotein-derived epitopes, as well as the lytic activity of oncoprotein-specific T cells toward MHC-matched MCC cells. Demonstrating the presence of oncoprotein-specific T cells among tumor-infiltrating lymphocytes further substantiated the relevance of the identified epitopes., Conclusion: These T-cell epitopes represent ideal targets for antigen-specific immune therapy of MCC, and enable tracking and characterization of MCPyV-specific immune responses., (©2014 AACR.)

Published
2014
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20. High frequency of T cells specific for cryptic epitopes in melanoma patients.

Author

Andersen RS, Andersen SR, Hjortsø MD, Lyngaa R, Idorn M, Køllgård TM, Met O, Thor Straten P, and Hadrup SR

Abstract

A number of cytotoxic T-cell epitopes are cryptic epitopes generated from non-conventional sources. These include epitopes that are encoded by alternative open reading frames or in generally non-coding genomic regions, such as introns. We have previously observed a frequent recognition of cryptic epitopes by tumor infiltrating lymphocytes isolated from melanoma patients. Here, we show that such cryptic epitopes are more frequently recognized than antigens of the same class encoded by canonical reading frames. Furthermore, we report the presence of T cells specific for three cryptic epitopes encoded in intronic sequences, as a result of incomplete splicing, in the circulation of melanoma patients. One of these epitopes derives from antigen isolated from immunoselected melanoma 2 (AIM2), while the two others are encoded in an alternative open reading frame of an incompletely spliced form of N -acetylglucosaminyl-transferase V (GNT-V) known as NA17-A. We have detected frequent T-cell responses against AIM2 and NA17-A epitopes in the blood of melanoma patients, both prior and after one round of in vitro peptide stimulation, but not in the circulation of healthy individuals and patients with breast or renal carcinoma. In summary, our findings indicate that the T-cell reactivity against AIM2 and NA17-A in the blood of melanoma patients is extensive, suggesting that-similar to melan A (also known as MART1)-these antigens might be used for immunomonitoring or as model antigens in several clinical and preclinical settings.

Published
2013
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21. Parallel detection of antigen-specific T cell responses by combinatorial encoding of MHC multimers.

Author

Andersen RS, Kvistborg P, Frøsig TM, Pedersen NW, Lyngaa R, Bakker AH, Shu CJ, Straten Pt, Schumacher TN, and Hadrup SR

Subjects
Animals, Antigens chemistry, CD8-Positive T-Lymphocytes chemistry, Fluorescent Dyes analysis, Humans, Mice, Optical Imaging methods, Quantum Dots, CD8-Positive T-Lymphocytes immunology, Epitope Mapping methods, Epitopes, T-Lymphocyte chemistry, H-2 Antigens metabolism, HLA Antigens metabolism
Abstract

Fluorescently labeled multimeric complexes of peptide-MHC, the molecular entities recognized by the T cell receptor, have become essential reagents for detection of antigen-specific CD8(+) T cells by flow cytometry. Here we present a method for high-throughput parallel detection of antigen-specific T cells by combinatorial encoding of MHC multimers. Peptide-MHC complexes are produced by UV-mediated MHC peptide exchange and multimerized in the form of streptavidin-fluorochrome conjugates. Eight different fluorochromes are used for the generation of MHC multimers and, by a two-dimensional combinatorial matrix, these eight fluorochromes are combined to generate 28 unique two-color codes. By the use of combinatorial encoding, a large number of different T cell populations can be detected in a single sample. The method can be used for T cell epitope mapping, and also for the monitoring of CD8(+) immune responses during cancer and infectious disease or after immunotherapy. One panel of 28 combinatorially encoded MHC multimers can be prepared in 4 h. Staining and detection takes a further 3 h.

Published
2012
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22. Dissection of T-cell antigen specificity in human melanoma.

Author

Andersen RS, Thrue CA, Junker N, Lyngaa R, Donia M, Ellebæk E, Svane IM, Schumacher TN, Thor Straten P, and Hadrup SR

Subjects
Cells, Cultured, Epitopes, T-Lymphocyte, Humans, Viruses immunology, Antigens, Neoplasm immunology, Lymphocytes, Tumor-Infiltrating immunology, Melanoma immunology, T-Cell Antigen Receptor Specificity immunology
Abstract

Tumor-infiltrating lymphocytes (TIL) isolated from melanoma patients and expanded in vitro by interleukin (IL)-2 treatment can elicit therapeutic response after adoptive transfer, but the antigen specificities of the T cells transferred have not been determined. By compiling all known melanoma-associated antigens and applying a novel technology for high-throughput analysis of T-cell responses, we dissected the composition of melanoma-restricted T-cell responses in 63 TIL cultures. T-cell reactivity screens against 175 melanoma-associated epitopes detected 90 responses against 18 different epitopes predominantly from differentiation and cancer-testis antigens. Notably, the majority of these responses were of low frequency and tumor-specific T-cell frequencies decreased during rapid expansion. A further notable observation was a large variation in the T-cell specificities detected in cultures established from different fragments of resected melanoma lesions. In summary, our findings provide an initial definition of T-cell populations contributing to tumor recognition in TILs although the specificity of many tumor-reactive TILs remains undefined.

Published
2012
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