Enhanced responses to tumor immunization following total body irradiation are time-dependent
The development of successful cancer vaccines is contingent on the ability to induce effective and persistent anti-tumor immunity against self-antigens that do not typically elicit immune responses. In this study, we examine the effects of a non-myeloablative dose of total body irradiation on the ab...
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| Published in | PloS one Vol. 8; no. 12; p. e82496 |
|---|---|
| Main Authors | , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Public Library of Science
12.12.2013
Public Library of Science (PLoS) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | The development of successful cancer vaccines is contingent on the ability to induce effective and persistent anti-tumor immunity against self-antigens that do not typically elicit immune responses. In this study, we examine the effects of a non-myeloablative dose of total body irradiation on the ability of tumor-naïve mice to respond to DNA vaccines against melanoma. We demonstrate that irradiation followed by lymphocyte infusion results in a dramatic increase in responsiveness to tumor vaccination, with augmentation of T cell responses to tumor antigens and tumor eradication. In irradiated mice, infused CD8(+) T cells expand in an environment that is relatively depleted in regulatory T cells, and this correlates with improved CD8(+) T cell functionality. We also observe an increase in the frequency of dendritic cells displaying an activated phenotype within lymphoid organs in the first 24 hours after irradiation. Intriguingly, both the relative decrease in regulatory T cells and increase in activated dendritic cells correspond with a brief window of augmented responsiveness to immunization. After this 24 hour window, the numbers of dendritic cells decline, as does the ability of mice to respond to immunizations. When immunizations are initiated within the period of augmented dendritic cell activation, mice develop anti-tumor responses that show increased durability as well as magnitude, and this approach leads to improved survival in experiments with mice bearing established tumors as well as in a spontaneous melanoma model. We conclude that irradiation can produce potent immune adjuvant effects independent of its ability to induce tumor ablation, and that the timing of immunization and lymphocyte infusion in the irradiated host are crucial for generating optimal anti-tumor immunity. Clinical strategies using these approaches must therefore optimize such parameters, as the correct timing of infusion and vaccination may mean the difference between an ineffective treatment and successful tumor eradication. |
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| AbstractList | The development of successful cancer vaccines is contingent on the ability to induce effective and persistent anti-tumor immunity against self-antigens that do not typically elicit immune responses. In this study, we examine the effects of a non-myeloablative dose of total body irradiation on the ability of tumor-naïve mice to respond to DNA vaccines against melanoma. We demonstrate that irradiation followed by lymphocyte infusion results in a dramatic increase in responsiveness to tumor vaccination, with augmentation of T cell responses to tumor antigens and tumor eradication. In irradiated mice, infused CD8
+
T cells expand in an environment that is relatively depleted in regulatory T cells, and this correlates with improved CD8
+
T cell functionality. We also observe an increase in the frequency of dendritic cells displaying an activated phenotype within lymphoid organs in the first 24 hours after irradiation. Intriguingly, both the relative decrease in regulatory T cells and increase in activated dendritic cells correspond with a brief window of augmented responsiveness to immunization. After this 24 hour window, the numbers of dendritic cells decline, as does the ability of mice to respond to immunizations. When immunizations are initiated within the period of augmented dendritic cell activation, mice develop anti-tumor responses that show increased durability as well as magnitude, and this approach leads to improved survival in experiments with mice bearing established tumors as well as in a spontaneous melanoma model. We conclude that irradiation can produce potent immune adjuvant effects independent of its ability to induce tumor ablation, and that the timing of immunization and lymphocyte infusion in the irradiated host are crucial for generating optimal anti-tumor immunity. Clinical strategies using these approaches must therefore optimize such parameters, as the correct timing of infusion and vaccination may mean the difference between an ineffective treatment and successful tumor eradication. The development of successful cancer vaccines is contingent on the ability to induce effective and persistent anti-tumor immunity against self-antigens that do not typically elicit immune responses. In this study, we examine the effects of a non-myeloablative dose of total body irradiation on the ability of tumor-naïve mice to respond to DNA vaccines against melanoma. We demonstrate that irradiation followed by lymphocyte infusion results in a dramatic increase in responsiveness to tumor vaccination, with augmentation of T cell responses to tumor antigens and tumor eradication. In irradiated mice, infused CD8+ T cells expand in an environment that is relatively depleted in regulatory T cells, and this correlates with improved CD8+ T cell functionality. We also observe an increase in the frequency of dendritic cells displaying an activated phenotype within lymphoid organs in the first 24 hours after irradiation. Intriguingly, both the relative decrease in regulatory T cells and increase in activated dendritic cells correspond with a brief window of augmented responsiveness to immunization. After this 24 hour window, the numbers of dendritic cells decline, as does the ability of mice to respond to immunizations. When immunizations are initiated within the period of augmented dendritic cell activation, mice develop anti-tumor responses that show increased durability as well as magnitude, and this approach leads to improved survival in experiments with mice bearing established tumors as well as in a spontaneous melanoma model. We conclude that irradiation can produce potent immune adjuvant effects independent of its ability to induce tumor ablation, and that the timing of immunization and lymphocyte infusion in the irradiated host are crucial for generating optimal anti-tumor immunity. Clinical strategies using these approaches must therefore optimize such parameters, as the correct timing of infusion and vaccination may mean the difference between an ineffective treatment and successful tumor eradication. The development of successful cancer vaccines is contingent on the ability to induce effective and persistent anti-tumor immunity against self-antigens that do not typically elicit immune responses. In this study, we examine the effects of a non-myeloablative dose of total body irradiation on the ability of tumor-naïve mice to respond to DNA vaccines against melanoma. We demonstrate that irradiation followed by lymphocyte infusion results in a dramatic increase in responsiveness to tumor vaccination, with augmentation of T cell responses to tumor antigens and tumor eradication. In irradiated mice, infused CD8.sup.+ T cells expand in an environment that is relatively depleted in regulatory T cells, and this correlates with improved CD8.sup.+ T cell functionality. We also observe an increase in the frequency of dendritic cells displaying an activated phenotype within lymphoid organs in the first 24 hours after irradiation. Intriguingly, both the relative decrease in regulatory T cells and increase in activated dendritic cells correspond with a brief window of augmented responsiveness to immunization. After this 24 hour window, the numbers of dendritic cells decline, as does the ability of mice to respond to immunizations. When immunizations are initiated within the period of augmented dendritic cell activation, mice develop anti-tumor responses that show increased durability as well as magnitude, and this approach leads to improved survival in experiments with mice bearing established tumors as well as in a spontaneous melanoma model. We conclude that irradiation can produce potent immune adjuvant effects independent of its ability to induce tumor ablation, and that the timing of immunization and lymphocyte infusion in the irradiated host are crucial for generating optimal anti-tumor immunity. Clinical strategies using these approaches must therefore optimize such parameters, as the correct timing of infusion and vaccination may mean the difference between an ineffective treatment and successful tumor eradication. |
| Audience | Academic |
| Author | Rizzuto, Gabrielle A Huggins, Deonka W Perales, Miguel-Angel Zhong, Hong Kochman, Adam A Merghoub, Taha van den Brink, Marcel R M Jenq, Robert R Suh, David Houghton, Alan N Hubbard-Lucey, Vanessa M Chen, Suzie Diab, Adi Engelhorn, Manuel E Wolchok, Jedd D Guevara-Patiño, José A Cohen, Adam D |
| AuthorAffiliation | 4 Weill Cornell Medical College, New York, New York, United States of America 1 Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America 5 Susan Lehman Cullman Laboratory for Cancer Research, Ernest Mario School of Pharmacy, Rutgers, The State University of New Jersey Piscataway, New Brunswick, New Jersey, United States of America 3 Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America Mie University Graduate School of Medicine, Japan 2 Adult Bone Marrow Transplantation Service, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America |
| AuthorAffiliation_xml | – name: 2 Adult Bone Marrow Transplantation Service, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America – name: 3 Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America – name: 5 Susan Lehman Cullman Laboratory for Cancer Research, Ernest Mario School of Pharmacy, Rutgers, The State University of New Jersey Piscataway, New Brunswick, New Jersey, United States of America – name: 1 Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America – name: Mie University Graduate School of Medicine, Japan – name: 4 Weill Cornell Medical College, New York, New York, United States of America |
| Author_xml | – sequence: 1 givenname: Adi surname: Diab fullname: Diab, Adi organization: Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America – sequence: 2 givenname: Robert R surname: Jenq fullname: Jenq, Robert R organization: Adult Bone Marrow Transplantation Service, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Weill Cornell Medical College, New York, New York, United States of America – sequence: 3 givenname: Gabrielle A surname: Rizzuto fullname: Rizzuto, Gabrielle A organization: Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America ; Weill Cornell Medical College, New York, New York, United States of America – sequence: 4 givenname: Adam D surname: Cohen fullname: Cohen, Adam D organization: Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; 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Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America – sequence: 8 givenname: José A surname: Guevara-Patiño fullname: Guevara-Patiño, José A organization: Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America – sequence: 9 givenname: David surname: Suh fullname: Suh, David organization: Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America – sequence: 10 givenname: Vanessa M surname: Hubbard-Lucey fullname: Hubbard-Lucey, Vanessa M organization: Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America – sequence: 11 givenname: Adam A surname: Kochman fullname: Kochman, Adam A organization: Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America – sequence: 12 givenname: Suzie surname: Chen fullname: Chen, Suzie organization: Susan Lehman Cullman Laboratory for Cancer Research, Ernest Mario School of Pharmacy, Rutgers, The State University of New Jersey Piscataway, New Brunswick, New Jersey, United States of America – sequence: 13 givenname: Hong surname: Zhong fullname: Zhong, Hong organization: Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America – sequence: 14 givenname: Jedd D surname: Wolchok fullname: Wolchok, Jedd D organization: Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America ; Weill Cornell Medical College, New York, New York, United States of America – sequence: 15 givenname: Marcel R M surname: van den Brink fullname: van den Brink, Marcel R M organization: Adult Bone Marrow Transplantation Service, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America ; Weill Cornell Medical College, New York, New York, United States of America – sequence: 16 givenname: Alan N surname: Houghton fullname: Houghton, Alan N organization: Swim Across America Laboratory of Tumor Immunology, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Immunology Program, Sloan-Kettering Institute, New York, New York, United States of America ; Weill Cornell Medical College, New York, New York, United States of America – sequence: 17 givenname: Miguel-Angel surname: Perales fullname: Perales, Miguel-Angel organization: Adult Bone Marrow Transplantation Service, Department of Medicine, Memorial Sloan-Kettering Cancer Center, New York, New York, United States of America ; Weill Cornell Medical College, New York, New York, United States of America |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/24349298$$D View this record in MEDLINE/PubMed |
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| ContentType | Journal Article |
| Copyright | COPYRIGHT 2013 Public Library of Science 2013 Diab et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License: http://creativecommons.org/licenses/by/4.0/ (the “License”), which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Notwithstanding the ProQuest Terms and Conditions, you may use this content in accordance with the terms of the License. 2013 Diab et al 2013 Diab et al |
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| DOI | 10.1371/journal.pone.0082496 |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Competing Interests: The authors have declared that no competing interests exist. These authors also contributed equally to this work. Conceived and designed the experiments: AD RRJ ADC GAR MAP ANH. Performed the experiments: AD RRJ VMHL DS AAK GAR DWH. Analyzed the data: AD RRJ ADC MAP JDW MRMVDB ANH. Contributed reagents/materials/analysis tools: TM MEE JAGP SC HZ. Wrote the manuscript: AD RRJ MAP ANH MRMVDB. Reviewed the final version of the manuscript: AD RJ GR AC TM ME JGP DS VHL AK SC ZH JW MRMVDB AH MAP DWH Approved the final version of the manuscript:AD RJ GR AC TM ME JGP DS VHL AK SC ZH JW MRMVDB AH MAP DWH. |
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| SubjectTerms | Adoptive Transfer Animal experimentation Animals Anticancer properties Antigen (tumor-associated) Antigens Antigens, Neoplasm - genetics Antigens, Neoplasm - immunology Augmentation Autoantigens Autoantigens - genetics Autoantigens - immunology Bone marrow Cancer Cancer therapies Cancer vaccines Cancer Vaccines - genetics Cancer Vaccines - immunology CD8 antigen CD8-Positive T-Lymphocytes - immunology Cell activation Clinical trials Dendritic cells Dendritic Cells - immunology Deoxyribonucleic acid Development and progression Disease Models, Animal DNA DNA vaccines Durability Female Humans Immune response Immunity Immunization Immunology Immunoregulation Intramolecular Oxidoreductases - genetics Intramolecular Oxidoreductases - immunology Irradiation Laboratories Lymphocytes Lymphocytes T Medicine Melanoma Melanoma, Experimental Metastasis Mice Mice, Transgenic Neoplasms - genetics Neoplasms - immunology Neoplasms - therapy Optimization Organs Radiation Radiation dosage Radiation therapy T cells T-Cell Antigen Receptor Specificity T-Lymphocytes, Regulatory - immunology Time Factors Treatment Outcome Tumor antigens Tumors Vaccination Vaccines Vaccines, DNA - immunology Whole-Body Irradiation |
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| Title | Enhanced responses to tumor immunization following total body irradiation are time-dependent |
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