Administration of HPV DNA vaccine via electroporation elicits the strongest CD8+ T cell immune responses compared to intramuscular injection and intradermal gene gun delivery

Abstract DNA vaccines are an attractive approach to eliciting antigen-specific immunity. Intracellular targeting of tumor antigens through its linkage to immunostimulatory molecules such as calreticulin (CRT) can improve antigen processing and presentation through the MHC class I pathway and increas...

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Veröffentlicht in:	Vaccine 2009-09, Vol.27 (40), p.5450-5459
Hauptverfasser:	Best, Simon R, Peng, Shiwen, Juang, Chi-Mou, Hung, Chien-Fu, Hannaman, Drew, Saunders, John R, Wu, T.-C, Pai, Sara I
Format:	Artikel
Sprache:	eng
Schlagworte:	Allergy and Immunology Animals Antibodies, Viral - blood Antigens Applied microbiology Biological and medical sciences Calreticulin (CRT) CD8-Positive T-Lymphocytes - immunology Cell Line, Tumor Deoxyribonucleic acid DNA DNA vaccine Electroporation Female Fundamental and applied biological sciences. Psychology Head and neck cancer Human papillomavirus Human papillomavirus (HPV) Injection Injections, Intradermal Injections, Intramuscular Interferon-gamma - immunology Medical research Medical sciences Mice Mice, Inbred C57BL Microbiology Miscellaneous Oncogene Proteins, Viral - immunology Papillomavirus E7 Proteins Papillomavirus Infections - prevention & control Papillomavirus Vaccines - administration & dosage Papillomavirus Vaccines - immunology Plasmids Tumors Vaccination - methods Vaccines Vaccines, antisera, therapeutical immunoglobulins and monoclonal antibodies (general aspects) Vaccines, DNA - administration & dosage Vaccines, DNA - immunology Virology
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container_end_page	5459
container_issue	40
container_start_page	5450
container_title	Vaccine
container_volume	27
creator	Best, Simon R Peng, Shiwen Juang, Chi-Mou Hung, Chien-Fu Hannaman, Drew Saunders, John R Wu, T.-C Pai, Sara I
description	Abstract DNA vaccines are an attractive approach to eliciting antigen-specific immunity. Intracellular targeting of tumor antigens through its linkage to immunostimulatory molecules such as calreticulin (CRT) can improve antigen processing and presentation through the MHC class I pathway and increase cytotoxic CD8+ T cell production. However, even with these enhancements, the efficacy of such immunotherapeutic strategies is dependent on the identification of an effective route and method of DNA administration. Electroporation and gene gun-mediated particle delivery are leading methods of DNA vaccine delivery that can generate protective and therapeutic levels of immune responses in experimental models. In this study, we perform a head-to-head comparison of three methods of vaccination – conventional intramuscular injection, electroporation-mediated intramuscular delivery, and epidermal gene gun-mediated particle delivery – in the ability to generate antigen-specific cytotoxic CD8+ T cell responses as well as anti-tumor immune responses against an HPV-16 E7 expressing tumor cell line using the pNGVL4a-CRT/E7(detox) DNA vaccine. Vaccination via electroporation generated the highest number of E7-specific cytotoxic CD8+ T cells, which correlated to improved outcomes in the treatment of growing tumors. In addition, we demonstrate that electroporation results in significantly higher levels of circulating protein compared to gene gun or intramuscular vaccination, which likely enhances calreticulin's role as a local tumor anti-angiogenesis agent. We conclude that electroporation is a promising method for delivery of HPV DNA vaccines and should be considered for DNA vaccine delivery in human clinical trials.
doi_str_mv	10.1016/j.vaccine.2009.07.005
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Intracellular targeting of tumor antigens through its linkage to immunostimulatory molecules such as calreticulin (CRT) can improve antigen processing and presentation through the MHC class I pathway and increase cytotoxic CD8+ T cell production. However, even with these enhancements, the efficacy of such immunotherapeutic strategies is dependent on the identification of an effective route and method of DNA administration. Electroporation and gene gun-mediated particle delivery are leading methods of DNA vaccine delivery that can generate protective and therapeutic levels of immune responses in experimental models. In this study, we perform a head-to-head comparison of three methods of vaccination – conventional intramuscular injection, electroporation-mediated intramuscular delivery, and epidermal gene gun-mediated particle delivery – in the ability to generate antigen-specific cytotoxic CD8+ T cell responses as well as anti-tumor immune responses against an HPV-16 E7 expressing tumor cell line using the pNGVL4a-CRT/E7(detox) DNA vaccine. Vaccination via electroporation generated the highest number of E7-specific cytotoxic CD8+ T cells, which correlated to improved outcomes in the treatment of growing tumors. In addition, we demonstrate that electroporation results in significantly higher levels of circulating protein compared to gene gun or intramuscular vaccination, which likely enhances calreticulin's role as a local tumor anti-angiogenesis agent. 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Intracellular targeting of tumor antigens through its linkage to immunostimulatory molecules such as calreticulin (CRT) can improve antigen processing and presentation through the MHC class I pathway and increase cytotoxic CD8+ T cell production. However, even with these enhancements, the efficacy of such immunotherapeutic strategies is dependent on the identification of an effective route and method of DNA administration. Electroporation and gene gun-mediated particle delivery are leading methods of DNA vaccine delivery that can generate protective and therapeutic levels of immune responses in experimental models. 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In this study, we perform a head-to-head comparison of three methods of vaccination – conventional intramuscular injection, electroporation-mediated intramuscular delivery, and epidermal gene gun-mediated particle delivery – in the ability to generate antigen-specific cytotoxic CD8+ T cell responses as well as anti-tumor immune responses against an HPV-16 E7 expressing tumor cell line using the pNGVL4a-CRT/E7(detox) DNA vaccine. Vaccination via electroporation generated the highest number of E7-specific cytotoxic CD8+ T cells, which correlated to improved outcomes in the treatment of growing tumors. In addition, we demonstrate that electroporation results in significantly higher levels of circulating protein compared to gene gun or intramuscular vaccination, which likely enhances calreticulin's role as a local tumor anti-angiogenesis agent. 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subjects	Allergy and Immunology Animals Antibodies, Viral - blood Antigens Applied microbiology Biological and medical sciences Calreticulin (CRT) CD8-Positive T-Lymphocytes - immunology Cell Line, Tumor Deoxyribonucleic acid DNA DNA vaccine Electroporation Female Fundamental and applied biological sciences. Psychology Head and neck cancer Human papillomavirus Human papillomavirus (HPV) Injection Injections, Intradermal Injections, Intramuscular Interferon-gamma - immunology Medical research Medical sciences Mice Mice, Inbred C57BL Microbiology Miscellaneous Oncogene Proteins, Viral - immunology Papillomavirus E7 Proteins Papillomavirus Infections - prevention & control Papillomavirus Vaccines - administration & dosage Papillomavirus Vaccines - immunology Plasmids Tumors Vaccination - methods Vaccines Vaccines, antisera, therapeutical immunoglobulins and monoclonal antibodies (general aspects) Vaccines, DNA - administration & dosage Vaccines, DNA - immunology Virology
title	Administration of HPV DNA vaccine via electroporation elicits the strongest CD8+ T cell immune responses compared to intramuscular injection and intradermal gene gun delivery
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