Tumor eradicated by combination of imiquimod and OX40 agonist for in situ vaccination

Various cancer vaccines have been developed to generate and amplify antigen‐specific T cell responses against malignancy. Among them, in situ vaccination is one of the most practical types as it can trigger immune responses without previous antigen identification. Here we reported a novel in situ va...

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Veröffentlicht in:	Cancer science 2021-11, Vol.112 (11), p.4490-4500
Hauptverfasser:	Chu, Yanhong, Li, Rutian, Qian, Lingyu, Liu, Fangcen, Xu, Ruihan, Meng, Fanyan, Ke, Yaohua, Shao, Jie, Yu, Lixia, Liu, Qin, Liu, Baorui
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Schlagworte:	Agonists Antigens Cancer therapies Cancer vaccines CD4 antigen Clinical trials Cytokines Effector cells Flow cytometry Gene expression Genomes Imiquimod immune responses Immunological memory in situ vaccine Kinases Laboratory animals Liver cancer Lymphocytes Lymphocytes T Malignancy Memory cells Monoclonal antibodies Ontology Original OX40 agonist Pathogens Solid tumors Spleen Statistical analysis Survival analysis Toxicity tumor microenvironment Tumor necrosis factor Tumors Vaccines
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creator	Chu, Yanhong Li, Rutian Qian, Lingyu Liu, Fangcen Xu, Ruihan Meng, Fanyan Ke, Yaohua Shao, Jie Yu, Lixia Liu, Qin Liu, Baorui
description	Various cancer vaccines have been developed to generate and amplify antigen‐specific T cell responses against malignancy. Among them, in situ vaccination is one of the most practical types as it can trigger immune responses without previous antigen identification. Here we reported a novel in situ vaccine by intratumoral injection of imiquimod and OX40 agonist. In mice bearing hepatic carcinoma, both the injected tumor and the noninjected tumor in the distant lesion of the same mice were suppressed after vaccination. Further studies found that this in situ vaccine triggered systemic tumor‐specific responses, with one‐fold increase of effector memory T cells properties and stronger toxicity of lymphocytes in spleen. Besides, we found that imiquimod upregulated the expression of OX40 on CD4+ T cells and thus enhanced the effectiveness of OX40 agonist. Five immune‐positive‐related pathways were activated after vaccination. This in situ vaccine caused little harm to normal organs and provided long‐term protection against the same syngeneic tumor rechallenge. Due to its effectiveness, feasibility and safety, this strategy could potentially be applied to various types of late‐stage solid tumors and worthy of further clinical research. We explore an immunotherapy approach with agonistic anti OX40, which is an important TNFSF receptor on surface of activated T cells. The main result of the paper is imiquimod induce an additive effect on T cell antitumor activity, when combined with OX40 agonist immunotherapy. It was strikingly interesting this effect was shown to generate memory T cells with a long lasting immunity in rechallenged animals.
doi_str_mv	10.1111/cas.15145
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Among them, in situ vaccination is one of the most practical types as it can trigger immune responses without previous antigen identification. Here we reported a novel in situ vaccine by intratumoral injection of imiquimod and OX40 agonist. In mice bearing hepatic carcinoma, both the injected tumor and the noninjected tumor in the distant lesion of the same mice were suppressed after vaccination. Further studies found that this in situ vaccine triggered systemic tumor‐specific responses, with one‐fold increase of effector memory T cells properties and stronger toxicity of lymphocytes in spleen. Besides, we found that imiquimod upregulated the expression of OX40 on CD4+ T cells and thus enhanced the effectiveness of OX40 agonist. Five immune‐positive‐related pathways were activated after vaccination. This in situ vaccine caused little harm to normal organs and provided long‐term protection against the same syngeneic tumor rechallenge. Due to its effectiveness, feasibility and safety, this strategy could potentially be applied to various types of late‐stage solid tumors and worthy of further clinical research. We explore an immunotherapy approach with agonistic anti OX40, which is an important TNFSF receptor on surface of activated T cells. The main result of the paper is imiquimod induce an additive effect on T cell antitumor activity, when combined with OX40 agonist immunotherapy. It was strikingly interesting this effect was shown to generate memory T cells with a long lasting immunity in rechallenged animals.</description><identifier>ISSN: 1347-9032</identifier><identifier>EISSN: 1349-7006</identifier><identifier>DOI: 10.1111/cas.15145</identifier><identifier>PMID: 34537997</identifier><language>eng</language><publisher>Tokyo: John Wiley & Sons, Inc</publisher><subject>Agonists ; Antigens ; Cancer therapies ; Cancer vaccines ; CD4 antigen ; Clinical trials ; Cytokines ; Effector cells ; Flow cytometry ; Gene expression ; Genomes ; Imiquimod ; immune responses ; Immunological memory ; in situ vaccine ; Kinases ; Laboratory animals ; Liver cancer ; Lymphocytes ; Lymphocytes T ; Malignancy ; Memory cells ; Monoclonal antibodies ; Ontology ; Original ; OX40 agonist ; Pathogens ; Solid tumors ; Spleen ; Statistical analysis ; Survival analysis ; Toxicity ; tumor microenvironment ; Tumor necrosis factor ; Tumors ; Vaccines</subject><ispartof>Cancer science, 2021-11, Vol.112 (11), p.4490-4500</ispartof><rights>2021 The Authors. published by John Wiley & Sons Australia, Ltd on behalf of Japanese Cancer Association.</rights><rights>2021. 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Among them, in situ vaccination is one of the most practical types as it can trigger immune responses without previous antigen identification. Here we reported a novel in situ vaccine by intratumoral injection of imiquimod and OX40 agonist. In mice bearing hepatic carcinoma, both the injected tumor and the noninjected tumor in the distant lesion of the same mice were suppressed after vaccination. Further studies found that this in situ vaccine triggered systemic tumor‐specific responses, with one‐fold increase of effector memory T cells properties and stronger toxicity of lymphocytes in spleen. Besides, we found that imiquimod upregulated the expression of OX40 on CD4+ T cells and thus enhanced the effectiveness of OX40 agonist. Five immune‐positive‐related pathways were activated after vaccination. This in situ vaccine caused little harm to normal organs and provided long‐term protection against the same syngeneic tumor rechallenge. Due to its effectiveness, feasibility and safety, this strategy could potentially be applied to various types of late‐stage solid tumors and worthy of further clinical research. We explore an immunotherapy approach with agonistic anti OX40, which is an important TNFSF receptor on surface of activated T cells. The main result of the paper is imiquimod induce an additive effect on T cell antitumor activity, when combined with OX40 agonist immunotherapy. 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Due to its effectiveness, feasibility and safety, this strategy could potentially be applied to various types of late‐stage solid tumors and worthy of further clinical research. We explore an immunotherapy approach with agonistic anti OX40, which is an important TNFSF receptor on surface of activated T cells. The main result of the paper is imiquimod induce an additive effect on T cell antitumor activity, when combined with OX40 agonist immunotherapy. It was strikingly interesting this effect was shown to generate memory T cells with a long lasting immunity in rechallenged animals.</abstract><cop>Tokyo</cop><pub>John Wiley & Sons, Inc</pub><pmid>34537997</pmid><doi>10.1111/cas.15145</doi><tpages>0</tpages><orcidid>https://orcid.org/0000-0002-2539-7732</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Agonists Antigens Cancer therapies Cancer vaccines CD4 antigen Clinical trials Cytokines Effector cells Flow cytometry Gene expression Genomes Imiquimod immune responses Immunological memory in situ vaccine Kinases Laboratory animals Liver cancer Lymphocytes Lymphocytes T Malignancy Memory cells Monoclonal antibodies Ontology Original OX40 agonist Pathogens Solid tumors Spleen Statistical analysis Survival analysis Toxicity tumor microenvironment Tumor necrosis factor Tumors Vaccines
title	Tumor eradicated by combination of imiquimod and OX40 agonist for in situ vaccination
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