Prospects for personalized combination immunotherapy for solid tumors based on adoptive cell therapies and immune checkpoint blockade therapies

Immune checkpoint blockade (ICB) and adoptive cell therapies (ACT) with antigen-receptor gene-engineered T cells have been shown to be successful for a limited number of patients with solid tumors. Responders to ICB therapy typically have T cell-inflamed tumors. Thus, it is important to develop st...

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Veröffentlicht in:	Japanese Journal of Clinical Immunology 2017, Vol.40(1), pp.68-77
Hauptverfasser:	KATO, Daiki, YAGUCHI, Tomonori, IWATA, Takashi, MORII, Kenji, NAKAGAWA, Takayuki, NISHIMURA, Ryohei, KAWAKAMI, Yutaka
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Sprache:	eng ; jpn
Schlagworte:	adoptive cell therapy Cell- and Tissue-Based Therapy - methods chimeric antigen receptor transduced T (CAR-T) cell therapy Cytokines - metabolism Cytotoxicity, Immunologic Humans immune checkpoint blockade therapy Immunotherapy - methods Immunotherapy - trends Immunotherapy, Adoptive Neoplasms - immunology Neoplasms - therapy Protein Engineering Receptors, Antigen, T-Cell - immunology T-Lymphocytes, Cytotoxic - immunology tumor immunology tumor microenvironment Tumor Microenvironment - immunology
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container_title	Japanese Journal of Clinical Immunology
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creator	KATO, Daiki YAGUCHI, Tomonori IWATA, Takashi MORII, Kenji NAKAGAWA, Takayuki NISHIMURA, Ryohei KAWAKAMI, Yutaka
description	Immune checkpoint blockade (ICB) and adoptive cell therapies (ACT) with antigen-receptor gene-engineered T cells have been shown to be successful for a limited number of patients with solid tumors. Responders to ICB therapy typically have T cell-inflamed tumors. Thus, it is important to develop strategies that convert non-T cell-inflamed tumors to T cell-inflamed tumors. Although chimeric antigen receptor transduced T (CAR-T) cell therapy targeting hematological malignancies demonstrated durable clinical responses, the success of gene-engineered T cell therapies in solid tumors is hampered by a lack of unique antigens, antigen loss in cancer cells, and the immune-suppressive tumor microenvironment (TME) of solid tumors. However, gene-engineered T cells possess strong killing activity and cytokine production capacity, which can induce antigen spreading and modulate the TME of non-T cell-inflamed tumors seen in non-responders to ICB therapy. Immune responses against cancer are highly heterogeneous, not only between tumor types, but also within a patient or between different patients with the same type of cancer, indicating that personalized immunotherapy should be employed, based on the immune status of the individual patient. Here, we offer our perspective for personalized combination immunotherapy for solid tumors based on ACT and ICB therapies.
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Responders to ICB therapy typically have T cell-inflamed tumors. Thus, it is important to develop strategies that convert non-T cell-inflamed tumors to T cell-inflamed tumors. Although chimeric antigen receptor transduced T (CAR-T) cell therapy targeting hematological malignancies demonstrated durable clinical responses, the success of gene-engineered T cell therapies in solid tumors is hampered by a lack of unique antigens, antigen loss in cancer cells, and the immune-suppressive tumor microenvironment (TME) of solid tumors. However, gene-engineered T cells possess strong killing activity and cytokine production capacity, which can induce antigen spreading and modulate the TME of non-T cell-inflamed tumors seen in non-responders to ICB therapy. Immune responses against cancer are highly heterogeneous, not only between tumor types, but also within a patient or between different patients with the same type of cancer, indicating that personalized immunotherapy should be employed, based on the immune status of the individual patient. 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J. Clin. Immunol.</addtitle><description> Immune checkpoint blockade (ICB) and adoptive cell therapies (ACT) with antigen-receptor gene-engineered T cells have been shown to be successful for a limited number of patients with solid tumors. Responders to ICB therapy typically have T cell-inflamed tumors. Thus, it is important to develop strategies that convert non-T cell-inflamed tumors to T cell-inflamed tumors. Although chimeric antigen receptor transduced T (CAR-T) cell therapy targeting hematological malignancies demonstrated durable clinical responses, the success of gene-engineered T cell therapies in solid tumors is hampered by a lack of unique antigens, antigen loss in cancer cells, and the immune-suppressive tumor microenvironment (TME) of solid tumors. However, gene-engineered T cells possess strong killing activity and cytokine production capacity, which can induce antigen spreading and modulate the TME of non-T cell-inflamed tumors seen in non-responders to ICB therapy. Immune responses against cancer are highly heterogeneous, not only between tumor types, but also within a patient or between different patients with the same type of cancer, indicating that personalized immunotherapy should be employed, based on the immune status of the individual patient. Here, we offer our perspective for personalized combination immunotherapy for solid tumors based on ACT and ICB therapies.</description><subject>adoptive cell therapy</subject><subject>Cell- and Tissue-Based Therapy - methods</subject><subject>chimeric antigen receptor transduced T (CAR-T) cell therapy</subject><subject>Cytokines - metabolism</subject><subject>Cytotoxicity, Immunologic</subject><subject>Humans</subject><subject>immune checkpoint blockade therapy</subject><subject>Immunotherapy - methods</subject><subject>Immunotherapy - trends</subject><subject>Immunotherapy, Adoptive</subject><subject>Neoplasms - immunology</subject><subject>Neoplasms - therapy</subject><subject>Protein Engineering</subject><subject>Receptors, Antigen, T-Cell - immunology</subject><subject>T-Lymphocytes, Cytotoxic - immunology</subject><subject>tumor immunology</subject><subject>tumor microenvironment</subject><subject>Tumor Microenvironment - immunology</subject><issn>0911-4300</issn><issn>1349-7413</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2017</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNpFkc9u1DAQxi0EoqvSCw-AfERIWfwvtnPggCpokSrBAc6W40xYp4kd7KTS8hK8Mt6mLBePNPPzN5--Qeg1JXtGlXo_ZOf3guylfoZ2lIumUoLy52hHGkorwQm5QFc5-5YQJjSXTfMSXTBd86au1Q79-ZZinsEtGfcx4RlSjsGO_jd02MWp9cEuPgbsp2kNcTlAsvPxEc1x9B1e1immjFuby4fC2S7Oi38A7GAc8cZ7yNiGbtMokwO4-zn6sOB2jO7edvAffIVe9HbMcPVUL9GPz5--X99Wd19vvlx_vKtcLZSuetY1DfRMklaymoJoWtraRrdABVO8BgUWhCh9LYnrnaaiI7SvmbWMid7yS_R2051T_LVCXszk88mzDRDXbGhziosKzgv6bkNdiSon6M2c_GTT0VBiTjcwpxsYQYzUBX7zpLu2E3Rn9F_iBbjZgDL1zo4xjD6AGeKaSu7ZdEcxDLHoMUKVIUQQQg0pmwiRujxKMS2lFKIofdiUhrzYn3BeZdPi3QhnV3Szdu67g00GAv8LLjWzOg</recordid><startdate>2017</startdate><enddate>2017</enddate><creator>KATO, Daiki</creator><creator>YAGUCHI, Tomonori</creator><creator>IWATA, Takashi</creator><creator>MORII, Kenji</creator><creator>NAKAGAWA, Takayuki</creator><creator>NISHIMURA, Ryohei</creator><creator>KAWAKAMI, Yutaka</creator><general>The Japan Society for Clinical Immunology</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope></search><sort><creationdate>2017</creationdate><title>Prospects for personalized combination immunotherapy for solid tumors based on adoptive cell therapies and immune checkpoint blockade therapies</title><author>KATO, Daiki ; 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J. Clin. Immunol.</addtitle><date>2017</date><risdate>2017</risdate><volume>40</volume><issue>1</issue><spage>68</spage><epage>77</epage><pages>68-77</pages><issn>0911-4300</issn><eissn>1349-7413</eissn><abstract> Immune checkpoint blockade (ICB) and adoptive cell therapies (ACT) with antigen-receptor gene-engineered T cells have been shown to be successful for a limited number of patients with solid tumors. Responders to ICB therapy typically have T cell-inflamed tumors. Thus, it is important to develop strategies that convert non-T cell-inflamed tumors to T cell-inflamed tumors. Although chimeric antigen receptor transduced T (CAR-T) cell therapy targeting hematological malignancies demonstrated durable clinical responses, the success of gene-engineered T cell therapies in solid tumors is hampered by a lack of unique antigens, antigen loss in cancer cells, and the immune-suppressive tumor microenvironment (TME) of solid tumors. 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subjects	adoptive cell therapy Cell- and Tissue-Based Therapy - methods chimeric antigen receptor transduced T (CAR-T) cell therapy Cytokines - metabolism Cytotoxicity, Immunologic Humans immune checkpoint blockade therapy Immunotherapy - methods Immunotherapy - trends Immunotherapy, Adoptive Neoplasms - immunology Neoplasms - therapy Protein Engineering Receptors, Antigen, T-Cell - immunology T-Lymphocytes, Cytotoxic - immunology tumor immunology tumor microenvironment Tumor Microenvironment - immunology
title	Prospects for personalized combination immunotherapy for solid tumors based on adoptive cell therapies and immune checkpoint blockade therapies
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