In situ tumor vaccination by combining local radiation and tumor-specific antibody or immunocytokine treatments

Zachary S. Morris; Emily I. Guy; David M. Francis; Monica M. Gressett; Lauryn R. Werner; Lakeesha L. Carmichael; Richard K. Yang; Eric A. Armstrong; Shyhmin Huang; Fariba Navid; Stephen D. Gillies; Alan Korman; Jacquelyn A. Hank; Alexander L. Rakhmilevich; Paul M. Harari; Paul M. Sondel

doi:10.1158/0008-5472.CAN-15-2644

In situ tumor vaccination by combining local radiation and tumor-specific antibody or immunocytokine treatments

Zachary S. Morris, Emily I. Guy, David M. Francis, Monica M. Gressett, Lauryn R. Werner, Lakeesha L. Carmichael, Richard K. Yang, Eric A. Armstrong, Shyhmin Huang, Fariba Navid, Stephen D. Gillies, Alan Korman, Jacquelyn A. Hank, Alexander L. Rakhmilevich, Paul M. Harari, Paul M. Sondel

Research output: Contribution to journal › Article › peer-review

107 Scopus citations

Abstract

Interest in combining radiotherapy and immune checkpoint therapy is growing rapidly. In this study, we explored a novel combination of this type to augment antitumor immune responses in preclinical murine models of melanoma, neuroblastoma, and head and neck squamous cell carcinoma. Cooperative effects were observed with local radiotherapy and intratumoral injection of tumor-specific antibodies, arising in part from enhanced antibody-dependent cell-mediated cytotoxicity (ADCC). We could improve this response by combining radiation with intratumoral injection of an IL2-linked tumor-specific antibody (termed here an immunocytokine), resulting in complete regression of established tumors in most animals associated with a tumor-specific memory T-cell response. Given the T-cell response elicited by combined local radiation and intratumoral immunocytokine, we tested the potential benefit of adding this treatment to immune checkpoint blockade. In mice bearing large primary tumors or disseminated metastases, the triple-combination of intratumoral immunocytokine, radiation, and systemic anti-CTLA-4 improved primary tumor response and animal survival compared with combinations of any two of these three interventions. Taken together, our results show how combining radiation and intratumoral immunocytokine in murine tumor models can eradicate large tumors and metastases, eliciting an in situ vaccination effect that can be leveraged further by T-cell checkpoint blockade, with immediate implications for clinical evaluation.

Original language	English (US)
Pages (from-to)	3929-3941
Number of pages	13
Journal	Cancer Research
Volume	76
Issue number	13
DOIs	https://doi.org/10.1158/0008-5472.CAN-15-2644
State	Published - Jul 1 2016
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

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10.1158/0008-5472.CAN-15-2644

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Morris, Z. S., Guy, E. I., Francis, D. M., Gressett, M. M., Werner, L. R., Carmichael, L. L., Yang, R. K., Armstrong, E. A., Huang, S., Navid, F., Gillies, S. D., Korman, A., Hank, J. A., Rakhmilevich, A. L., Harari, P. M., & Sondel, P. M. (2016). In situ tumor vaccination by combining local radiation and tumor-specific antibody or immunocytokine treatments. Cancer Research, 76(13), 3929-3941. https://doi.org/10.1158/0008-5472.CAN-15-2644

Morris, ZS, Guy, EI, Francis, DM, Gressett, MM, Werner, LR, Carmichael, LL, Yang, RK, Armstrong, EA, Huang, S, Navid, F, Gillies, SD, Korman, A, Hank, JA, Rakhmilevich, AL, Harari, PM & Sondel, PM 2016, 'In situ tumor vaccination by combining local radiation and tumor-specific antibody or immunocytokine treatments', Cancer Research, vol. 76, no. 13, pp. 3929-3941. https://doi.org/10.1158/0008-5472.CAN-15-2644

@article{59e059ba451445d48b5b6961f6c5dc0a,

title = "In situ tumor vaccination by combining local radiation and tumor-specific antibody or immunocytokine treatments",

abstract = "Interest in combining radiotherapy and immune checkpoint therapy is growing rapidly. In this study, we explored a novel combination of this type to augment antitumor immune responses in preclinical murine models of melanoma, neuroblastoma, and head and neck squamous cell carcinoma. Cooperative effects were observed with local radiotherapy and intratumoral injection of tumor-specific antibodies, arising in part from enhanced antibody-dependent cell-mediated cytotoxicity (ADCC). We could improve this response by combining radiation with intratumoral injection of an IL2-linked tumor-specific antibody (termed here an immunocytokine), resulting in complete regression of established tumors in most animals associated with a tumor-specific memory T-cell response. Given the T-cell response elicited by combined local radiation and intratumoral immunocytokine, we tested the potential benefit of adding this treatment to immune checkpoint blockade. In mice bearing large primary tumors or disseminated metastases, the triple-combination of intratumoral immunocytokine, radiation, and systemic anti-CTLA-4 improved primary tumor response and animal survival compared with combinations of any two of these three interventions. Taken together, our results show how combining radiation and intratumoral immunocytokine in murine tumor models can eradicate large tumors and metastases, eliciting an in situ vaccination effect that can be leveraged further by T-cell checkpoint blockade, with immediate implications for clinical evaluation.",

author = "Morris, {Zachary S.} and Guy, {Emily I.} and Francis, {David M.} and Gressett, {Monica M.} and Werner, {Lauryn R.} and Carmichael, {Lakeesha L.} and Yang, {Richard K.} and Armstrong, {Eric A.} and Shyhmin Huang and Fariba Navid and Gillies, {Stephen D.} and Alan Korman and Hank, {Jacquelyn A.} and Rakhmilevich, {Alexander L.} and Harari, {Paul M.} and Sondel, {Paul M.}",

note = "Funding Information: RSNA Research Resident Grant, ASTRO Resident Seed Grant, Sari Zirbel Memorial Fund (Z.S. Morris). NIH Grants CA032685, CA87025, CA166105, CA14520, CA197078, GM067386, UL1TR000427, Midwest Athletes for Childhood Cancer, Crawdaddy Foundation, Evan Dunbar Foundation, Hyundai Hope on Wheels Foundation, UW ICTR grant 1TL1RR025013-01, and Stand Up To Cancer-St. Baldrick's Foundation Pediatric Dream Team Translational Research grant (SU2C-AACR-DT1113 to Z.S. Morris, E.I. Guy, M.M. Gressett, L.L. Carmichael, R.K. Yang, J.A. Hank, A.I. Rakhmilevich, and P.M. Sondel). Stand Up To Cancer is a program of the Entertainment Industry Foundation administered by the American Association for Cancer Research. Publisher Copyright: {\textcopyright} 2016 AACR.",

year = "2016",

month = jul,

day = "1",

doi = "10.1158/0008-5472.CAN-15-2644",

language = "English (US)",

volume = "76",

pages = "3929--3941",

journal = "Cancer Research",

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number = "13",

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T1 - In situ tumor vaccination by combining local radiation and tumor-specific antibody or immunocytokine treatments

AU - Morris, Zachary S.

AU - Guy, Emily I.

AU - Francis, David M.

AU - Gressett, Monica M.

AU - Werner, Lauryn R.

AU - Carmichael, Lakeesha L.

AU - Yang, Richard K.

AU - Armstrong, Eric A.

AU - Huang, Shyhmin

AU - Navid, Fariba

AU - Gillies, Stephen D.

AU - Korman, Alan

AU - Hank, Jacquelyn A.

AU - Rakhmilevich, Alexander L.

AU - Harari, Paul M.

AU - Sondel, Paul M.

N1 - Funding Information: RSNA Research Resident Grant, ASTRO Resident Seed Grant, Sari Zirbel Memorial Fund (Z.S. Morris). NIH Grants CA032685, CA87025, CA166105, CA14520, CA197078, GM067386, UL1TR000427, Midwest Athletes for Childhood Cancer, Crawdaddy Foundation, Evan Dunbar Foundation, Hyundai Hope on Wheels Foundation, UW ICTR grant 1TL1RR025013-01, and Stand Up To Cancer-St. Baldrick's Foundation Pediatric Dream Team Translational Research grant (SU2C-AACR-DT1113 to Z.S. Morris, E.I. Guy, M.M. Gressett, L.L. Carmichael, R.K. Yang, J.A. Hank, A.I. Rakhmilevich, and P.M. Sondel). Stand Up To Cancer is a program of the Entertainment Industry Foundation administered by the American Association for Cancer Research. Publisher Copyright: © 2016 AACR.

PY - 2016/7/1

Y1 - 2016/7/1

N2 - Interest in combining radiotherapy and immune checkpoint therapy is growing rapidly. In this study, we explored a novel combination of this type to augment antitumor immune responses in preclinical murine models of melanoma, neuroblastoma, and head and neck squamous cell carcinoma. Cooperative effects were observed with local radiotherapy and intratumoral injection of tumor-specific antibodies, arising in part from enhanced antibody-dependent cell-mediated cytotoxicity (ADCC). We could improve this response by combining radiation with intratumoral injection of an IL2-linked tumor-specific antibody (termed here an immunocytokine), resulting in complete regression of established tumors in most animals associated with a tumor-specific memory T-cell response. Given the T-cell response elicited by combined local radiation and intratumoral immunocytokine, we tested the potential benefit of adding this treatment to immune checkpoint blockade. In mice bearing large primary tumors or disseminated metastases, the triple-combination of intratumoral immunocytokine, radiation, and systemic anti-CTLA-4 improved primary tumor response and animal survival compared with combinations of any two of these three interventions. Taken together, our results show how combining radiation and intratumoral immunocytokine in murine tumor models can eradicate large tumors and metastases, eliciting an in situ vaccination effect that can be leveraged further by T-cell checkpoint blockade, with immediate implications for clinical evaluation.

AB - Interest in combining radiotherapy and immune checkpoint therapy is growing rapidly. In this study, we explored a novel combination of this type to augment antitumor immune responses in preclinical murine models of melanoma, neuroblastoma, and head and neck squamous cell carcinoma. Cooperative effects were observed with local radiotherapy and intratumoral injection of tumor-specific antibodies, arising in part from enhanced antibody-dependent cell-mediated cytotoxicity (ADCC). We could improve this response by combining radiation with intratumoral injection of an IL2-linked tumor-specific antibody (termed here an immunocytokine), resulting in complete regression of established tumors in most animals associated with a tumor-specific memory T-cell response. Given the T-cell response elicited by combined local radiation and intratumoral immunocytokine, we tested the potential benefit of adding this treatment to immune checkpoint blockade. In mice bearing large primary tumors or disseminated metastases, the triple-combination of intratumoral immunocytokine, radiation, and systemic anti-CTLA-4 improved primary tumor response and animal survival compared with combinations of any two of these three interventions. Taken together, our results show how combining radiation and intratumoral immunocytokine in murine tumor models can eradicate large tumors and metastases, eliciting an in situ vaccination effect that can be leveraged further by T-cell checkpoint blockade, with immediate implications for clinical evaluation.

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ER -

In situ tumor vaccination by combining local radiation and tumor-specific antibody or immunocytokine treatments

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