Temozolomide lymphodepletion enhances CAR abundance and correlates with antitumor efficacy against established glioblastoma

Carter M. Suryadevara; Rupen Desai; Melissa L. Abel; Katherine A. Riccione; Kristen A. Batich; Steven H. Shen; Pakawat Chongsathidkiet; Patrick C. Gedeon; Aladine A. Elsamadicy; David J. Snyder; James E. Herndon; Patrick Healy; Gary E. Archer; Bryan D. Choi; Peter E. Fecci; John H. Sampson; Luis Sanchez-Perez

doi:10.1080/2162402X.2018.1434464

Temozolomide lymphodepletion enhances CAR abundance and correlates with antitumor efficacy against established glioblastoma

Carter M. Suryadevara, Rupen Desai, Melissa L. Abel, Katherine A. Riccione, Kristen A. Batich, Steven H. Shen, Pakawat Chongsathidkiet, Patrick C. Gedeon, Aladine A. Elsamadicy, David J. Snyder, James E. Herndon, Patrick Healy, Gary E. Archer, Bryan D. Choi, Peter E. Fecci, John H. Sampson, Luis Sanchez-Perez

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

80 Scopus citations

Abstract

Adoptive transfer of T cells expressing chimeric antigen receptors (CARs) is an effective immunotherapy for B-cell malignancies but has failed in some solid tumors clinically. Intracerebral tumors may pose challenges that are even more significant. In order to devise a treatment strategy for patients with glioblastoma (GBM), we evaluated CARs as a monotherapy in a murine model of GBM. CARs exhibited poor expansion and survival in circulation and failed to treat syngeneic and orthotopic gliomas. We hypothesized that CAR engraftment would benefit from host lymphodepletion prior to immunotherapy and that this might be achievable by using temozolomide (TMZ), which is standard treatment for these patients and has lymphopenia as its major side effect. We modelled standard of care temozolomide (TMZ^SD) and dose-intensified TMZ (TMZ^DI) in our murine model. Both regimens are clinically approved and provide similar efficacy. Only TMZ^DI pretreatment prompted dramatic CAR proliferation and enhanced persistence in circulation compared to treatment with CARs alone or TMZ^SD + CARs. Bioluminescent imaging revealed that TMZ^DI + CARs induced complete regression of 21-day established brain tumors, which correlated with CAR abundance in circulation. Accordingly, TMZ^DI + CARs significantly prolonged survival and led to long-term survivors. These findings are highly consequential, as it suggests that GBM patients may require TMZ^DI as first line chemotherapy prior to systemic CAR infusion to promote CAR engraftment and antitumor efficacy. On this basis, we have initiated a phase I trial in patients with newly diagnosed GBM incorporating TMZ^DI as a preconditioning regimen prior to CAR immunotherapy (NCT02664363).

Original language	English
Article number	e1434464
Journal	OncoImmunology
Volume	7
Issue number	6
DOIs	https://doi.org/10.1080/2162402X.2018.1434464
State	Published - 3 Jun 2018
Externally published	Yes

Keywords

adoptive transfer
brain tumor
chimeric antigen receptor
glioblastoma
glioma
immunotherapy
lymphopenia
temozolomide

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10.1080/2162402X.2018.1434464

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Suryadevara, C. M., Desai, R., Abel, M. L., Riccione, K. A., Batich, K. A., Shen, S. H., Chongsathidkiet, P., Gedeon, P. C., Elsamadicy, A. A., Snyder, D. J., Herndon, J. E., Healy, P., Archer, G. E., Choi, B. D., Fecci, P. E., Sampson, J. H., & Sanchez-Perez, L. (2018). Temozolomide lymphodepletion enhances CAR abundance and correlates with antitumor efficacy against established glioblastoma. OncoImmunology, 7(6), Article e1434464. https://doi.org/10.1080/2162402X.2018.1434464

@article{e476f9ae8f94444da7182594c38339f6,

title = "Temozolomide lymphodepletion enhances CAR abundance and correlates with antitumor efficacy against established glioblastoma",

abstract = "Adoptive transfer of T cells expressing chimeric antigen receptors (CARs) is an effective immunotherapy for B-cell malignancies but has failed in some solid tumors clinically. Intracerebral tumors may pose challenges that are even more significant. In order to devise a treatment strategy for patients with glioblastoma (GBM), we evaluated CARs as a monotherapy in a murine model of GBM. CARs exhibited poor expansion and survival in circulation and failed to treat syngeneic and orthotopic gliomas. We hypothesized that CAR engraftment would benefit from host lymphodepletion prior to immunotherapy and that this might be achievable by using temozolomide (TMZ), which is standard treatment for these patients and has lymphopenia as its major side effect. We modelled standard of care temozolomide (TMZSD) and dose-intensified TMZ (TMZDI) in our murine model. Both regimens are clinically approved and provide similar efficacy. Only TMZDI pretreatment prompted dramatic CAR proliferation and enhanced persistence in circulation compared to treatment with CARs alone or TMZSD + CARs. Bioluminescent imaging revealed that TMZDI + CARs induced complete regression of 21-day established brain tumors, which correlated with CAR abundance in circulation. Accordingly, TMZDI + CARs significantly prolonged survival and led to long-term survivors. These findings are highly consequential, as it suggests that GBM patients may require TMZDI as first line chemotherapy prior to systemic CAR infusion to promote CAR engraftment and antitumor efficacy. On this basis, we have initiated a phase I trial in patients with newly diagnosed GBM incorporating TMZDI as a preconditioning regimen prior to CAR immunotherapy (NCT02664363).",

keywords = "adoptive transfer, brain tumor, chimeric antigen receptor, glioblastoma, glioma, immunotherapy, lymphopenia, temozolomide",

author = "Suryadevara, {Carter M.} and Rupen Desai and Abel, {Melissa L.} and Riccione, {Katherine A.} and Batich, {Kristen A.} and Shen, {Steven H.} and Pakawat Chongsathidkiet and Gedeon, {Patrick C.} and Elsamadicy, {Aladine A.} and Snyder, {David J.} and Herndon, {James E.} and Patrick Healy and Archer, {Gary E.} and Choi, {Bryan D.} and Fecci, {Peter E.} and Sampson, {John H.} and Luis Sanchez-Perez",

note = "Publisher Copyright: {\textcopyright} 2018 The Author(s). Published with license by Taylor & Francis Group, LLC {\textcopyright} 2018, {\textcopyright} Carter M. Suryadevara, Rupen Desai, Melissa L. Abel, Katherine A. Riccione, Kristen A. Batich, Steven H. Shen, Pakawat Chongsathidkiet, Patrick C. Gedeon, Aladine A. Elsamadicy, David J. Snyder, James E. Herndon II, Patrick Healy, Gary E. Archer, Bryan D. Choi, Peter E. Fecci, John H. Sampson and Luis Sanchez-Perez.",

year = "2018",

month = jun,

day = "3",

doi = "10.1080/2162402X.2018.1434464",

language = "English",

volume = "7",

journal = "OncoImmunology",

issn = "2162-4011",

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Suryadevara, CM, Desai, R, Abel, ML, Riccione, KA, Batich, KA, Shen, SH, Chongsathidkiet, P, Gedeon, PC, Elsamadicy, AA, Snyder, DJ, Herndon, JE, Healy, P, Archer, GE, Choi, BD, Fecci, PE, Sampson, JH & Sanchez-Perez, L 2018, 'Temozolomide lymphodepletion enhances CAR abundance and correlates with antitumor efficacy against established glioblastoma', OncoImmunology, vol. 7, no. 6, e1434464. https://doi.org/10.1080/2162402X.2018.1434464

TY - JOUR

T1 - Temozolomide lymphodepletion enhances CAR abundance and correlates with antitumor efficacy against established glioblastoma

AU - Suryadevara, Carter M.

AU - Desai, Rupen

AU - Abel, Melissa L.

AU - Riccione, Katherine A.

AU - Batich, Kristen A.

AU - Shen, Steven H.

AU - Chongsathidkiet, Pakawat

AU - Gedeon, Patrick C.

AU - Elsamadicy, Aladine A.

AU - Snyder, David J.

AU - Herndon, James E.

AU - Healy, Patrick

AU - Archer, Gary E.

AU - Choi, Bryan D.

AU - Fecci, Peter E.

AU - Sampson, John H.

AU - Sanchez-Perez, Luis

N1 - Publisher Copyright: © 2018 The Author(s). Published with license by Taylor & Francis Group, LLC © 2018, © Carter M. Suryadevara, Rupen Desai, Melissa L. Abel, Katherine A. Riccione, Kristen A. Batich, Steven H. Shen, Pakawat Chongsathidkiet, Patrick C. Gedeon, Aladine A. Elsamadicy, David J. Snyder, James E. Herndon II, Patrick Healy, Gary E. Archer, Bryan D. Choi, Peter E. Fecci, John H. Sampson and Luis Sanchez-Perez.

PY - 2018/6/3

Y1 - 2018/6/3

N2 - Adoptive transfer of T cells expressing chimeric antigen receptors (CARs) is an effective immunotherapy for B-cell malignancies but has failed in some solid tumors clinically. Intracerebral tumors may pose challenges that are even more significant. In order to devise a treatment strategy for patients with glioblastoma (GBM), we evaluated CARs as a monotherapy in a murine model of GBM. CARs exhibited poor expansion and survival in circulation and failed to treat syngeneic and orthotopic gliomas. We hypothesized that CAR engraftment would benefit from host lymphodepletion prior to immunotherapy and that this might be achievable by using temozolomide (TMZ), which is standard treatment for these patients and has lymphopenia as its major side effect. We modelled standard of care temozolomide (TMZSD) and dose-intensified TMZ (TMZDI) in our murine model. Both regimens are clinically approved and provide similar efficacy. Only TMZDI pretreatment prompted dramatic CAR proliferation and enhanced persistence in circulation compared to treatment with CARs alone or TMZSD + CARs. Bioluminescent imaging revealed that TMZDI + CARs induced complete regression of 21-day established brain tumors, which correlated with CAR abundance in circulation. Accordingly, TMZDI + CARs significantly prolonged survival and led to long-term survivors. These findings are highly consequential, as it suggests that GBM patients may require TMZDI as first line chemotherapy prior to systemic CAR infusion to promote CAR engraftment and antitumor efficacy. On this basis, we have initiated a phase I trial in patients with newly diagnosed GBM incorporating TMZDI as a preconditioning regimen prior to CAR immunotherapy (NCT02664363).

AB - Adoptive transfer of T cells expressing chimeric antigen receptors (CARs) is an effective immunotherapy for B-cell malignancies but has failed in some solid tumors clinically. Intracerebral tumors may pose challenges that are even more significant. In order to devise a treatment strategy for patients with glioblastoma (GBM), we evaluated CARs as a monotherapy in a murine model of GBM. CARs exhibited poor expansion and survival in circulation and failed to treat syngeneic and orthotopic gliomas. We hypothesized that CAR engraftment would benefit from host lymphodepletion prior to immunotherapy and that this might be achievable by using temozolomide (TMZ), which is standard treatment for these patients and has lymphopenia as its major side effect. We modelled standard of care temozolomide (TMZSD) and dose-intensified TMZ (TMZDI) in our murine model. Both regimens are clinically approved and provide similar efficacy. Only TMZDI pretreatment prompted dramatic CAR proliferation and enhanced persistence in circulation compared to treatment with CARs alone or TMZSD + CARs. Bioluminescent imaging revealed that TMZDI + CARs induced complete regression of 21-day established brain tumors, which correlated with CAR abundance in circulation. Accordingly, TMZDI + CARs significantly prolonged survival and led to long-term survivors. These findings are highly consequential, as it suggests that GBM patients may require TMZDI as first line chemotherapy prior to systemic CAR infusion to promote CAR engraftment and antitumor efficacy. On this basis, we have initiated a phase I trial in patients with newly diagnosed GBM incorporating TMZDI as a preconditioning regimen prior to CAR immunotherapy (NCT02664363).

KW - adoptive transfer

KW - brain tumor

KW - chimeric antigen receptor

KW - glioblastoma

KW - glioma

KW - immunotherapy

KW - lymphopenia

KW - temozolomide

UR - http://www.scopus.com/inward/record.url?scp=85042217942&partnerID=8YFLogxK

U2 - 10.1080/2162402X.2018.1434464

DO - 10.1080/2162402X.2018.1434464

M3 - Article

C2 - 29872570

AN - SCOPUS:85042217942

SN - 2162-4011

VL - 7

JO - OncoImmunology

JF - OncoImmunology

IS - 6

M1 - e1434464

ER -

Temozolomide lymphodepletion enhances CAR abundance and correlates with antitumor efficacy against established glioblastoma

Abstract

Keywords

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