Establishing a preclinical multidisciplinary board for brain tumors

Birgit V. Nimmervoll; Nidal Boulos; Brandon Bianski; Jason Dapper; Michael DeCuypere; Anang Shelat; Sabrina Terranova; Hope E. Terhune; Amar Gajjar; Yogesh T. Patel; Burgess B. Freeman; Arzu Onar-Thomas; Clinton F. Stewart; Martine F. Roussel; R. Kipling Guy; Thomas E. Merchant; Christopher Calabrese; Karen D. Wright; Richard J. Gilbertson

doi:10.1158/1078-0432.CCR-17-2168

Establishing a preclinical multidisciplinary board for brain tumors

Birgit V. Nimmervoll, Nidal Boulos, Brandon Bianski, Jason Dapper, Michael DeCuypere, Anang Shelat, Sabrina Terranova, Hope E. Terhune, Amar Gajjar, Yogesh T. Patel, Burgess B. Freeman, Arzu Onar-Thomas, Clinton F. Stewart, Martine F. Roussel, R. Kipling Guy, Thomas E. Merchant, Christopher Calabrese, Karen D. Wright^*, Richard J. Gilbertson

^*Corresponding author for this work

Neurological Surgery

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

14 Scopus citations

Abstract

Purpose: Curing all children with brain tumors will require an understanding of how each subtype responds to conventional treatments and how best to combine existing and novel therapies. It is extremely challenging to acquire this knowledge in the clinic alone, especially among patients with rare tumors. Therefore, we developed a preclinical brain tumor platform to test combinations of conventional and novel therapies in a manner that closely recapitulates clinic trials. Experimental Design: A multidisciplinary team was established to design and conduct neurosurgical, fractionated radiotherapy and chemotherapy studies, alone or in combination, in accurate mouse models of supratentorial ependymoma (SEP) subtypes and choroid plexus carcinoma (CPC). Extensive drug repurposing screens, pharmacokinetic, pharmacodynamic, and efficacy studies were used to triage active compounds for combination preclinical trials with "standard-of-care" surgery and radiotherapy. Results: Mouse models displayed distinct patterns of response to surgery, irradiation, and chemotherapy that varied with tumor subtype. Repurposing screens identified 3-hour infusions of gemcitabine as a relatively nontoxic and efficacious treatment of SEP and CPC. Combination neurosurgery, fractionated irradiation, and gemcitabine proved significantly more effective than surgery and irradiation alone, curing one half of all animals with aggressive forms of SEP. Conclusions: We report a comprehensive preclinical trial platform to assess the therapeutic activity of conventional and novel treatments among rare brain tumor subtypes. It also enables the development of complex, combination treatment regimens that should deliver optimal trial designs for clinical testing. Postirradiation gemcitabine infusion should be tested as new treatments of SEP and CPC.

Original language	English (US)
Pages (from-to)	1654-1666
Number of pages	13
Journal	Clinical Cancer Research
Volume	24
Issue number	7
DOIs	https://doi.org/10.1158/1078-0432.CCR-17-2168
State	Published - Apr 1 2018

Funding

B.B. Freeman is an employee of and has ownership interests (including patents) at KinDynaMet LLC. M.F. Roussel is a consultant/advisory board member for Cold Spring Harbor Laboratories and the National Cancer Institute, and reports receiving commercial research support from Eli Lilly. No potential conflicts of interest were disclosed by the other authors. This work was supported by grants from the NIH, P01CA96832 (R.J. Gilbertson, B.V. Nimmervoll, N. Boulos, A. Gajjar, C.F. Stewart, and M.F. Roussel) and R0CA1129541 (R.J. Gilbertson and N. Boulos); the American Lebanese Syrian Associated Charities (R.J. Gilbertson, B.V. Nimmervoll, N. Boulos, A. Gajjar, C.F. Stewart, M.F. Roussel, B. Bianski, J. Dapper, A. Shelat, This work was supported by grants from the NIH, P01CA96832 (R.J. Gilbertson, B.V. Nimmervoll, N. Boulos, A. Gajjar, C.F. Stewart, and M.F. Roussel) and R0CA1129541 (R.J. Gilbertson and N. Boulos); the American Lebanese Syrian Associated Charities (R.J. Gilbertson, B.V. Nimmervoll, N. Boulos, A. Gajjar, C.F. Stewart, M.F. Roussel, B. Bianski, J. Dapper, A. Shelat, Y.T. Patel, B.B Freeman, A. Onar-Thomas, R.K. Guy, T.E. Merchant, C. Calabrese, and K.D. Wright); Cancer Research UK (R.J. Gilbertson, B.V. Nimmervoll, and S. Terranova); the Mathile Family Foundation (R.J. Gilbertson, B.V. Nimmervoll, and S. Terranova); and Cure Search (R.J. Gilbertson, B.V. Nimmervoll, and S. Terranova).

ASJC Scopus subject areas

General Medicine

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1158/1078-0432.CCR-17-2168

Cite this

Nimmervoll, B. V., Boulos, N., Bianski, B., Dapper, J., DeCuypere, M., Shelat, A., Terranova, S., Terhune, H. E., Gajjar, A., Patel, Y. T., Freeman, B. B., Onar-Thomas, A., Stewart, C. F., Roussel, M. F., Kipling Guy, R., Merchant, T. E., Calabrese, C., Wright, K. D., & Gilbertson, R. J. (2018). Establishing a preclinical multidisciplinary board for brain tumors. Clinical Cancer Research, 24(7), 1654-1666. https://doi.org/10.1158/1078-0432.CCR-17-2168

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title = "Establishing a preclinical multidisciplinary board for brain tumors",

abstract = "Purpose: Curing all children with brain tumors will require an understanding of how each subtype responds to conventional treatments and how best to combine existing and novel therapies. It is extremely challenging to acquire this knowledge in the clinic alone, especially among patients with rare tumors. Therefore, we developed a preclinical brain tumor platform to test combinations of conventional and novel therapies in a manner that closely recapitulates clinic trials. Experimental Design: A multidisciplinary team was established to design and conduct neurosurgical, fractionated radiotherapy and chemotherapy studies, alone or in combination, in accurate mouse models of supratentorial ependymoma (SEP) subtypes and choroid plexus carcinoma (CPC). Extensive drug repurposing screens, pharmacokinetic, pharmacodynamic, and efficacy studies were used to triage active compounds for combination preclinical trials with {"}standard-of-care{"} surgery and radiotherapy. Results: Mouse models displayed distinct patterns of response to surgery, irradiation, and chemotherapy that varied with tumor subtype. Repurposing screens identified 3-hour infusions of gemcitabine as a relatively nontoxic and efficacious treatment of SEP and CPC. Combination neurosurgery, fractionated irradiation, and gemcitabine proved significantly more effective than surgery and irradiation alone, curing one half of all animals with aggressive forms of SEP. Conclusions: We report a comprehensive preclinical trial platform to assess the therapeutic activity of conventional and novel treatments among rare brain tumor subtypes. It also enables the development of complex, combination treatment regimens that should deliver optimal trial designs for clinical testing. Postirradiation gemcitabine infusion should be tested as new treatments of SEP and CPC.",

author = "Nimmervoll, {Birgit V.} and Nidal Boulos and Brandon Bianski and Jason Dapper and Michael DeCuypere and Anang Shelat and Sabrina Terranova and Terhune, {Hope E.} and Amar Gajjar and Patel, {Yogesh T.} and Freeman, {Burgess B.} and Arzu Onar-Thomas and Stewart, {Clinton F.} and Roussel, {Martine F.} and {Kipling Guy}, R. and Merchant, {Thomas E.} and Christopher Calabrese and Wright, {Karen D.} and Gilbertson, {Richard J.}",

note = "Publisher Copyright: {\textcopyright} 2018 American Association for Cancer Research.",

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Nimmervoll, BV, Boulos, N, Bianski, B, Dapper, J, DeCuypere, M, Shelat, A, Terranova, S, Terhune, HE, Gajjar, A, Patel, YT, Freeman, BB, Onar-Thomas, A, Stewart, CF, Roussel, MF, Kipling Guy, R, Merchant, TE, Calabrese, C, Wright, KD & Gilbertson, RJ 2018, 'Establishing a preclinical multidisciplinary board for brain tumors', Clinical Cancer Research, vol. 24, no. 7, pp. 1654-1666. https://doi.org/10.1158/1078-0432.CCR-17-2168

TY - JOUR

T1 - Establishing a preclinical multidisciplinary board for brain tumors

AU - Nimmervoll, Birgit V.

AU - Boulos, Nidal

AU - Bianski, Brandon

AU - Dapper, Jason

AU - DeCuypere, Michael

AU - Shelat, Anang

AU - Terranova, Sabrina

AU - Terhune, Hope E.

AU - Gajjar, Amar

AU - Patel, Yogesh T.

AU - Freeman, Burgess B.

AU - Onar-Thomas, Arzu

AU - Stewart, Clinton F.

AU - Roussel, Martine F.

AU - Kipling Guy, R.

AU - Merchant, Thomas E.

AU - Calabrese, Christopher

AU - Wright, Karen D.

AU - Gilbertson, Richard J.

PY - 2018/4/1

Y1 - 2018/4/1

N2 - Purpose: Curing all children with brain tumors will require an understanding of how each subtype responds to conventional treatments and how best to combine existing and novel therapies. It is extremely challenging to acquire this knowledge in the clinic alone, especially among patients with rare tumors. Therefore, we developed a preclinical brain tumor platform to test combinations of conventional and novel therapies in a manner that closely recapitulates clinic trials. Experimental Design: A multidisciplinary team was established to design and conduct neurosurgical, fractionated radiotherapy and chemotherapy studies, alone or in combination, in accurate mouse models of supratentorial ependymoma (SEP) subtypes and choroid plexus carcinoma (CPC). Extensive drug repurposing screens, pharmacokinetic, pharmacodynamic, and efficacy studies were used to triage active compounds for combination preclinical trials with "standard-of-care" surgery and radiotherapy. Results: Mouse models displayed distinct patterns of response to surgery, irradiation, and chemotherapy that varied with tumor subtype. Repurposing screens identified 3-hour infusions of gemcitabine as a relatively nontoxic and efficacious treatment of SEP and CPC. Combination neurosurgery, fractionated irradiation, and gemcitabine proved significantly more effective than surgery and irradiation alone, curing one half of all animals with aggressive forms of SEP. Conclusions: We report a comprehensive preclinical trial platform to assess the therapeutic activity of conventional and novel treatments among rare brain tumor subtypes. It also enables the development of complex, combination treatment regimens that should deliver optimal trial designs for clinical testing. Postirradiation gemcitabine infusion should be tested as new treatments of SEP and CPC.

AB - Purpose: Curing all children with brain tumors will require an understanding of how each subtype responds to conventional treatments and how best to combine existing and novel therapies. It is extremely challenging to acquire this knowledge in the clinic alone, especially among patients with rare tumors. Therefore, we developed a preclinical brain tumor platform to test combinations of conventional and novel therapies in a manner that closely recapitulates clinic trials. Experimental Design: A multidisciplinary team was established to design and conduct neurosurgical, fractionated radiotherapy and chemotherapy studies, alone or in combination, in accurate mouse models of supratentorial ependymoma (SEP) subtypes and choroid plexus carcinoma (CPC). Extensive drug repurposing screens, pharmacokinetic, pharmacodynamic, and efficacy studies were used to triage active compounds for combination preclinical trials with "standard-of-care" surgery and radiotherapy. Results: Mouse models displayed distinct patterns of response to surgery, irradiation, and chemotherapy that varied with tumor subtype. Repurposing screens identified 3-hour infusions of gemcitabine as a relatively nontoxic and efficacious treatment of SEP and CPC. Combination neurosurgery, fractionated irradiation, and gemcitabine proved significantly more effective than surgery and irradiation alone, curing one half of all animals with aggressive forms of SEP. Conclusions: We report a comprehensive preclinical trial platform to assess the therapeutic activity of conventional and novel treatments among rare brain tumor subtypes. It also enables the development of complex, combination treatment regimens that should deliver optimal trial designs for clinical testing. Postirradiation gemcitabine infusion should be tested as new treatments of SEP and CPC.

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Establishing a preclinical multidisciplinary board for brain tumors

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UN SDGs

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