Multimodal platform for assessing drug distribution and response in clinical trials

Begoña G.C. Lopez; Ishwar N. Kohale; Ziming Du; Ilya Korsunsky; Walid M. Abdelmoula; Yang Dai; Sylwia A. Stopka; Giorgio Gaglia; Elizabeth C. Randall; Michael S. Regan; Sankha S. Basu; Amanda R. Clark; Bianca Maria Marin; Ann C. Mladek; Danielle M. Burgenske; Jeffrey N. Agar; Jeffrey G. Supko; Stuart A. Grossman; Louis B. Nabors; Soumya Raychaudhuri; Keith L. Ligon; Patrick Y. Wen; Brian Alexander; Eudocia Q. Lee; Sandro Santagata; Jann Sarkaria; Forest M. White; Nathalie Y.R. Agar

doi:10.1093/neuonc/noab197

Multimodal platform for assessing drug distribution and response in clinical trials

Begoña G.C. Lopez, Ishwar N. Kohale, Ziming Du, Ilya Korsunsky, Walid M. Abdelmoula, Yang Dai, Sylwia A. Stopka, Giorgio Gaglia, Elizabeth C. Randall, Michael S. Regan, Sankha S. Basu, Amanda R. Clark, Bianca Maria Marin, Ann C. Mladek, Danielle M. Burgenske, Jeffrey N. Agar, Jeffrey G. Supko, Stuart A. Grossman, Louis B. Nabors, Soumya RaychaudhuriKeith L. Ligon, Patrick Y. Wen, Brian Alexander, Eudocia Q. Lee, Sandro Santagata, Jann Sarkaria, Forest M. White, Nathalie Y.R. Agar

School of Medicine

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

Abstract

Background: Response to targeted therapy varies between patients for largely unknown reasons. Here, we developed and applied an integrative platform using mass spectrometry imaging (MSI), phosphoproteomics, and multiplexed tissue imaging for mapping drug distribution, target engagement, and adaptive response to gain insights into heterogeneous response to therapy. Methods: Patient-derived xenograft (PDX) lines of glioblastoma were treated with adavosertib, a Wee1 inhibitor, and tissue drug distribution was measured with MALDI-MSI. Phosphoproteomics was measured in the same tumors to identify biomarkers of drug target engagement and cellular adaptive response. Multiplexed tissue imaging was performed on sister sections to evaluate spatial co-localization of drug and cellular response. The integrated platform was then applied on clinical specimens from glioblastoma patients enrolled in the phase 1 clinical trial. Results: PDX tumors exposed to different doses of adavosertib revealed intra- and inter-tumoral heterogeneity of drug distribution and integration of the heterogeneous drug distribution with phosphoproteomics and multiplexed tissue imaging revealed new markers of molecular response to adavosertib. Analysis of paired clinical specimens from patients enrolled in the phase 1 clinical trial informed the translational potential of the identified biomarkers in studying patient's response to adavosertib. Conclusions: The multimodal platform identified a signature of drug efficacy and patient-specific adaptive responses applicable to preclinical and clinical drug development. The information generated by the approach may inform mechanisms of success and failure in future early phase clinical trials, providing information for optimizing clinical trial design and guiding future application into clinical practice.

Original language	English (US)
Pages (from-to)	64-77
Number of pages	14
Journal	Neuro-oncology
Volume	24
Issue number	1
DOIs	https://doi.org/10.1093/neuonc/noab197
State	Published - Jan 1 2022

Keywords

drug distribution
drug response
mass spectrometry imaging
phosphoproteomics
t-CyCIF

ASJC Scopus subject areas

Clinical Neurology
Oncology
Cancer Research

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10.1093/neuonc/noab197

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Lopez, B. G. C., Kohale, I. N., Du, Z., Korsunsky, I., Abdelmoula, W. M., Dai, Y., Stopka, S. A., Gaglia, G., Randall, E. C., Regan, M. S., Basu, S. S., Clark, A. R., Marin, B. M., Mladek, A. C., Burgenske, D. M., Agar, J. N., Supko, J. G., Grossman, S. A., Nabors, L. B., ... Agar, N. Y. R. (2022). Multimodal platform for assessing drug distribution and response in clinical trials. Neuro-oncology, 24(1), 64-77. https://doi.org/10.1093/neuonc/noab197

Lopez, BGC, Kohale, IN, Du, Z, Korsunsky, I, Abdelmoula, WM, Dai, Y, Stopka, SA, Gaglia, G, Randall, EC, Regan, MS, Basu, SS, Clark, AR, Marin, BM, Mladek, AC, Burgenske, DM, Agar, JN, Supko, JG, Grossman, SA, Nabors, LB, Raychaudhuri, S, Ligon, KL, Wen, PY, Alexander, B, Lee, EQ, Santagata, S, Sarkaria, J, White, FM & Agar, NYR 2022, 'Multimodal platform for assessing drug distribution and response in clinical trials', Neuro-oncology, vol. 24, no. 1, pp. 64-77. https://doi.org/10.1093/neuonc/noab197

@article{6909cdfb29a345bcbb9e36d4509a3176,

title = "Multimodal platform for assessing drug distribution and response in clinical trials",

abstract = "Background: Response to targeted therapy varies between patients for largely unknown reasons. Here, we developed and applied an integrative platform using mass spectrometry imaging (MSI), phosphoproteomics, and multiplexed tissue imaging for mapping drug distribution, target engagement, and adaptive response to gain insights into heterogeneous response to therapy. Methods: Patient-derived xenograft (PDX) lines of glioblastoma were treated with adavosertib, a Wee1 inhibitor, and tissue drug distribution was measured with MALDI-MSI. Phosphoproteomics was measured in the same tumors to identify biomarkers of drug target engagement and cellular adaptive response. Multiplexed tissue imaging was performed on sister sections to evaluate spatial co-localization of drug and cellular response. The integrated platform was then applied on clinical specimens from glioblastoma patients enrolled in the phase 1 clinical trial. Results: PDX tumors exposed to different doses of adavosertib revealed intra- and inter-tumoral heterogeneity of drug distribution and integration of the heterogeneous drug distribution with phosphoproteomics and multiplexed tissue imaging revealed new markers of molecular response to adavosertib. Analysis of paired clinical specimens from patients enrolled in the phase 1 clinical trial informed the translational potential of the identified biomarkers in studying patient's response to adavosertib. Conclusions: The multimodal platform identified a signature of drug efficacy and patient-specific adaptive responses applicable to preclinical and clinical drug development. The information generated by the approach may inform mechanisms of success and failure in future early phase clinical trials, providing information for optimizing clinical trial design and guiding future application into clinical practice.",

keywords = "drug distribution, drug response, mass spectrometry imaging, phosphoproteomics, t-CyCIF",

author = "Lopez, {Bego{\~n}a G.C.} and Kohale, {Ishwar N.} and Ziming Du and Ilya Korsunsky and Abdelmoula, {Walid M.} and Yang Dai and Stopka, {Sylwia A.} and Giorgio Gaglia and Randall, {Elizabeth C.} and Regan, {Michael S.} and Basu, {Sankha S.} and Clark, {Amanda R.} and Marin, {Bianca Maria} and Mladek, {Ann C.} and Burgenske, {Danielle M.} and Agar, {Jeffrey N.} and Supko, {Jeffrey G.} and Grossman, {Stuart A.} and Nabors, {Louis B.} and Soumya Raychaudhuri and Ligon, {Keith L.} and Wen, {Patrick Y.} and Brian Alexander and Lee, {Eudocia Q.} and Sandro Santagata and Jann Sarkaria and White, {Forest M.} and Agar, {Nathalie Y.R.}",

year = "2022",

month = jan,

day = "1",

doi = "10.1093/neuonc/noab197",

language = "English (US)",

volume = "24",

pages = "64--77",

journal = "Neuro-oncology",

issn = "1522-8517",

publisher = "Oxford University Press",

number = "1",

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TY - JOUR

T1 - Multimodal platform for assessing drug distribution and response in clinical trials

AU - Lopez, Begoña G.C.

AU - Kohale, Ishwar N.

AU - Du, Ziming

AU - Korsunsky, Ilya

AU - Abdelmoula, Walid M.

AU - Dai, Yang

AU - Stopka, Sylwia A.

AU - Gaglia, Giorgio

AU - Randall, Elizabeth C.

AU - Regan, Michael S.

AU - Basu, Sankha S.

AU - Clark, Amanda R.

AU - Marin, Bianca Maria

AU - Mladek, Ann C.

AU - Burgenske, Danielle M.

AU - Agar, Jeffrey N.

AU - Supko, Jeffrey G.

AU - Grossman, Stuart A.

AU - Nabors, Louis B.

AU - Raychaudhuri, Soumya

AU - Ligon, Keith L.

AU - Wen, Patrick Y.

AU - Alexander, Brian

AU - Lee, Eudocia Q.

AU - Santagata, Sandro

AU - Sarkaria, Jann

AU - White, Forest M.

AU - Agar, Nathalie Y.R.

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Background: Response to targeted therapy varies between patients for largely unknown reasons. Here, we developed and applied an integrative platform using mass spectrometry imaging (MSI), phosphoproteomics, and multiplexed tissue imaging for mapping drug distribution, target engagement, and adaptive response to gain insights into heterogeneous response to therapy. Methods: Patient-derived xenograft (PDX) lines of glioblastoma were treated with adavosertib, a Wee1 inhibitor, and tissue drug distribution was measured with MALDI-MSI. Phosphoproteomics was measured in the same tumors to identify biomarkers of drug target engagement and cellular adaptive response. Multiplexed tissue imaging was performed on sister sections to evaluate spatial co-localization of drug and cellular response. The integrated platform was then applied on clinical specimens from glioblastoma patients enrolled in the phase 1 clinical trial. Results: PDX tumors exposed to different doses of adavosertib revealed intra- and inter-tumoral heterogeneity of drug distribution and integration of the heterogeneous drug distribution with phosphoproteomics and multiplexed tissue imaging revealed new markers of molecular response to adavosertib. Analysis of paired clinical specimens from patients enrolled in the phase 1 clinical trial informed the translational potential of the identified biomarkers in studying patient's response to adavosertib. Conclusions: The multimodal platform identified a signature of drug efficacy and patient-specific adaptive responses applicable to preclinical and clinical drug development. The information generated by the approach may inform mechanisms of success and failure in future early phase clinical trials, providing information for optimizing clinical trial design and guiding future application into clinical practice.

AB - Background: Response to targeted therapy varies between patients for largely unknown reasons. Here, we developed and applied an integrative platform using mass spectrometry imaging (MSI), phosphoproteomics, and multiplexed tissue imaging for mapping drug distribution, target engagement, and adaptive response to gain insights into heterogeneous response to therapy. Methods: Patient-derived xenograft (PDX) lines of glioblastoma were treated with adavosertib, a Wee1 inhibitor, and tissue drug distribution was measured with MALDI-MSI. Phosphoproteomics was measured in the same tumors to identify biomarkers of drug target engagement and cellular adaptive response. Multiplexed tissue imaging was performed on sister sections to evaluate spatial co-localization of drug and cellular response. The integrated platform was then applied on clinical specimens from glioblastoma patients enrolled in the phase 1 clinical trial. Results: PDX tumors exposed to different doses of adavosertib revealed intra- and inter-tumoral heterogeneity of drug distribution and integration of the heterogeneous drug distribution with phosphoproteomics and multiplexed tissue imaging revealed new markers of molecular response to adavosertib. Analysis of paired clinical specimens from patients enrolled in the phase 1 clinical trial informed the translational potential of the identified biomarkers in studying patient's response to adavosertib. Conclusions: The multimodal platform identified a signature of drug efficacy and patient-specific adaptive responses applicable to preclinical and clinical drug development. The information generated by the approach may inform mechanisms of success and failure in future early phase clinical trials, providing information for optimizing clinical trial design and guiding future application into clinical practice.

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KW - drug response

KW - mass spectrometry imaging

KW - phosphoproteomics

KW - t-CyCIF

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Multimodal platform for assessing drug distribution and response in clinical trials

Abstract

Keywords

ASJC Scopus subject areas

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