Integrated mapping of pharmacokinetics and pharmacodynamics in a patient-derived xenograft model of glioblastoma

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作者
Elizabeth C. Randall
Kristina B. Emdal
Janice K. Laramy
Minjee Kim
Alison Roos
David Calligaris
Michael S. Regan
Shiv K. Gupta
Ann C. Mladek
Brett L. Carlson
Aaron J. Johnson
Fa-Ke Lu
X. Sunney Xie
Brian A. Joughin
Raven J. Reddy
Sen Peng
Walid M. Abdelmoula
Pamela R. Jackson
Aarti Kolluri
Katherine A. Kellersberger
Jeffrey N. Agar
Douglas A. Lauffenburger
Kristin R. Swanson
Nhan L. Tran
William F. Elmquist
Forest M. White
Jann N. Sarkaria
Nathalie Y. R. Agar
机构
[1] Harvard Medical School,Department of Radiology, Brigham and Women’s Hospital
[2] Massachusetts Institute of Technology,Department of Biological Engineering, Koch Institute for Integrative Cancer Research
[3] University of Minnesota,Department of Pharmaceutics, College of Pharmacy
[4] Mayo Clinic,Department of Cancer Biology
[5] Harvard Medical School,Department of Neurosurgery, Brigham and Women’s Hospital
[6] Mayo Clinic,Department of Radiation Oncology
[7] Mayo Clinic,Department of Immunology
[8] Harvard University,Department of Chemistry and Chemical Biology
[9] Translational Genomics Research Institute,Cancer and Cell Biology Division
[10] Mayo Clinic,Mathematical NeuroOncology Lab, Department of Neurosurgery
[11] Bruker Daltonics,Department of Chemistry and Chemical Biology
[12] Northeastern University,Department of Cancer Biology
[13] Dana-Farber Cancer Institute,Department of Biomedical Engineering, Binghamton University
[14] Harvard Medical School,undefined
[15] State University of New York,undefined
来源
Nature Communications | / 9卷
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摘要
Therapeutic options for the treatment of glioblastoma remain inadequate despite concerted research efforts in drug development. Therapeutic failure can result from poor permeability of the blood-brain barrier, heterogeneous drug distribution, and development of resistance. Elucidation of relationships among such parameters could enable the development of predictive models of drug response in patients and inform drug development. Complementary analyses were applied to a glioblastoma patient-derived xenograft model in order to quantitatively map distribution and resulting cellular response to the EGFR inhibitor erlotinib. Mass spectrometry images of erlotinib were registered to histology and magnetic resonance images in order to correlate drug distribution with tumor characteristics. Phosphoproteomics and immunohistochemistry were used to assess protein signaling in response to drug, and integrated with transcriptional response using mRNA sequencing. This comprehensive dataset provides simultaneous insight into pharmacokinetics and pharmacodynamics and indicates that erlotinib delivery to intracranial tumors is insufficient to inhibit EGFR tyrosine kinase signaling.
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