Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor

PURPOSE: The paradigm shift in cancer treatment from cytotoxic drugs to tumor targeted therapies poses new challenges, including optimization of dose and schedule based on a biologically effective dose, rather than the historical maximum tolerated dose. Optimal dosing is currently determined using c...

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Autores principales: Spector, Neil L., Robertson, Faith C., Bacus, Sarah, Blackwell, Kimberly, Smith, Deborah A., Glenn, Kelli, Cartee, Leanne, Harris, Jennifer, Kimbrough, Carie L., Gittelman, Mark, Avisar, Eli, Beitsch, Peter, Koch, Kevin M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2015
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4646457/
https://www.ncbi.nlm.nih.gov/pubmed/26571496
http://dx.doi.org/10.1371/journal.pone.0142845
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author Spector, Neil L.
Robertson, Faith C.
Bacus, Sarah
Blackwell, Kimberly
Smith, Deborah A.
Glenn, Kelli
Cartee, Leanne
Harris, Jennifer
Kimbrough, Carie L.
Gittelman, Mark
Avisar, Eli
Beitsch, Peter
Koch, Kevin M.
author_facet Spector, Neil L.
Robertson, Faith C.
Bacus, Sarah
Blackwell, Kimberly
Smith, Deborah A.
Glenn, Kelli
Cartee, Leanne
Harris, Jennifer
Kimbrough, Carie L.
Gittelman, Mark
Avisar, Eli
Beitsch, Peter
Koch, Kevin M.
author_sort Spector, Neil L.
collection PubMed
description PURPOSE: The paradigm shift in cancer treatment from cytotoxic drugs to tumor targeted therapies poses new challenges, including optimization of dose and schedule based on a biologically effective dose, rather than the historical maximum tolerated dose. Optimal dosing is currently determined using concentrations of tyrosine kinase inhibitors in plasma as a surrogate for tumor concentrations. To examine this plasma-tumor relationship, we explored the association between lapatinib levels in tumor and plasma in mice and humans, and those effects on phosphorylation of human epidermal growth factor receptors (HER) in human tumors. EXPERIMENTAL DESIGN: Mice bearing BT474 HER2+ human breast cancer xenografts were dosed once or twice daily (BID) with lapatinib. Drug concentrations were measured in blood, tumor, liver, and kidney. In a randomized phase I clinical trial, 28 treatment-naïve female patients with early stage HER2+ breast cancer received lapatinib 1000 or 1500 mg once daily (QD) or 500 mg BID before evaluating steady-state lapatinib levels in plasma and tumor. RESULTS: In mice, lapatinib levels were 4-fold higher in tumor than blood with a 4-fold longer half-life. Tumor concentrations exceeded the in vitro IC(90) (~ 900 nM or 500 ng/mL) for inhibition of HER2 phosphorylation throughout the 12-hour dosing interval. In patients, tumor levels were 6- and 10-fold higher with QD and BID dosing, respectively, compared to plasma trough levels. The relationship between tumor and plasma concentration was complex, indicating multiple determinants. HER receptor phosphorylation varied depending upon lapatinib tumor concentrations, suggestive of changes in the repertoire of HER homo- and heterodimers. CONCLUSION: Plasma lapatinib concentrations underestimated tumor drug levels, suggesting that optimal dosing should be focused on the site of action to avoid to inappropriate dose escalation. Larger clinical trials are required to determine optimal dose and schedule to achieve tumor concentrations that maximally inhibit HER receptors. TRIAL REGISTRATION: Clinical Trial Registration: NCT00359190
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spelling pubmed-46464572015-11-25 Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor Spector, Neil L. Robertson, Faith C. Bacus, Sarah Blackwell, Kimberly Smith, Deborah A. Glenn, Kelli Cartee, Leanne Harris, Jennifer Kimbrough, Carie L. Gittelman, Mark Avisar, Eli Beitsch, Peter Koch, Kevin M. PLoS One Research Article PURPOSE: The paradigm shift in cancer treatment from cytotoxic drugs to tumor targeted therapies poses new challenges, including optimization of dose and schedule based on a biologically effective dose, rather than the historical maximum tolerated dose. Optimal dosing is currently determined using concentrations of tyrosine kinase inhibitors in plasma as a surrogate for tumor concentrations. To examine this plasma-tumor relationship, we explored the association between lapatinib levels in tumor and plasma in mice and humans, and those effects on phosphorylation of human epidermal growth factor receptors (HER) in human tumors. EXPERIMENTAL DESIGN: Mice bearing BT474 HER2+ human breast cancer xenografts were dosed once or twice daily (BID) with lapatinib. Drug concentrations were measured in blood, tumor, liver, and kidney. In a randomized phase I clinical trial, 28 treatment-naïve female patients with early stage HER2+ breast cancer received lapatinib 1000 or 1500 mg once daily (QD) or 500 mg BID before evaluating steady-state lapatinib levels in plasma and tumor. RESULTS: In mice, lapatinib levels were 4-fold higher in tumor than blood with a 4-fold longer half-life. Tumor concentrations exceeded the in vitro IC(90) (~ 900 nM or 500 ng/mL) for inhibition of HER2 phosphorylation throughout the 12-hour dosing interval. In patients, tumor levels were 6- and 10-fold higher with QD and BID dosing, respectively, compared to plasma trough levels. The relationship between tumor and plasma concentration was complex, indicating multiple determinants. HER receptor phosphorylation varied depending upon lapatinib tumor concentrations, suggestive of changes in the repertoire of HER homo- and heterodimers. CONCLUSION: Plasma lapatinib concentrations underestimated tumor drug levels, suggesting that optimal dosing should be focused on the site of action to avoid to inappropriate dose escalation. Larger clinical trials are required to determine optimal dose and schedule to achieve tumor concentrations that maximally inhibit HER receptors. TRIAL REGISTRATION: Clinical Trial Registration: NCT00359190 Public Library of Science 2015-11-16 /pmc/articles/PMC4646457/ /pubmed/26571496 http://dx.doi.org/10.1371/journal.pone.0142845 Text en © 2015 Spector et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Spector, Neil L.
Robertson, Faith C.
Bacus, Sarah
Blackwell, Kimberly
Smith, Deborah A.
Glenn, Kelli
Cartee, Leanne
Harris, Jennifer
Kimbrough, Carie L.
Gittelman, Mark
Avisar, Eli
Beitsch, Peter
Koch, Kevin M.
Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor
title Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor
title_full Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor
title_fullStr Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor
title_full_unstemmed Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor
title_short Lapatinib Plasma and Tumor Concentrations and Effects on HER Receptor Phosphorylation in Tumor
title_sort lapatinib plasma and tumor concentrations and effects on her receptor phosphorylation in tumor
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4646457/
https://www.ncbi.nlm.nih.gov/pubmed/26571496
http://dx.doi.org/10.1371/journal.pone.0142845
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