Effects of Strong CYP2C8 or CYP3A Inhibition and CYP3A Induction on the Pharmacokinetics of Brigatinib, an Oral Anaplastic Lymphoma Kinase Inhibitor, in Healthy Volunteers
In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3‐arm, open‐label, randomized, single‐dose, fixed‐sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibroz...
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| Published in | Clinical pharmacology in drug development Vol. 9; no. 2; pp. 214 - 223 |
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| Format | Journal Article |
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01.02.2020
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| Abstract | In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3‐arm, open‐label, randomized, single‐dose, fixed‐sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibrozil (of CYP2C8) and itraconazole (of CYP3A) and the strong inducer rifampin (of CYP3A) on the single‐dose pharmacokinetics of brigatinib. Healthy subjects (n = 20 per arm) were administered a single dose of brigatinib (90 mg, arms 1 and 2; 180 mg, arm 3) alone in treatment period 1 and coadministered with multiple doses of gemfibrozil 600 mg twice daily (BID; arm 1), itraconazole 200 mg BID (arm 2), or rifampin 600 mg daily (QD; arm 3) in period 2. Compared with brigatinib alone, coadministration of gemfibrozil with brigatinib did not meaningfully affect brigatinib area under the plasma concentration‐time curve (AUC0–inf; geometric least‐squares mean [LSM] ratio [90%CI], 0.88 [0.83‐0.94]). Coadministration of itraconazole with brigatinib increased AUC0–inf (geometric LSM ratio [90%CI], 2.01 [1.84‐2.20]). Coadministration of rifampin with brigatinib substantially reduced AUC0–inf (geometric LSM ratio [90%CI], 0.20 [0.18‐0.21]) compared with brigatinib alone. The treatments were generally tolerated. Based on these results, strong CYP3A inhibitors and inducers should be avoided during brigatinib treatment. If concomitant use of a strong CYP3A inhibitor is unavoidable, the results of this study support a dose reduction of brigatinib by approximately 50%. Furthermore, CYP2C8 is not a meaningful determinant of brigatinib clearance, and no dose modifications are needed during coadministration of brigatinib with CYP2C8 inhibitors. |
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| AbstractList | In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3-arm, open-label, randomized, single-dose, fixed-sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibrozil (of CYP2C8) and itraconazole (of CYP3A) and the strong inducer rifampin (of CYP3A) on the single-dose pharmacokinetics of brigatinib. Healthy subjects (n = 20 per arm) were administered a single dose of brigatinib (90 mg, arms 1 and 2; 180 mg, arm 3) alone in treatment period 1 and coadministered with multiple doses of gemfibrozil 600 mg twice daily (BID; arm 1), itraconazole 200 mg BID (arm 2), or rifampin 600 mg daily (QD; arm 3) in period 2. Compared with brigatinib alone, coadministration of gemfibrozil with brigatinib did not meaningfully affect brigatinib area under the plasma concentration-time curve (AUC
; geometric least-squares mean [LSM] ratio [90%CI], 0.88 [0.83-0.94]). Coadministration of itraconazole with brigatinib increased AUC
(geometric LSM ratio [90%CI], 2.01 [1.84-2.20]). Coadministration of rifampin with brigatinib substantially reduced AUC
(geometric LSM ratio [90%CI], 0.20 [0.18-0.21]) compared with brigatinib alone. The treatments were generally tolerated. Based on these results, strong CYP3A inhibitors and inducers should be avoided during brigatinib treatment. If concomitant use of a strong CYP3A inhibitor is unavoidable, the results of this study support a dose reduction of brigatinib by approximately 50%. Furthermore, CYP2C8 is not a meaningful determinant of brigatinib clearance, and no dose modifications are needed during coadministration of brigatinib with CYP2C8 inhibitors. In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3‐arm, open‐label, randomized, single‐dose, fixed‐sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibrozil (of CYP2C8) and itraconazole (of CYP3A) and the strong inducer rifampin (of CYP3A) on the single‐dose pharmacokinetics of brigatinib. Healthy subjects (n = 20 per arm) were administered a single dose of brigatinib (90 mg, arms 1 and 2; 180 mg, arm 3) alone in treatment period 1 and coadministered with multiple doses of gemfibrozil 600 mg twice daily (BID; arm 1), itraconazole 200 mg BID (arm 2), or rifampin 600 mg daily (QD; arm 3) in period 2. Compared with brigatinib alone, coadministration of gemfibrozil with brigatinib did not meaningfully affect brigatinib area under the plasma concentration‐time curve (AUC 0–inf ; geometric least‐squares mean [LSM] ratio [90%CI], 0.88 [0.83‐0.94]). Coadministration of itraconazole with brigatinib increased AUC 0–inf (geometric LSM ratio [90%CI], 2.01 [1.84‐2.20]). Coadministration of rifampin with brigatinib substantially reduced AUC 0–inf (geometric LSM ratio [90%CI], 0.20 [0.18‐0.21]) compared with brigatinib alone. The treatments were generally tolerated. Based on these results, strong CYP3A inhibitors and inducers should be avoided during brigatinib treatment. If concomitant use of a strong CYP3A inhibitor is unavoidable, the results of this study support a dose reduction of brigatinib by approximately 50%. Furthermore, CYP2C8 is not a meaningful determinant of brigatinib clearance, and no dose modifications are needed during coadministration of brigatinib with CYP2C8 inhibitors. In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3-arm, open-label, randomized, single-dose, fixed-sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibrozil (of CYP2C8) and itraconazole (of CYP3A) and the strong inducer rifampin (of CYP3A) on the single-dose pharmacokinetics of brigatinib. Healthy subjects (n = 20 per arm) were administered a single dose of brigatinib (90 mg, arms 1 and 2; 180 mg, arm 3) alone in treatment period 1 and coadministered with multiple doses of gemfibrozil 600 mg twice daily (BID; arm 1), itraconazole 200 mg BID (arm 2), or rifampin 600 mg daily (QD; arm 3) in period 2. Compared with brigatinib alone, coadministration of gemfibrozil with brigatinib did not meaningfully affect brigatinib area under the plasma concentration-time curve (AUC0-inf ; geometric least-squares mean [LSM] ratio [90%CI], 0.88 [0.83-0.94]). Coadministration of itraconazole with brigatinib increased AUC0-inf (geometric LSM ratio [90%CI], 2.01 [1.84-2.20]). Coadministration of rifampin with brigatinib substantially reduced AUC0-inf (geometric LSM ratio [90%CI], 0.20 [0.18-0.21]) compared with brigatinib alone. The treatments were generally tolerated. Based on these results, strong CYP3A inhibitors and inducers should be avoided during brigatinib treatment. If concomitant use of a strong CYP3A inhibitor is unavoidable, the results of this study support a dose reduction of brigatinib by approximately 50%. Furthermore, CYP2C8 is not a meaningful determinant of brigatinib clearance, and no dose modifications are needed during coadministration of brigatinib with CYP2C8 inhibitors.In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3-arm, open-label, randomized, single-dose, fixed-sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibrozil (of CYP2C8) and itraconazole (of CYP3A) and the strong inducer rifampin (of CYP3A) on the single-dose pharmacokinetics of brigatinib. Healthy subjects (n = 20 per arm) were administered a single dose of brigatinib (90 mg, arms 1 and 2; 180 mg, arm 3) alone in treatment period 1 and coadministered with multiple doses of gemfibrozil 600 mg twice daily (BID; arm 1), itraconazole 200 mg BID (arm 2), or rifampin 600 mg daily (QD; arm 3) in period 2. Compared with brigatinib alone, coadministration of gemfibrozil with brigatinib did not meaningfully affect brigatinib area under the plasma concentration-time curve (AUC0-inf ; geometric least-squares mean [LSM] ratio [90%CI], 0.88 [0.83-0.94]). Coadministration of itraconazole with brigatinib increased AUC0-inf (geometric LSM ratio [90%CI], 2.01 [1.84-2.20]). Coadministration of rifampin with brigatinib substantially reduced AUC0-inf (geometric LSM ratio [90%CI], 0.20 [0.18-0.21]) compared with brigatinib alone. The treatments were generally tolerated. Based on these results, strong CYP3A inhibitors and inducers should be avoided during brigatinib treatment. If concomitant use of a strong CYP3A inhibitor is unavoidable, the results of this study support a dose reduction of brigatinib by approximately 50%. Furthermore, CYP2C8 is not a meaningful determinant of brigatinib clearance, and no dose modifications are needed during coadministration of brigatinib with CYP2C8 inhibitors. In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3‐arm, open‐label, randomized, single‐dose, fixed‐sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibrozil (of CYP2C8) and itraconazole (of CYP3A) and the strong inducer rifampin (of CYP3A) on the single‐dose pharmacokinetics of brigatinib. Healthy subjects (n = 20 per arm) were administered a single dose of brigatinib (90 mg, arms 1 and 2; 180 mg, arm 3) alone in treatment period 1 and coadministered with multiple doses of gemfibrozil 600 mg twice daily (BID; arm 1), itraconazole 200 mg BID (arm 2), or rifampin 600 mg daily (QD; arm 3) in period 2. Compared with brigatinib alone, coadministration of gemfibrozil with brigatinib did not meaningfully affect brigatinib area under the plasma concentration‐time curve (AUC0–inf; geometric least‐squares mean [LSM] ratio [90%CI], 0.88 [0.83‐0.94]). Coadministration of itraconazole with brigatinib increased AUC0–inf (geometric LSM ratio [90%CI], 2.01 [1.84‐2.20]). Coadministration of rifampin with brigatinib substantially reduced AUC0–inf (geometric LSM ratio [90%CI], 0.20 [0.18‐0.21]) compared with brigatinib alone. The treatments were generally tolerated. Based on these results, strong CYP3A inhibitors and inducers should be avoided during brigatinib treatment. If concomitant use of a strong CYP3A inhibitor is unavoidable, the results of this study support a dose reduction of brigatinib by approximately 50%. Furthermore, CYP2C8 is not a meaningful determinant of brigatinib clearance, and no dose modifications are needed during coadministration of brigatinib with CYP2C8 inhibitors. In vitro data support involvement of cytochrome P450 (CYP)2C8 and CYP3A4 in the metabolism of the anaplastic lymphoma kinase inhibitor brigatinib. A 3‐arm, open‐label, randomized, single‐dose, fixed‐sequence crossover study was conducted to characterize the effects of the strong inhibitors gemfibrozil (of CYP2C8) and itraconazole (of CYP3A) and the strong inducer rifampin (of CYP3A) on the single‐dose pharmacokinetics of brigatinib. Healthy subjects (n = 20 per arm) were administered a single dose of brigatinib (90 mg, arms 1 and 2; 180 mg, arm 3) alone in treatment period 1 and coadministered with multiple doses of gemfibrozil 600 mg twice daily (BID; arm 1), itraconazole 200 mg BID (arm 2), or rifampin 600 mg daily (QD; arm 3) in period 2. Compared with brigatinib alone, coadministration of gemfibrozil with brigatinib did not meaningfully affect brigatinib area under the plasma concentration‐time curve (AUC0–inf; geometric least‐squares mean [LSM] ratio [90%CI], 0.88 [0.83‐0.94]). Coadministration of itraconazole with brigatinib increased AUC0–inf (geometric LSM ratio [90%CI], 2.01 [1.84‐2.20]). Coadministration of rifampin with brigatinib substantially reduced AUC0–inf (geometric LSM ratio [90%CI], 0.20 [0.18‐0.21]) compared with brigatinib alone. The treatments were generally tolerated. Based on these results, strong CYP3A inhibitors and inducers should be avoided during brigatinib treatment. If concomitant use of a strong CYP3A inhibitor is unavoidable, the results of this study support a dose reduction of brigatinib by approximately 50%. Furthermore, CYP2C8 is not a meaningful determinant of brigatinib clearance, and no dose modifications are needed during coadministration of brigatinib with CYP2C8 inhibitors. |
| Author | Hanley, Michael J. Narasimhan, Narayana Tugnait, Meera Kerstein, David Venkatakrishnan, Karthik Dorer, David J. Sonnichsen, Daryl Gupta, Neeraj |
| AuthorAffiliation | 1 ARIAD Pharmaceuticals, Inc a wholly owned subsidiary of Takeda Pharmaceutical Company Limited MA USA 3 Sonnichsen Pharmaceutical Associates LLC Collegeville PA USA 2 Millennium Pharmaceuticals, Inc a wholly owned subsidiary of Takeda Pharmaceutical Company Limited MA USA |
| AuthorAffiliation_xml | – name: 1 ARIAD Pharmaceuticals, Inc a wholly owned subsidiary of Takeda Pharmaceutical Company Limited MA USA – name: 3 Sonnichsen Pharmaceutical Associates LLC Collegeville PA USA – name: 2 Millennium Pharmaceuticals, Inc a wholly owned subsidiary of Takeda Pharmaceutical Company Limited MA USA |
| Author_xml | – sequence: 1 givenname: Meera surname: Tugnait fullname: Tugnait, Meera organization: a wholly owned subsidiary of Takeda Pharmaceutical Company Limited – sequence: 2 givenname: Neeraj surname: Gupta fullname: Gupta, Neeraj email: Neeraj.Gupta@takeda.com organization: a wholly owned subsidiary of Takeda Pharmaceutical Company Limited – sequence: 3 givenname: Michael J. surname: Hanley fullname: Hanley, Michael J. organization: a wholly owned subsidiary of Takeda Pharmaceutical Company Limited – sequence: 4 givenname: Daryl surname: Sonnichsen fullname: Sonnichsen, Daryl organization: Sonnichsen Pharmaceutical Associates LLC – sequence: 5 givenname: David surname: Kerstein fullname: Kerstein, David organization: a wholly owned subsidiary of Takeda Pharmaceutical Company Limited – sequence: 6 givenname: David J. surname: Dorer fullname: Dorer, David J. organization: a wholly owned subsidiary of Takeda Pharmaceutical Company Limited – sequence: 7 givenname: Karthik surname: Venkatakrishnan fullname: Venkatakrishnan, Karthik organization: a wholly owned subsidiary of Takeda Pharmaceutical Company Limited – sequence: 8 givenname: Narayana surname: Narasimhan fullname: Narasimhan, Narayana organization: a wholly owned subsidiary of Takeda Pharmaceutical Company Limited |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/31287236$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1002/cpdd.641 10.1007/s40262-018-0689-7 10.1200/JCO.2016.71.5904 10.1056/NEJMoa1810171 10.1002/cpt1975184377 10.1016/S1470-2045(16)30392-8 10.1038/clpt.2013.92 |
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| Copyright | 2019 The Authors. published by Wiley Periodicals, Inc. on behalf of American College of Clinical Pharmacology 2019 The Authors. Clinical Pharmacology in Drug Development published by Wiley Periodicals, Inc. on behalf of American College of Clinical Pharmacology. American College of Clinical Pharmacology |
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| Keywords | non-small cell lung cancer CYP3A brigatinib CYP2C8 drug-drug interactions induction inhibition |
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| Notes | Author was an employee of ARIAD Pharmaceuticals, Inc, Cambridge, Massachusetts, a wholly owned subsidiary of Takeda Pharmaceutical Company Limited, at the time the study was conducted. Current affiliations: Tugnait, Blueprint Medicines, Cambridge, MA, USA; Kerstein, Anchiano Therapeutics, Cambridge, MA, USA; Dorer, Dorer Statistical Consulting Company, Brookline, MA, USA; Narasimhan, Aileron Therapeutics, Cambridge, MA, USA ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 14 content type line 23 ObjectType-Undefined-3 |
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| References_xml | – volume: 94 start-page: 383 issue: 3 year: 2013 end-page: 393 article-title: Gemfibrozil impairs imatinib absorption and inhibits the CYP2C8‐mediated formation of its main metabolite publication-title: Clin Pharmacol Ther – volume: 17 start-page: 1683 issue: 12 year: 2016 end-page: 1696 article-title: Activity and safety of brigatinib in ‐rearranged non‐small‐cell lung cancer and other malignancies: a single‐arm, open‐label, phase 1/2 trial publication-title: Lancet Oncol – volume: 379 start-page: 2027 issue: 21 year: 2018 end-page: 2039 article-title: Brigatinib versus crizotinib in ALK‐positive non–small‐cell lung cancer publication-title: N Engl J Med – volume: 8 start-page: 734 issue: 6 year: 2019 end-page: 741 article-title: The effect of a high‐fat meal on the pharmacokinetics of brigatinib, an oral anaplastic lymphoma kinase inhibitor, in healthy volunteers publication-title: Clin Pharmacol Drug Dev – volume: 18 start-page: 377 issue: 4 year: 1975 end-page: 390 article-title: Commentary: a physiological approach to hepatic drug clearance publication-title: Clin Pharmacol Ther – volume: 35 start-page: 2490 issue: 22 year: 2017 end-page: 2498 article-title: Brigatinib in patients with crizotinib‐refractory anaplastic lymphoma kinase‐positive non‐small‐cell lung cancer: a randomized, multicenter phase II trial publication-title: J Clin Oncol – volume: 58 start-page: 403 issue: 4 year: 2019 end-page: 420 article-title: Clinical pharmacokinetics of anaplastic lymphoma kinase inhibitors in non‐small‐cell lung cancer publication-title: Clin Pharmacokinet – year: 2012 – ident: e_1_2_9_6_1 doi: 10.1002/cpdd.641 – volume-title: Guidance for industry. Drug interaction studies—study design, data analysis, implications for dosing, and labeling recommendations year: 2012 ident: e_1_2_9_7_1 – ident: e_1_2_9_5_1 doi: 10.1007/s40262-018-0689-7 – ident: e_1_2_9_2_1 doi: 10.1200/JCO.2016.71.5904 – ident: e_1_2_9_3_1 doi: 10.1056/NEJMoa1810171 – ident: e_1_2_9_9_1 doi: 10.1002/cpt1975184377 – ident: e_1_2_9_4_1 doi: 10.1016/S1470-2045(16)30392-8 – ident: e_1_2_9_8_1 doi: 10.1038/clpt.2013.92 |
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| SubjectTerms | Antifungal agents brigatinib CYP2C8 CYP3A Cytochrome Drug therapy drug‐drug interactions induction inhibition Inhibitor drugs Lymphoma non–small cell lung cancer Original Manuscript Pharmacokinetics |
| Title | Effects of Strong CYP2C8 or CYP3A Inhibition and CYP3A Induction on the Pharmacokinetics of Brigatinib, an Oral Anaplastic Lymphoma Kinase Inhibitor, in Healthy Volunteers |
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