Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden

Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden

Abstract We retrospectively investigated the pharmacokinetics and exposure‐efficacy/safety relationships of single‐agent atezolizumab based on tissue tumor mutational burden (tTMB) status (high vs low [≥16 vs <16 mutations/megabase]) in a pan‐tumor population from seven clinical trials. Data sour...

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Main Authors: Colby S. Shemesh, Phyllis Chan, Fatema A. Legrand, David S. Shames, Meghna Das Thakur, Jane Shi, Lorna Bailey, Shweta Vadhavkar, Xian He, Wei Zhang, René Bruno
Format: Article
Language:English
Published: Wiley 2020-12-01
Series:Pharmacology Research & Perspectives
Subjects:
atezolizumab
biomarkers
clinical pharmacology
mutation
pharmacokinetics
tumor
Online Access:https://doi.org/10.1002/prp2.685
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spelling doaj-e89b5559af7e4b42a15cf0069035da3c2021-05-02T19:11:16ZengWileyPharmacology Research & Perspectives2052-17072020-12-0186n/an/a10.1002/prp2.685Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burdenColby S. Shemesh0Phyllis Chan1Fatema A. Legrand2David S. Shames3Meghna Das Thakur4Jane Shi5Lorna Bailey6Shweta Vadhavkar7Xian He8Wei Zhang9René Bruno10Clinical Pharmacology Genentech Inc. South San Francisco CA USAClinical Pharmacology Genentech Inc. South San Francisco CA USAClinical Science Genentech Inc. South San Francisco CA USABiomarkers Genentech Inc. South San Francisco CA USABiomarkers Genentech Inc. South San Francisco CA USASafety Science F. Hoffmann‐La Roche Ltd. Shanghai ChinaSafety Science Roche Products Ltd. Welwyn Garden City United KingdomClinical Pharmacology Genentech Inc. South San Francisco CA USABiometrics Genentech Inc. South San Francisco CA USABiometrics Genentech Inc. South San Francisco CA USAClinical Pharmacology Genentech‐Roche Marseille FranceAbstract We retrospectively investigated the pharmacokinetics and exposure‐efficacy/safety relationships of single‐agent atezolizumab based on tissue tumor mutational burden (tTMB) status (high vs low [≥16 vs <16 mutations/megabase]) in a pan‐tumor population from seven clinical trials. Data sources included the OAK, POPLAR, BIRCH, FIR, IMvigor210, IMvigor211, and PCD4989g studies; 986 of 2894 treated patients (34%) had TMB data. Exposure metrics were obtained using a prior two‐compartment intravenous‐infusion population‐pharmacokinetics model, merged with prognostic, biomarker, efficacy, and safety variables. Baseline demographic/clinical characteristics and prognostic factors were well balanced between patients with high (n = 175) and low (n = 811) tTMB. Exposure was similar in the high‐ and low‐tTMB subgroups, with no difference seen in the evaluable vs total treated populations. The objective response rate (ORR) was 29.7% vs 13.4%, complete response rate was 6.9% vs 3.2%, and median duration of response (95% CI) was 29.0 (18.6‐NE) months vs 15.9 (12.5‐20.5) months for patients with high‐tTMB vs low‐tTMB tumors, respectively. A flat exposure‐efficacy relationship was seen for ORR in patients with high‐tTMB based on the cycle 1 minimum atezolizumab concentration and area under the serum concentration time curve (AUC). A nonsignificant exposure‐safety profile was seen for grade 3/4 adverse events and adverse events of special interest based on the AUC of atezolizumab in the high‐tTMB population. tTMB is an additional predictive biological factor affecting response to atezolizumab, and quantitative investigations of atezolizumab exposure and relationships of exposure with safety and efficacy support the use of a 1200‐mg, every 3‐week regimen in a tumor‐agnostic high‐tTMB population.https://doi.org/10.1002/prp2.685atezolizumabbiomarkersclinical pharmacologymutationpharmacokineticstumor
collection DOAJ
language English
format Article
sources DOAJ
author Colby S. Shemesh
Phyllis Chan
Fatema A. Legrand
David S. Shames
Meghna Das Thakur
Jane Shi
Lorna Bailey
Shweta Vadhavkar
Xian He
Wei Zhang
René Bruno
spellingShingle Colby S. Shemesh
Phyllis Chan
Fatema A. Legrand
David S. Shames
Meghna Das Thakur
Jane Shi
Lorna Bailey
Shweta Vadhavkar
Xian He
Wei Zhang
René Bruno
Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden
Pharmacology Research & Perspectives
atezolizumab
biomarkers
clinical pharmacology
mutation
pharmacokinetics
tumor
author_facet Colby S. Shemesh
Phyllis Chan
Fatema A. Legrand
David S. Shames
Meghna Das Thakur
Jane Shi
Lorna Bailey
Shweta Vadhavkar
Xian He
Wei Zhang
René Bruno
author_sort Colby S. Shemesh
title Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden
title_short Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden
title_full Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden
title_fullStr Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden
title_full_unstemmed Pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden
title_sort pan‐cancer population pharmacokinetics and exposure‐safety and ‐efficacy analyses of atezolizumab in patients with high tumor mutational burden
publisher Wiley
series Pharmacology Research & Perspectives
issn 2052-1707
publishDate 2020-12-01
description Abstract We retrospectively investigated the pharmacokinetics and exposure‐efficacy/safety relationships of single‐agent atezolizumab based on tissue tumor mutational burden (tTMB) status (high vs low [≥16 vs <16 mutations/megabase]) in a pan‐tumor population from seven clinical trials. Data sources included the OAK, POPLAR, BIRCH, FIR, IMvigor210, IMvigor211, and PCD4989g studies; 986 of 2894 treated patients (34%) had TMB data. Exposure metrics were obtained using a prior two‐compartment intravenous‐infusion population‐pharmacokinetics model, merged with prognostic, biomarker, efficacy, and safety variables. Baseline demographic/clinical characteristics and prognostic factors were well balanced between patients with high (n = 175) and low (n = 811) tTMB. Exposure was similar in the high‐ and low‐tTMB subgroups, with no difference seen in the evaluable vs total treated populations. The objective response rate (ORR) was 29.7% vs 13.4%, complete response rate was 6.9% vs 3.2%, and median duration of response (95% CI) was 29.0 (18.6‐NE) months vs 15.9 (12.5‐20.5) months for patients with high‐tTMB vs low‐tTMB tumors, respectively. A flat exposure‐efficacy relationship was seen for ORR in patients with high‐tTMB based on the cycle 1 minimum atezolizumab concentration and area under the serum concentration time curve (AUC). A nonsignificant exposure‐safety profile was seen for grade 3/4 adverse events and adverse events of special interest based on the AUC of atezolizumab in the high‐tTMB population. tTMB is an additional predictive biological factor affecting response to atezolizumab, and quantitative investigations of atezolizumab exposure and relationships of exposure with safety and efficacy support the use of a 1200‐mg, every 3‐week regimen in a tumor‐agnostic high‐tTMB population.
topic atezolizumab
biomarkers
clinical pharmacology
mutation
pharmacokinetics
tumor
url https://doi.org/10.1002/prp2.685
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