Translational modelling to predict human pharmacokinetics and pharmacodynamics of a Bruton's tyrosine kinase‐targeted protein degrader BGB‐16673

Translational modelling to predict human pharmacokinetics and pharmacodynamics of a Bruton's tyrosine kinase‐targeted protein degrader BGB‐16673

Background and Purpose Bifunctional small molecule degraders, which link the target protein with E3 ubiquitin ligase, could lead to the efficient degradation of the target protein. BGB‐16673 is a Bruton's tyrosine kinase (BTK) degrader. A translational PK/PD modelling approach was used to predi...

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Veröffentlicht in:British journal of pharmacology 2024-12, Vol.181 (24), p.4973-4987
Hauptverfasser: Wu, Yue, Meibohm, Bernd, Zhang, Taichang, Hou, Xinfeng, Wang, Haitao, Sun, Xiaona, Jiang, Ming, Zhang, Bo, Zhang, Wenjing, Liu, Ye, Jin, Wei, Wang, Fan
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Agammaglobulinaemia Tyrosine Kinase - antagonists & inhibitors
Agammaglobulinaemia Tyrosine Kinase - metabolism
Animals
Blood
Bruton's tyrosine kinase
BTK
cancer pharmacology
Cell Line, Tumor
clinical translation
Degradation
Female
Humans
Kinases
mathematical model
Mice
Models, Biological
Pharmacodynamics
Pharmacokinetics
pharmacokinetics‐pharmacodynamics
Proteins
targeted protein degrader
Translation
Translational Research, Biomedical
Tumors
Ubiquitin-protein ligase
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container_end_page 4987
container_issue 24
container_start_page 4973
container_title British journal of pharmacology
container_volume 181
creator Wu, Yue
Meibohm, Bernd
Zhang, Taichang
Hou, Xinfeng
Wang, Haitao
Sun, Xiaona
Jiang, Ming
Zhang, Bo
Zhang, Wenjing
Liu, Ye
Jin, Wei
Wang, Fan
description Background and Purpose Bifunctional small molecule degraders, which link the target protein with E3 ubiquitin ligase, could lead to the efficient degradation of the target protein. BGB‐16673 is a Bruton's tyrosine kinase (BTK) degrader. A translational PK/PD modelling approach was used to predict the human BTK degradation of BGB‐16673 from preclinical in vitro and in vivo data. Experimental Approach A simplified mechanistic PK/PD model was used to establish the correlation between the in vitro and in vivo BTK degradation by BGB‐16673 in a mouse model. Human and mouse species differences were compared using the parameters generated from in vitro human or mouse blood, and human or mouse serum spiked TMD‐8 cells. Human PD was then predicted using the simplified mechanistic PK/PD model. Key Results BGB‐16673 showed potent BTK degradation in mouse whole blood, human whole blood, and TMD‐8 tumour cells in vitro. Furthermore, BGB‐16673 showed BTK degradation in a murine TMD‐8 xenograft model in vivo. The PK/PD model predicted human PD and the observed BTK degradation in clinical studies both showed robust BTK degradation in blood and tumour at clinical dose range. Conclusion and Implications The presented simplified mechanistic model with reduced number of model parameters is practically easier to be applied to research projects compared with the full mechanistic model. It can be used as a tool to better understand the PK/PD behaviour for targeted protein degraders and increase the confidence when moving to the clinical stage.
doi_str_mv 10.1111/bph.17332
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BGB‐16673 is a Bruton's tyrosine kinase (BTK) degrader. A translational PK/PD modelling approach was used to predict the human BTK degradation of BGB‐16673 from preclinical in vitro and in vivo data. Experimental Approach A simplified mechanistic PK/PD model was used to establish the correlation between the in vitro and in vivo BTK degradation by BGB‐16673 in a mouse model. Human and mouse species differences were compared using the parameters generated from in vitro human or mouse blood, and human or mouse serum spiked TMD‐8 cells. Human PD was then predicted using the simplified mechanistic PK/PD model. Key Results BGB‐16673 showed potent BTK degradation in mouse whole blood, human whole blood, and TMD‐8 tumour cells in vitro. Furthermore, BGB‐16673 showed BTK degradation in a murine TMD‐8 xenograft model in vivo. The PK/PD model predicted human PD and the observed BTK degradation in clinical studies both showed robust BTK degradation in blood and tumour at clinical dose range. Conclusion and Implications The presented simplified mechanistic model with reduced number of model parameters is practically easier to be applied to research projects compared with the full mechanistic model. It can be used as a tool to better understand the PK/PD behaviour for targeted protein degraders and increase the confidence when moving to the clinical stage.</description><identifier>ISSN: 0007-1188</identifier><identifier>ISSN: 1476-5381</identifier><identifier>EISSN: 1476-5381</identifier><identifier>DOI: 10.1111/bph.17332</identifier><identifier>PMID: 39289908</identifier><language>eng</language><publisher>England: Blackwell Publishing Ltd</publisher><subject>Agammaglobulinaemia Tyrosine Kinase - antagonists &amp; inhibitors ; Agammaglobulinaemia Tyrosine Kinase - metabolism ; Animals ; Blood ; Bruton's tyrosine kinase ; BTK ; cancer pharmacology ; Cell Line, Tumor ; clinical translation ; Degradation ; Female ; Humans ; Kinases ; mathematical model ; Mice ; Models, Biological ; Pharmacodynamics ; Pharmacokinetics ; pharmacokinetics‐pharmacodynamics ; Proteins ; targeted protein degrader ; Translation ; Translational Research, Biomedical ; Tumors ; Ubiquitin-protein ligase</subject><ispartof>British journal of pharmacology, 2024-12, Vol.181 (24), p.4973-4987</ispartof><rights>2024 The Author(s). published by John Wiley &amp; Sons Ltd on behalf of British Pharmacological Society.</rights><rights>2024 The Author(s). 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BGB‐16673 is a Bruton's tyrosine kinase (BTK) degrader. A translational PK/PD modelling approach was used to predict the human BTK degradation of BGB‐16673 from preclinical in vitro and in vivo data. Experimental Approach A simplified mechanistic PK/PD model was used to establish the correlation between the in vitro and in vivo BTK degradation by BGB‐16673 in a mouse model. Human and mouse species differences were compared using the parameters generated from in vitro human or mouse blood, and human or mouse serum spiked TMD‐8 cells. Human PD was then predicted using the simplified mechanistic PK/PD model. Key Results BGB‐16673 showed potent BTK degradation in mouse whole blood, human whole blood, and TMD‐8 tumour cells in vitro. Furthermore, BGB‐16673 showed BTK degradation in a murine TMD‐8 xenograft model in vivo. The PK/PD model predicted human PD and the observed BTK degradation in clinical studies both showed robust BTK degradation in blood and tumour at clinical dose range. Conclusion and Implications The presented simplified mechanistic model with reduced number of model parameters is practically easier to be applied to research projects compared with the full mechanistic model. It can be used as a tool to better understand the PK/PD behaviour for targeted protein degraders and increase the confidence when moving to the clinical stage.</abstract><cop>England</cop><pub>Blackwell Publishing Ltd</pub><pmid>39289908</pmid><doi>10.1111/bph.17332</doi><tpages>15</tpages><orcidid>https://orcid.org/0000-0002-7349-959X</orcidid><oa>free_for_read</oa></addata></record>
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subjects Agammaglobulinaemia Tyrosine Kinase - antagonists & inhibitors
Agammaglobulinaemia Tyrosine Kinase - metabolism
Animals
Blood
Bruton's tyrosine kinase
BTK
cancer pharmacology
Cell Line, Tumor
clinical translation
Degradation
Female
Humans
Kinases
mathematical model
Mice
Models, Biological
Pharmacodynamics
Pharmacokinetics
pharmacokinetics‐pharmacodynamics
Proteins
targeted protein degrader
Translation
Translational Research, Biomedical
Tumors
Ubiquitin-protein ligase
title Translational modelling to predict human pharmacokinetics and pharmacodynamics of a Bruton's tyrosine kinase‐targeted protein degrader BGB‐16673
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