Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations

RET receptor tyrosine kinase is activated in various cancers (lung, thyroid, colon and pancreatic, among others) through oncogenic fusions or gain-of-function single-nucleotide variants. Small-molecule RET kinase inhibitors became standard-of-care therapy for advanced malignancies driven by RET. The...

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Autores principales: Miyazaki, Isao, Odintsov, Igor, Ishida, Keiji, Lui, Allan J. W., Kato, Masanori, Suzuki, Tatsuya, Zhang, Tom, Wakayama, Kentaro, Kurth, Renate I., Cheng, Ryan, Fujita, Hidenori, Delasos, Lukas, Vojnic, Morana, Khodos, Inna, Yamada, Yukari, Ishizawa, Kota, Mattar, Marissa S., Funabashi, Kaoru, Chang, Qing, Ohkubo, Shuichi, Yano, Wakako, Terada, Ryuichiro, Giuliano, Claudio, Lu, Yue Christine, Bonifacio, Annalisa, Kunte, Siddharth, Davare, Monika A., Cheng, Emily H., de Stanchina, Elisa, Lovati, Emanuela, Iwasawa, Yoshikazu, Ladanyi, Marc, Somwar, Romel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2023
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10518257/
https://www.ncbi.nlm.nih.gov/pubmed/37743366
http://dx.doi.org/10.1038/s43018-023-00630-y
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author Miyazaki, Isao
Odintsov, Igor
Ishida, Keiji
Lui, Allan J. W.
Kato, Masanori
Suzuki, Tatsuya
Zhang, Tom
Wakayama, Kentaro
Kurth, Renate I.
Cheng, Ryan
Fujita, Hidenori
Delasos, Lukas
Vojnic, Morana
Khodos, Inna
Yamada, Yukari
Ishizawa, Kota
Mattar, Marissa S.
Funabashi, Kaoru
Chang, Qing
Ohkubo, Shuichi
Yano, Wakako
Terada, Ryuichiro
Giuliano, Claudio
Lu, Yue Christine
Bonifacio, Annalisa
Kunte, Siddharth
Davare, Monika A.
Cheng, Emily H.
de Stanchina, Elisa
Lovati, Emanuela
Iwasawa, Yoshikazu
Ladanyi, Marc
Somwar, Romel
author_facet Miyazaki, Isao
Odintsov, Igor
Ishida, Keiji
Lui, Allan J. W.
Kato, Masanori
Suzuki, Tatsuya
Zhang, Tom
Wakayama, Kentaro
Kurth, Renate I.
Cheng, Ryan
Fujita, Hidenori
Delasos, Lukas
Vojnic, Morana
Khodos, Inna
Yamada, Yukari
Ishizawa, Kota
Mattar, Marissa S.
Funabashi, Kaoru
Chang, Qing
Ohkubo, Shuichi
Yano, Wakako
Terada, Ryuichiro
Giuliano, Claudio
Lu, Yue Christine
Bonifacio, Annalisa
Kunte, Siddharth
Davare, Monika A.
Cheng, Emily H.
de Stanchina, Elisa
Lovati, Emanuela
Iwasawa, Yoshikazu
Ladanyi, Marc
Somwar, Romel
author_sort Miyazaki, Isao
collection PubMed
description RET receptor tyrosine kinase is activated in various cancers (lung, thyroid, colon and pancreatic, among others) through oncogenic fusions or gain-of-function single-nucleotide variants. Small-molecule RET kinase inhibitors became standard-of-care therapy for advanced malignancies driven by RET. The therapeutic benefit of RET inhibitors is limited, however, by acquired mutations in the drug target as well as brain metastasis, presumably due to inadequate brain penetration. Here, we perform preclinical characterization of vepafestinib (TAS0953/HM06), a next-generation RET inhibitor with a unique binding mode. We demonstrate that vepafestinib has best-in-class selectivity against RET, while exerting activity against commonly reported on-target resistance mutations (variants in RET(L730), RET(V804) and RET(G810)), and shows superior pharmacokinetic properties in the brain when compared to currently approved RET drugs. We further show that these properties translate into improved tumor control in an intracranial model of RET-driven cancer. Our results underscore the clinical potential of vepafestinib in treating RET-driven cancers.
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spelling pubmed-105182572023-09-26 Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations Miyazaki, Isao Odintsov, Igor Ishida, Keiji Lui, Allan J. W. Kato, Masanori Suzuki, Tatsuya Zhang, Tom Wakayama, Kentaro Kurth, Renate I. Cheng, Ryan Fujita, Hidenori Delasos, Lukas Vojnic, Morana Khodos, Inna Yamada, Yukari Ishizawa, Kota Mattar, Marissa S. Funabashi, Kaoru Chang, Qing Ohkubo, Shuichi Yano, Wakako Terada, Ryuichiro Giuliano, Claudio Lu, Yue Christine Bonifacio, Annalisa Kunte, Siddharth Davare, Monika A. Cheng, Emily H. de Stanchina, Elisa Lovati, Emanuela Iwasawa, Yoshikazu Ladanyi, Marc Somwar, Romel Nat Cancer Article RET receptor tyrosine kinase is activated in various cancers (lung, thyroid, colon and pancreatic, among others) through oncogenic fusions or gain-of-function single-nucleotide variants. Small-molecule RET kinase inhibitors became standard-of-care therapy for advanced malignancies driven by RET. The therapeutic benefit of RET inhibitors is limited, however, by acquired mutations in the drug target as well as brain metastasis, presumably due to inadequate brain penetration. Here, we perform preclinical characterization of vepafestinib (TAS0953/HM06), a next-generation RET inhibitor with a unique binding mode. We demonstrate that vepafestinib has best-in-class selectivity against RET, while exerting activity against commonly reported on-target resistance mutations (variants in RET(L730), RET(V804) and RET(G810)), and shows superior pharmacokinetic properties in the brain when compared to currently approved RET drugs. We further show that these properties translate into improved tumor control in an intracranial model of RET-driven cancer. Our results underscore the clinical potential of vepafestinib in treating RET-driven cancers. Nature Publishing Group US 2023-09-21 2023 /pmc/articles/PMC10518257/ /pubmed/37743366 http://dx.doi.org/10.1038/s43018-023-00630-y Text en © The Author(s) 2023, corrected publication 2023 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Miyazaki, Isao
Odintsov, Igor
Ishida, Keiji
Lui, Allan J. W.
Kato, Masanori
Suzuki, Tatsuya
Zhang, Tom
Wakayama, Kentaro
Kurth, Renate I.
Cheng, Ryan
Fujita, Hidenori
Delasos, Lukas
Vojnic, Morana
Khodos, Inna
Yamada, Yukari
Ishizawa, Kota
Mattar, Marissa S.
Funabashi, Kaoru
Chang, Qing
Ohkubo, Shuichi
Yano, Wakako
Terada, Ryuichiro
Giuliano, Claudio
Lu, Yue Christine
Bonifacio, Annalisa
Kunte, Siddharth
Davare, Monika A.
Cheng, Emily H.
de Stanchina, Elisa
Lovati, Emanuela
Iwasawa, Yoshikazu
Ladanyi, Marc
Somwar, Romel
Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations
title Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations
title_full Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations
title_fullStr Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations
title_full_unstemmed Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations
title_short Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations
title_sort vepafestinib is a pharmacologically advanced ret-selective inhibitor with high cns penetration and inhibitory activity against ret solvent front mutations
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10518257/
https://www.ncbi.nlm.nih.gov/pubmed/37743366
http://dx.doi.org/10.1038/s43018-023-00630-y
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