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

Isao Miyazaki; Igor Odintsov; Keiji Ishida; Allan J.W. Lui; Masanori Kato; Tatsuya Suzuki; Tom Zhang; Kentaro Wakayama; Renate I. Kurth; Ryan Cheng; Hidenori Fujita; Lukas Delasos; Morana Vojnic; Inna Khodos; Yukari Yamada; Kota Ishizawa; Marissa S. Mattar; Kaoru Funabashi; Qing Chang; Shuichi Ohkubo; Wakako Yano; Ryuichiro Terada; Claudio Giuliano; Yue Christine Lu; Annalisa Bonifacio; Siddharth Kunte; Monika A. Davare; Emily H. Cheng; Elisa de Stanchina; Emanuela Lovati; Yoshikazu Iwasawa; Marc Ladanyi; Romel Somwar

doi:10.1038/s43018-023-00630-y

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

Isao Miyazaki, Igor Odintsov, Keiji Ishida, Allan J.W. Lui, Masanori Kato, Tatsuya Suzuki, Tom Zhang, Kentaro Wakayama, Renate I. Kurth, Ryan Cheng, Hidenori Fujita, Lukas Delasos, Morana Vojnic, Inna Khodos, Yukari Yamada, Kota Ishizawa, Marissa S. Mattar, Kaoru Funabashi, Qing Chang, Shuichi OhkuboWakako Yano, Ryuichiro Terada, Claudio Giuliano, Yue Christine Lu, Annalisa Bonifacio, Siddharth Kunte, Monika A. Davare, Emily H. Cheng, Elisa de Stanchina, Emanuela Lovati, Yoshikazu Iwasawa, Marc Ladanyi, Romel Somwar

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

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.

Original language	English (US)
Pages (from-to)	1345-1361
Number of pages	17
Journal	Nature Cancer
Volume	4
Issue number	9
DOIs	https://doi.org/10.1038/s43018-023-00630-y
State	Published - Sep 2023

ASJC Scopus subject areas

Oncology
Cancer Research

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Miyazaki, I., Odintsov, I., Ishida, K., Lui, A. J. W., Kato, M., Suzuki, T., Zhang, T., Wakayama, K., Kurth, R. I., Cheng, R., Fujita, H., Delasos, L., Vojnic, M., Khodos, I., Yamada, Y., Ishizawa, K., Mattar, M. S., Funabashi, K., Chang, Q., ... Somwar, R. (2023). Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations. Nature Cancer, 4(9), 1345-1361. https://doi.org/10.1038/s43018-023-00630-y

Miyazaki, I, Odintsov, I, Ishida, K, Lui, AJW, Kato, M, Suzuki, T, Zhang, T, Wakayama, K, Kurth, RI, Cheng, R, Fujita, H, Delasos, L, Vojnic, M, Khodos, I, Yamada, Y, Ishizawa, K, Mattar, MS, Funabashi, K, Chang, Q, Ohkubo, S, Yano, W, Terada, R, Giuliano, C, Lu, YC, Bonifacio, A, Kunte, S, Davare, MA, Cheng, EH, de Stanchina, E, Lovati, E, Iwasawa, Y, Ladanyi, M & Somwar, R 2023, 'Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations', Nature Cancer, vol. 4, no. 9, pp. 1345-1361. https://doi.org/10.1038/s43018-023-00630-y

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

abstract = "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 RETL730, RETV804 and RETG810), 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.",

author = "Isao Miyazaki and Igor Odintsov and Keiji Ishida and Lui, {Allan J.W.} and Masanori Kato and Tatsuya Suzuki and Tom Zhang and Kentaro Wakayama and Kurth, {Renate I.} and Ryan Cheng and Hidenori Fujita and Lukas Delasos and Morana Vojnic and Inna Khodos and Yukari Yamada and Kota Ishizawa and Mattar, {Marissa S.} and Kaoru Funabashi and Qing Chang and Shuichi Ohkubo and Wakako Yano and Ryuichiro Terada and Claudio Giuliano and Lu, {Yue Christine} and Annalisa Bonifacio and Siddharth Kunte and Davare, {Monika A.} and Cheng, {Emily H.} and {de Stanchina}, Elisa and Emanuela Lovati and Yoshikazu Iwasawa and Marc Ladanyi and Romel Somwar",

note = "Publisher Copyright: {\textcopyright} 2023, The Author(s).",

year = "2023",

month = sep,

doi = "10.1038/s43018-023-00630-y",

language = "English (US)",

volume = "4",

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journal = "Nature Cancer",

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T1 - Vepafestinib is a pharmacologically advanced RET-selective inhibitor with high CNS penetration and inhibitory activity against RET solvent front mutations

AU - Miyazaki, Isao

AU - Odintsov, Igor

AU - Ishida, Keiji

AU - Lui, Allan J.W.

AU - Kato, Masanori

AU - Suzuki, Tatsuya

AU - Zhang, Tom

AU - Wakayama, Kentaro

AU - Kurth, Renate I.

AU - Cheng, Ryan

AU - Fujita, Hidenori

AU - Delasos, Lukas

AU - Vojnic, Morana

AU - Khodos, Inna

AU - Yamada, Yukari

AU - Ishizawa, Kota

AU - Mattar, Marissa S.

AU - Funabashi, Kaoru

AU - Chang, Qing

AU - Ohkubo, Shuichi

AU - Yano, Wakako

AU - Terada, Ryuichiro

AU - Giuliano, Claudio

AU - Lu, Yue Christine

AU - Bonifacio, Annalisa

AU - Kunte, Siddharth

AU - Davare, Monika A.

AU - Cheng, Emily H.

AU - de Stanchina, Elisa

AU - Lovati, Emanuela

AU - Iwasawa, Yoshikazu

AU - Ladanyi, Marc

AU - Somwar, Romel

PY - 2023/9

Y1 - 2023/9

N2 - 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 RETL730, RETV804 and RETG810), 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.

AB - 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 RETL730, RETV804 and RETG810), 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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AN - SCOPUS:85172380710

SN - 2662-1347

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EP - 1361

JO - Nature Cancer

JF - Nature Cancer

IS - 9

ER -

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

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