Discovery of 5-{4-[(7-Ethyl-6-oxo-5,6-dihydro-1,5-naphthyridin-3-yl)methyl]piperazin-1-yl}-<i>N</i>-methylpyridine-2-carboxamide (AZD5305): A PARP1–DNA Trapper with High Selectivity for PARP1 over PARP2 and Other PARPs

Jeffrey W. Johannes; Amber Balazs; Derek Barratt; Michał Biśta; Matthew D. Chuba; Sabina Cosulich; Susan E. Critchlow; Sébastien L. Degorce; Paolo Di Fruscia; Scott D. Edmondson; Kevin J. Embrey; Stephen E. Fawell; Avipsa Ghosh; Sonja J. Gill; Anders Gunnarsson; Sudhir M. Hande; Tom D. Heightman; Paul Hemsley; Giuditta Illuzzi; Jordan Lane; Carrie Larner; Elisabetta Leo; Lina Liu; Andrew Madin; Scott Martin; Lisa McWilliams; Mark J. O’Connor; Jonathan P. Orme; Fiona Pachl; Martin J. Packer; Xiaohui Pei; Andrew Pike; Marianne Schimpl; Hongyao She; Anna D. Staniszewska; Verity Talbot; E. Underwood; Jeffrey Varnes; Lin Xue; Tieguang Yao; Ke Zhang; Andrew X. Zhang; Xiaolan Zheng

doi:10.1021/acs.jmedchem.1c01012

Discovery of 5-{4-[(7-Ethyl-6-oxo-5,6-dihydro-1,5-naphthyridin-3-yl)methyl]piperazin-1-yl}-<i>N</i>-methylpyridine-2-carboxamide (AZD5305): A PARP1–DNA Trapper with High Selectivity for PARP1 over PARP2 and Other PARPs

Jeffrey W. Johannes(AstraZeneca (United States)), Amber Balazs(AstraZeneca (United States)), Derek Barratt(AstraZeneca (United Kingdom)), Michał Biśta(AstraZeneca (United Kingdom)), Matthew D. Chuba(AstraZeneca (United States)), Sabina Cosulich(AstraZeneca (Switzerland)), Susan E. Critchlow(AstraZeneca (United Kingdom)), Sébastien L. Degorce(AstraZeneca (United States)), Paolo Di Fruscia(AstraZeneca (United Kingdom)), Scott D. Edmondson(AstraZeneca (United States)), Kevin J. Embrey(AstraZeneca (United Kingdom)), Stephen E. Fawell(AstraZeneca (United States)), Avipsa Ghosh(AstraZeneca (United States)), Sonja J. Gill(AstraZeneca (South Korea)), Anders Gunnarsson(AstraZeneca (Sweden)), Sudhir M. Hande(AstraZeneca (United States)), Tom D. Heightman(AstraZeneca (United Kingdom)), Paul Hemsley(AstraZeneca (United Kingdom)), Giuditta Illuzzi(AstraZeneca (United Kingdom)), Jordan Lane(AstraZeneca (United Kingdom)), Carrie Larner(AstraZeneca (South Korea)), Elisabetta Leo(AstraZeneca (United Kingdom)), Lina Liu, Andrew Madin(AstraZeneca (United Kingdom)), Scott Martin(AstraZeneca (United Kingdom)), Lisa McWilliams(AstraZeneca (United Kingdom)), Mark J. O’Connor(AstraZeneca (United Kingdom)), Jonathan P. Orme(AstraZeneca (United Kingdom)), Fiona Pachl(AstraZeneca (United States)), Martin J. Packer(AstraZeneca (United Kingdom)), Xiaohui Pei, Andrew Pike(AstraZeneca (United Kingdom)), Marianne Schimpl(AstraZeneca (United Kingdom)), Hongyao She, Anna D. Staniszewska(AstraZeneca (United Kingdom)), Verity Talbot(AstraZeneca (United Kingdom)), E. Underwood(AstraZeneca (United Kingdom)), Jeffrey Varnes(AstraZeneca (United States)), Lin Xue, Tieguang Yao, Ke Zhang, Andrew X. Zhang(AstraZeneca (United States)), Xiaolan Zheng(AstraZeneca (United States))

Journal of Medicinal Chemistry

September 27, 2021

10.1021/acs.jmedchem.1c01012

Cited by 136Open Access

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Abstract

Poly-ADP-ribose-polymerase (PARP) inhibitors have achieved regulatory approval in oncology for homologous recombination repair deficient tumors including BRCA mutation. However, some have failed in combination with first-line chemotherapies, usually due to overlapping hematological toxicities. Currently approved PARP inhibitors lack selectivity for PARP1 over PARP2 and some other 16 PARP family members, and we hypothesized that this could contribute to toxicity. Recent literature has demonstrated that PARP1 inhibition and PARP1–DNA trapping are key for driving efficacy in a BRCA mutant background. Herein, we describe the structure- and property-based design of 25 (AZD5305), a potent and selective PARP1 inhibitor and PARP1–DNA trapper with excellent in vivo efficacy in a BRCA mutant HBCx-17 PDX model. Compound 25 is highly selective for PARP1 over other PARP family members, with good secondary pharmacology and physicochemical properties and excellent pharmacokinetics in preclinical species, with reduced effects on human bone marrow progenitor cells in vitro.

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