The brain-penetrant clinical ATM inhibitor AZD1390 radiosensitizes and improves survival of preclinical brain tumor models

Stephen T. Durant(AstraZeneca (United Kingdom)), Li Zheng(AstraZeneca (Japan)), Yingchun Wang(AstraZeneca (Japan)), Kan Chen(AstraZeneca (United States)), Lingli Zhang(AstraZeneca (United States)), Tianwei Zhang(AstraZeneca (Japan)), Zhenfan Yang(AstraZeneca (Japan)), Lucy C. Riches(AstraZeneca (United Kingdom)), Antonio G. Trinidad(AstraZeneca (United Kingdom)), Jacqueline H. L. Fok(AstraZeneca (United Kingdom)), Thomas A. Hunt(AstraZeneca (United Kingdom)), Kurt G. Pike(AstraZeneca (United Kingdom)), Joanne Wilson(AstraZeneca (United Kingdom)), Aaron Smith(AstraZeneca (United Kingdom)), Nicola Colclough(AstraZeneca (United Kingdom)), Venkatesh Pilla Reddy(AstraZeneca (United Kingdom)), Andrew Sykes(AstraZeneca (United Kingdom)), Annika Janefeldt(AstraZeneca (Japan)), Peter Johnström(AstraZeneca (Japan)), Katarina Varnäs(Stockholm County Council), Akihiro Takano(Stockholm County Council), Stephanie Ling(AstraZeneca (United Kingdom)), Jonathan P. Orme(AstraZeneca (United Kingdom)), Jonathan Stott(AstraZeneca (United Kingdom)), CAROLINE G.P. ROBERTS(AstraZeneca (United Kingdom)), Ian P. Barrett(AstraZeneca (United Kingdom)), Gemma N. Jones(AstraZeneca (United Kingdom)), Martine P. Roudier(AstraZeneca (United Kingdom)), Andrew Pierce(AstraZeneca (United Kingdom)), Jasmine Allen(Virginia Commonwealth University), Jenna Kahn(Virginia Commonwealth University), Amrita Sule(Virginia Commonwealth University), Jeremy Karlin(Virginia Commonwealth University), Anna Cronin(AstraZeneca (United Kingdom)), Melissa Chapman(AstraZeneca (United Kingdom)), Kristoffer Valerie(Virginia Commonwealth University), Ruth Illingworth(AstraZeneca (South Korea)), Martin Pass(AstraZeneca (United Kingdom))
Science Advances
June 1, 2018
10.1126/sciadv.aat1719
Cited by 308Open Access
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Abstract

cell cycle phase accumulation, micronuclei, and apoptosis. AZD1390 radiosensitizes glioma and lung cancer cell lines, with p53 mutant glioma cells generally being more radiosensitized than wild type. In in vivo syngeneic and patient-derived glioma as well as orthotopic lung-brain metastatic models, AZD1390 dosed in combination with daily fractions of IR (whole-brain or stereotactic radiotherapy) significantly induced tumor regressions and increased animal survival compared to IR treatment alone. We established a pharmacokinetic-pharmacodynamic-efficacy relationship by correlating free brain concentrations, tumor phospho-ATM/phospho-Rad50 inhibition, apoptotic biomarker (cleaved caspase-3) induction, tumor regression, and survival. On the basis of the data presented here, AZD1390 is now in early clinical development for use as a radiosensitizer in central nervous system malignancies.

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