Targeting CCNE1 amplified ovarian and endometrial cancers by combined inhibition of PKMYT1 and ATR

被引:0
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作者
Haineng Xu [1 ]
Erin George [2 ]
David Gallo [1 ]
Sergey Medvedev [2 ]
Xiaolei Wang [6 ]
Arindam Datta [3 ]
Rosie Kryczka [7 ]
Marc L. Hyer [1 ]
Jimmy Fourtounis [2 ]
Rino Stocco [1 ]
Elia Aguado-Fraile [2 ]
Adam Petrone [4 ]
Shou Yun Yin [3 ]
Ariya Shiwram [5 ]
Fang Liu [3 ]
Matthew Anderson [3 ]
Hyoung Kim [5 ]
Roger A. Greenberg [5 ]
C. Gary Marshall [3 ]
Fiona Simpkins [3 ]
机构
[1] University of Pennsylvania,Penn Ovarian Cancer Research Center, Perelman School of Medicine
[2] Hospital of the University of Pennsylvania,Department of Obstetrics and Gynecology, Division of Gynecologic Oncology
[3] 7171 Frederick-Banting,Repare Therapeutics, Inc.
[4] University of Pennsylvania,Department of Cancer Biology, Penn Center for Genome Integrity, Basser Center for BRCA, Perelman School of Medicine
[5] 101 Main St,Repare Therapeutics, Inc.
[6] H. Lee Moffitt Cancer Center and Research Institute,Department of Gynecologic Oncology
[7] University of Wisconsin-Madison,Department of Medicine
来源
Nature Communications | / 16卷 / 1期
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D O I
10.1038/s41467-025-58183-w
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摘要
Ovarian cancers (OVCAs) and endometrial cancers (EMCAs) with CCNE1-amplification are often resistant to standard treatment and represent an unmet clinical need. Synthetic-lethal screening identified loss of the CDK1 regulator, PKMYT1, as synthetically lethal with CCNE1-amplification. We hypothesize that CCNE1-amplification associated replication stress will be more effectively targeted by combining PKMYT1 inhibitor lunresertib (RP-6306), with ATR inhibitor camonsertib (RP-3500/RG6526). Low dose combination RP-6306 with RP-3500 synergistically increases cytotoxicity more so in CCNE1-amplified compared to non-amplified cells. Combination treatment produces durable antitumor activity, reduces metastasis and increases survival in CCNE1-amplified patient-derived OVCA and EMCA xenografts. Mechanistically, low doses of RP-6306 with RP-3500 increase CDK1 activation more so than monotherapy, triggering rapid and robust induction of premature mitosis, DNA damage, and apoptosis in a CCNE1-dependent manner. These findings suggest that targeting CDK1 activity by combining RP-6306 with RP-3500 is an effective therapeutic approach to treat CCNE1-amplifed OVCAs and EMCAs.
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