Literature DB >> 28655785

A Small-Molecule Inhibitor of WEE1, AZD1775, Synergizes with Olaparib by Impairing Homologous Recombination and Enhancing DNA Damage and Apoptosis in Acute Leukemia.

Tamara B Garcia1, Jonathan C Snedeker2, Dmitry Baturin3, Lori Gardner3, Susan P Fosmire3, Chengjing Zhou4, Craig T Jordan5, Sujatha Venkataraman3, Rajeev Vibhakar3, Christopher C Porter6,4.   

Abstract

Although some patients with acute leukemia have good prognoses, the prognosis of adult and pediatric patients who relapse or cannot tolerate standard chemotherapy is poor. Inhibition of WEE1 with AZD1775 has been shown to sensitize cancer cells to genotoxic chemotherapies, including cytarabine in acute myeloid leukemia (AML) and T-ALL. Inhibition of WEE1 impairs homologous recombination by indirectly inhibiting BRCA2. Thus, we sought to determine whether AZD1775 could sensitize cells to the PARP1/2 inhibitor olaparib. We found that combined treatment with AZD1775 and olaparib was synergistic in AML and ALL cells, and this combination impaired proliferative capacity upon drug withdrawal. AZD1775 impaired homologous recombination in olaparib-treated cells, resulting in enhanced DNA damage accumulation and apoptosis induction. This combination enhanced disease control and increased survival in a murine AML model. Furthermore, we demonstrated that combined treatment with AZD1775 and olaparib reduces proliferation and colony formation and increases apoptosis in AML patient samples. In aggregate, these studies raise the possibility of rational combinations of targeted agents for leukemia in patients for whom conventional chemotherapeutics may not be effective or well tolerated. Mol Cancer Ther; 16(10); 2058-68. ©2017 AACR. ©2017 American Association for Cancer Research.

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Year:  2017        PMID: 28655785      PMCID: PMC5628125          DOI: 10.1158/1535-7163.MCT-16-0660

Source DB:  PubMed          Journal:  Mol Cancer Ther        ISSN: 1535-7163            Impact factor:   6.261


  48 in total

1.  p53 mediates senescence-like arrest induced by chronic replicational stress.

Authors:  Andriy Marusyk; Linda J Wheeler; Christopher K Mathews; James DeGregori
Journal:  Mol Cell Biol       Date:  2007-05-21       Impact factor: 4.272

Review 2.  DNA damage accumulation and repair defects in acute myeloid leukemia: implications for pathogenesis, disease progression, and chemotherapy resistance.

Authors:  Maria Teresa Esposito; Chi Wai Eric So
Journal:  Chromosoma       Date:  2014-08-12       Impact factor: 4.316

3.  Phase I Study of Single-Agent AZD1775 (MK-1775), a Wee1 Kinase Inhibitor, in Patients With Refractory Solid Tumors.

Authors:  Khanh Do; Deborah Wilsker; Jiuping Ji; Jennifer Zlott; Tomoko Freshwater; Robert J Kinders; Jerry Collins; Alice P Chen; James H Doroshow; Shivaani Kummar
Journal:  J Clin Oncol       Date:  2015-05-11       Impact factor: 44.544

4.  Cells expressing FLT3/ITD mutations exhibit elevated repair errors generated through alternative NHEJ pathways: implications for genomic instability and therapy.

Authors:  Jinshui Fan; Li Li; Donald Small; Feyruz Rassool
Journal:  Blood       Date:  2010-08-31       Impact factor: 22.113

5.  Poly(ADP-ribose) polymerase (PARP-1) has a controlling role in homologous recombination.

Authors:  Niklas Schultz; Elena Lopez; Nasrollah Saleh-Gohari; Thomas Helleday
Journal:  Nucleic Acids Res       Date:  2003-09-01       Impact factor: 16.971

6.  Introduction to the review series on advances in acute myeloid leukemia (AML).

Authors:  Bob Löwenberg; Jacob M Rowe
Journal:  Blood       Date:  2015-12-10       Impact factor: 22.113

7.  Forced activation of Cdk1 via wee1 inhibition impairs homologous recombination.

Authors:  M Krajewska; A M Heijink; Y J W M Bisselink; R I Seinstra; H H W Silljé; E G E de Vries; M A T M van Vugt
Journal:  Oncogene       Date:  2012-07-16       Impact factor: 9.867

8.  Attempts to optimize induction and consolidation treatment in acute myeloid leukemia: results of the MRC AML12 trial.

Authors:  Alan K Burnett; Robert K Hills; Donald W Milligan; Anthony H Goldstone; Archibald G Prentice; Mary-Frances McMullin; Andrew Duncombe; Brenda Gibson; Keith Wheatley
Journal:  J Clin Oncol       Date:  2009-12-28       Impact factor: 44.544

9.  Integrated functional, gene expression and genomic analysis for the identification of cancer targets.

Authors:  Elizabeth Iorns; Christopher J Lord; Anita Grigoriadis; Sarah McDonald; Kerry Fenwick; Alan Mackay; Charles A Mein; Rachael Natrajan; Kay Savage; Narinder Tamber; Jorge S Reis-Filho; Nicholas C Turner; Alan Ashworth
Journal:  PLoS One       Date:  2009-04-09       Impact factor: 3.240

10.  Discovery of gene expression-based pharmacodynamic biomarker for a p53 context-specific anti-tumor drug Wee1 inhibitor.

Authors:  Shinji Mizuarai; Kazunori Yamanaka; Hiraku Itadani; Tsuyoshi Arai; Toshihide Nishibata; Hiroshi Hirai; Hidehito Kotani
Journal:  Mol Cancer       Date:  2009-06-08       Impact factor: 27.401
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  26 in total

1.  Increased activity of both CDK1 and CDK2 is necessary for the combinatorial activity of WEE1 inhibition and cytarabine.

Authors:  Tamara B Garcia; Susan P Fosmire; Christopher C Porter
Journal:  Leuk Res       Date:  2017-11-11       Impact factor: 3.156

Review 2.  PARP inhibitors: Clinical utility and possibilities of overcoming resistance.

Authors:  Benjamin G Bitler; Zachary L Watson; Lindsay J Wheeler; Kian Behbakht
Journal:  Gynecol Oncol       Date:  2017-10-14       Impact factor: 5.482

Review 3.  Targeting replication stress in cancer therapy.

Authors:  Alexandre André B A da Costa; Dipanjan Chowdhury; Geoffrey I Shapiro; Alan D D'Andrea; Panagiotis A Konstantinopoulos
Journal:  Nat Rev Drug Discov       Date:  2022-10-06       Impact factor: 112.288

4.  Blocking c-Met and EGFR reverses acquired resistance of PARP inhibitors in triple-negative breast cancer.

Authors:  Yu-Yi Chu; Clinton Yam; Mei-Kuang Chen; Li-Chuan Chan; Min Xiao; Yong-Kun Wei; Hirohito Yamaguchi; Pei-Chih Lee; Ye Han; Lei Nie; Xian Sun; Stacy L Moulder; Kenneth R Hess; Bin Wang; Jennifer L Hsu; Gabriel N Hortobagyi; Jennifer Litton; Jeffrey T Chang; Mien-Chie Hung
Journal:  Am J Cancer Res       Date:  2020-02-01       Impact factor: 6.166

5.  AZD1775 Increases Sensitivity to Olaparib and Gemcitabine in Cancer Cells with p53 Mutations.

Authors:  Xiangbing Meng; Jianling Bi; Yujun Li; Shujie Yang; Yuping Zhang; Mary Li; Haitao Liu; Yiyang Li; Megan E Mcdonald; Kristina W Thiel; Kuo-Kuang Wen; Xinhao Wang; Meng Wu; Kimberly K Leslie
Journal:  Cancers (Basel)       Date:  2018-05-19       Impact factor: 6.639

6.  Augmentation of the therapeutic efficacy of WEE1 kinase inhibitor AZD1775 by inhibiting the YAP-E2F1-DNA damage response pathway axis.

Authors:  Yusuke Oku; Naoyuki Nishiya; Takaaki Tazawa; Takaya Kobayashi; Nanami Umezawa; Yasuyo Sugawara; Yoshimasa Uehara
Journal:  FEBS Open Bio       Date:  2018-05-22       Impact factor: 2.693

Review 7.  Rucaparib: a novel PARP inhibitor for BRCA advanced ovarian cancer.

Authors:  Ilaria Colombo; Stephanie Lheureux; Amit Manulal Oza
Journal:  Drug Des Devel Ther       Date:  2018-03-21       Impact factor: 4.162

Review 8.  PARP goes the weasel! Emerging role of PARP inhibitors in acute leukemias.

Authors:  Claire Fritz; Scott M Portwood; Amanda Przespolewski; Eunice S Wang
Journal:  Blood Rev       Date:  2020-05-07       Impact factor: 10.626

9.  Identification of relevant drugable targets in diffuse large B-cell lymphoma using a genome-wide unbiased CD20 guilt-by association approach.

Authors:  Mathilde R W de Jong; Lydia Visser; Gerwin Huls; Arjan Diepstra; Marcel van Vugt; Emanuele Ammatuna; Rozemarijn S van Rijn; Edo Vellenga; Anke van den Berg; Rudolf S N Fehrmann; Tom van Meerten
Journal:  PLoS One       Date:  2018-02-28       Impact factor: 3.240

Review 10.  Poly (ADP-Ribose) Polymerase Inhibitors: Talazoparib in Ovarian Cancer and Beyond.

Authors:  Stergios Boussios; Charlotte Abson; Michele Moschetta; Elie Rassy; Afroditi Karathanasi; Tahir Bhat; Faisal Ghumman; Matin Sheriff; Nicholas Pavlidis
Journal:  Drugs R D       Date:  2020-06
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