Literature DB >> 25964101

Pharmacologically Increasing Mdm2 Inhibits DNA Repair and Cooperates with Genotoxic Agents to Kill p53-Inactivated Ovarian Cancer Cells.

Alexia M Carrillo1, Mellissa Hicks1, Dineo Khabele2, Christine M Eischen3.   

Abstract

UNLABELLED: The Mdm2 oncogene is a negative regulator of the p53 tumor suppressor and recently identified inhibitor of DNA break repair. Nutlin-3 is a small-molecule inhibitor of Mdm2-p53 interaction that can induce apoptosis in cancer cells through activation of p53. Although this is a promising therapy for those cancers with wild-type p53, half of all human cancers have inactivated p53. Here, we reveal that a previously unappreciated effect of Nutlin is inhibition of DNA break repair, stemming from its ability to increase Mdm2 protein levels. The Nutlin-induced increase in Mdm2 inhibited DNA double-strand break repair and prolonged DNA damage response signaling independent of p53. Mechanistically, this effect of Nutlin required Mdm2 and acted through Nbs1 of the Mre11-Rad50-Nbs1 DNA repair complex. In ovarian cancer cells, where >90% have inactivated p53, Nutlin combined with the genotoxic agents, cisplatin or etoposide, had a cooperative lethal effect resulting in increased DNA damage and apoptosis. Therefore, these data demonstrate an unexpected consequence of pharmacologically increasing Mdm2 levels that when used in combination with genotoxic agents induces synthetic lethality in ovarian cancer cells, and likely other malignant cell types, that have inactivated p53. IMPLICATIONS: Data reveal a therapeutically beneficial effect of pharmacologically increasing Mdm2 levels combined with chemotherapeutic agents for malignancies that have lost functional p53. ©2015 American Association for Cancer Research.

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Year:  2015        PMID: 25964101      PMCID: PMC4543442          DOI: 10.1158/1541-7786.MCR-15-0089

Source DB:  PubMed          Journal:  Mol Cancer Res        ISSN: 1541-7786            Impact factor:   5.852


  28 in total

1.  Survival benefits with diverse chemotherapy regimens for ovarian cancer: meta-analysis of multiple treatments.

Authors:  Maria Kyrgiou; Georgia Salanti; Nicholas Pavlidis; Evangelos Paraskevaidis; John P A Ioannidis
Journal:  J Natl Cancer Inst       Date:  2006-11-15       Impact factor: 13.506

2.  Elevated Mdm2 expression induces chromosomal instability and confers a survival and growth advantage to B cells.

Authors:  P Wang; T Lushnikova; J Odvody; T C Greiner; S N Jones; C M Eischen
Journal:  Oncogene       Date:  2007-09-10       Impact factor: 9.867

3.  Suberoylanilide hydroxamic acid (SAHA) enhances olaparib activity by targeting homologous recombination DNA repair in ovarian cancer.

Authors:  Panagiotis A Konstantinopoulos; Andrew J Wilson; Jeanette Saskowski; Erica Wass; Dineo Khabele
Journal:  Gynecol Oncol       Date:  2014-03-11       Impact factor: 5.482

Review 4.  The Mdm network and its regulation of p53 activities: a rheostat of cancer risk.

Authors:  Christine M Eischen; Guillermina Lozano
Journal:  Hum Mutat       Date:  2014-03-06       Impact factor: 4.878

5.  Drug-induced inactivation or gene silencing of class I histone deacetylases suppresses ovarian cancer cell growth: implications for therapy.

Authors:  Dineo Khabele; Deok-Soo Son; Angelika K Parl; Gary L Goldberg; Leonard H Augenlicht; John M Mariadason; Valerie Montgomery Rice
Journal:  Cancer Biol Ther       Date:  2007-02-14       Impact factor: 4.742

6.  Protecting the genome from mdm2 and mdmx.

Authors:  Alexia N Melo; Christine M Eischen
Journal:  Genes Cancer       Date:  2012-03

Review 7.  Platinum compounds 30 years after the introduction of cisplatin: implications for the treatment of ovarian cancer.

Authors:  Franco Muggia
Journal:  Gynecol Oncol       Date:  2008-10-31       Impact factor: 5.482

8.  Mdm2 inhibitors synergize with topoisomerase II inhibitors to induce p53-independent pancreatic cancer cell death.

Authors:  Laura Conradt; Annika Henrich; Matthias Wirth; Maximilian Reichert; Marina Lesina; Hana Algül; Roland M Schmid; Oliver H Krämer; Dieter Saur; Günter Schneider
Journal:  Int J Cancer       Date:  2012-11-26       Impact factor: 7.396

9.  Integrated genomic analyses of ovarian carcinoma.

Authors: 
Journal:  Nature       Date:  2011-06-29       Impact factor: 49.962

10.  Abnormal MDMX degradation in tumor cells due to ARF deficiency.

Authors:  X Li; D Gilkes; B Li; Q Cheng; D Pernazza; H Lawrence; N Lawrence; J Chen
Journal:  Oncogene       Date:  2011-11-28       Impact factor: 9.867
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  13 in total

Review 1.  Genome Stability Requires p53.

Authors:  Christine M Eischen
Journal:  Cold Spring Harb Perspect Med       Date:  2016-06-01       Impact factor: 6.915

2.  DNA double-strand breaks repair inhibitors potentiates the combined effect of VP-16 and CDDP in human colorectal adenocarcinoma (LoVo) cells.

Authors:  Paulina Kopa; Anna Macieja; Elzbieta Pastwa; Ireneusz Majsterek; Tomasz Poplawski
Journal:  Mol Biol Rep       Date:  2021-01-02       Impact factor: 2.316

3.  Nutlin-3 treatment spares cisplatin-induced inhibition of bone healing while maintaining osteosarcoma toxicity.

Authors:  Kimo C Stine; Elizabeth C Wahl; Lichu Liu; Robert A Skinner; Jaclyn VanderSchilden; Robert C Bunn; Corey O Montgomery; James Aronson; David L Becton; Richard W Nicholas; Christopher J Swearingen; Larry J Suva; Charles K Lumpkin
Journal:  J Orthop Res       Date:  2016-02-26       Impact factor: 3.494

4.  Mdm2 Is Required for Survival and Growth of p53-Deficient Cancer Cells.

Authors:  Kyle P Feeley; Clare M Adams; Ramkrishna Mitra; Christine M Eischen
Journal:  Cancer Res       Date:  2017-06-02       Impact factor: 12.701

5.  Cisplatin in Combination with MDM2 Inhibition Downregulates Rad51 Recombinase in a Bimodal Manner to Inhibit Homologous Recombination and Augment Tumor Cell Kill.

Authors:  Xiaolei Xie; Guangan He; Zahid H Siddik
Journal:  Mol Pharmacol       Date:  2020-02-16       Impact factor: 4.436

6.  Potentiation of Carboplatin-Mediated DNA Damage by the Mdm2 Modulator Nutlin-3a in a Humanized Orthotopic Breast-to-Lung Metastatic Model.

Authors:  Eva Tonsing-Carter; Barbara J Bailey; M Reza Saadatzadeh; Jixin Ding; Haiyan Wang; Anthony L Sinn; Kacie M Peterman; Tiaishia K Spragins; Jayne M Silver; Alyssa A Sprouse; Taxiarchis M Georgiadis; T Zachary Gunter; Eric C Long; Robert E Minto; Christophe C Marchal; Christopher N Batuello; Ahmad R Safa; Helmut Hanenberg; Paul R Territo; George E Sandusky; Lindsey D Mayo; Christine M Eischen; Harlan E Shannon; Karen E Pollok
Journal:  Mol Cancer Ther       Date:  2015-10-22       Impact factor: 6.261

7.  Investigation of the Effects of Perfluorooctanoic Acid (PFOA) and Perfluorooctane Sulfonate (PFOS) on Apoptosis and Cell Cycle in a Zebrafish (Danio rerio) Liver Cell Line.

Authors:  Yuan Cui; Wei Liu; Wenping Xie; Wenlian Yu; Cheng Wang; Huiming Chen
Journal:  Int J Environ Res Public Health       Date:  2015-12-09       Impact factor: 3.390

Review 8.  Clinical Overview of MDM2/X-Targeted Therapies.

Authors:  Andrew Burgess; Kee Ming Chia; Sue Haupt; David Thomas; Ygal Haupt; Elgene Lim
Journal:  Front Oncol       Date:  2016-01-27       Impact factor: 6.244

9.  Loss of p53 expression in cancer cells alters cell cycle response after inhibition of exportin-1 but does not prevent cell death.

Authors:  Joshua M Marcus; Russell T Burke; Andrea E Doak; Soyeon Park; James D Orth
Journal:  Cell Cycle       Date:  2018-07-23       Impact factor: 5.173

Review 10.  Role of Mdm2 and Mdmx in DNA repair.

Authors:  Christine M Eischen
Journal:  J Mol Cell Biol       Date:  2017-02-01       Impact factor: 6.216
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