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Literature DB >> 27440269

PARP Inhibitor Activity Correlates with SLFN11 Expression and Demonstrates Synergy with Temozolomide in Small Cell Lung Cancer.

Benjamin H Lok^1,2, Eric E Gardner^2,3, Valentina E Schneeberger², Andy Ni⁴, Patrice Desmeules⁵, Natasha Rekhtman⁵, Elisa de Stanchina⁶, Beverly A Teicher⁷, Nadeem Riaz¹, Simon N Powell^1,8,9, John T Poirier^10,9,11, Charles M Rudin^10,9,11.

Abstract

PURPOSE: PARP inhibitors (PARPi) are a novel class of small molecule therapeutics for small cell lung cancer (SCLC). Identification of predictors of response would advance our understanding, and guide clinical application, of this therapeutic strategy. EXPERIMENTAL
DESIGN: Efficacy of PARP inhibitors olaparib, rucaparib, and veliparib, as well as etoposide and cisplatin in SCLC cell lines, and gene expression correlates, was analyzed using public datasets. HRD genomic scar scores were calculated from Affymetrix SNP 6.0 arrays. In vitro talazoparib efficacy was measured by cell viability assays. For functional studies, CRISPR/Cas9 and shRNA were used for genomic editing and transcript knockdown, respectively. Protein levels were assessed by immunoblotting and immunohistochemistry (IHC). Quantitative synergy of talazoparib and temozolomide was determined in vitro In vivo efficacy of talazoparib, temozolomide, and the combination was assessed in patient-derived xenograft (PDX) models.
RESULTS: We identified SLFN11, but not HRD genomic scars, as a consistent correlate of response to all three PARPi assessed, with loss of SLFN11 conferring resistance to PARPi. We confirmed these findings in vivo across multiple PDX and defined IHC staining for SLFN11 as a predictor of talazoparib response. As temozolomide has activity in SCLC, we investigated combination therapy with talazoparib and found marked synergy in vitro and efficacy in vivo, which did not solely depend on SLFN11 or MGMT status.
CONCLUSIONS: SLFN11 is a relevant predictive biomarker of sensitivity to PARP inhibitor monotherapy in SCLC and we identify combinatorial therapy with TMZ as a particularly promising therapeutic strategy that warrants further clinical investigation. Clin Cancer Res; 23(2); 523-35. ©2016 AACR. ©2016 American Association for Cancer Research.

Entities: CellLine Chemical Disease Gene Species

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Year: 2016 PMID： 27440269 PMCID： PMC5241177 DOI： 10.1158/1078-0432.CCR-16-1040

Source DB: PubMed Journal: Clin Cancer Res ISSN： 1078-0432 Impact factor: 12.531

48 in total

1. Utility of DNA repair protein foci for the detection of putative BRCA1 pathway defects in breast cancer biopsies.

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Journal: Mol Cancer Res Date: 2009-08-11 Impact factor: 5.852

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Authors: M Esteller; J M Silva; G Dominguez; F Bonilla; X Matias-Guiu; E Lerma; E Bussaglia; J Prat; I C Harkes; E A Repasky; E Gabrielson; M Schutte; S B Baylin; J G Herman
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3. Ploidy and large-scale genomic instability consistently identify basal-like breast carcinomas with BRCA1/2 inactivation.

Authors: Tatiana Popova; Elodie Manié; Guillaume Rieunier; Virginie Caux-Moncoutier; Carole Tirapo; Thierry Dubois; Olivier Delattre; Brigitte Sigal-Zafrani; Marc Bollet; Michel Longy; Claude Houdayer; Xavier Sastre-Garau; Anne Vincent-Salomon; Dominique Stoppa-Lyonnet; Marc-Henri Stern
Journal: Cancer Res Date: 2012-08-29 Impact factor: 12.701

4. Phase III trial comparing supportive care alone with supportive care with oral topotecan in patients with relapsed small-cell lung cancer.

Authors: Mary E R O'Brien; Tudor-Eliade Ciuleanu; Hristo Tsekov; Yaroslav Shparyk; Branka Cuceviá; Gabor Juhasz; Nicholas Thatcher; Graham A Ross; Graham C Dane; Theresa Crofts
Journal: J Clin Oncol Date: 2006-12-01 Impact factor: 44.544

5. Phase II trial of temozolomide in patients with relapsed sensitive or refractory small cell lung cancer, with assessment of methylguanine-DNA methyltransferase as a potential biomarker.

Authors: M Catherine Pietanza; Kyuichi Kadota; Kety Huberman; Camelia S Sima; John J Fiore; Dyana K Sumner; William D Travis; Adriana Heguy; Michelle S Ginsberg; Andrei I Holodny; Timothy A Chan; Naiyer A Rizvi; Christopher G Azzoli; Gregory J Riely; Mark G Kris; Lee M Krug
Journal: Clin Cancer Res Date: 2012-01-06 Impact factor: 12.531

6. SLFN11 Is a Transcriptional Target of EWS-FLI1 and a Determinant of Drug Response in Ewing Sarcoma.

Authors: Sai-Wen Tang; Sven Bilke; Liang Cao; Junko Murai; Fabricio G Sousa; Mihoko Yamade; Vinodh Rajapakse; Sudhir Varma; Lee J Helman; Javed Khan; Paul S Meltzer; Yves Pommier
Journal: Clin Cancer Res Date: 2015-03-16 Impact factor: 12.531

7. The PARP inhibitor, ABT-888 potentiates temozolomide: correlation with drug levels and reduction in PARP activity in vivo.

Authors: Joann P Palma; Luis E Rodriguez; Velitchka D Bontcheva-Diaz; Jennifer J Bouska; Gail Bukofzer; Milagros Colon-Lopez; Ran Guan; Kenneth Jarvis; Eric F Johnson; Vered Klinghofer; Xuesong Liu; Amanda Olson; Mary J Saltarelli; Yan Shi; Jason A Stavropoulos; Gui-Dong Zhu; Thomas D Penning; Yan Luo; Vincent L Giranda; Saul H Rosenberg; David J Frost; Cherrie K Donawho
Journal: Anticancer Res Date: 2008 Sep-Oct Impact factor: 2.480

8. Patterns of genomic loss of heterozygosity predict homologous recombination repair defects in epithelial ovarian cancer.

Authors: V Abkevich; K M Timms; B T Hennessy; J Potter; M S Carey; L A Meyer; K Smith-McCune; R Broaddus; K H Lu; J Chen; T V Tran; D Williams; D Iliev; S Jammulapati; L M FitzGerald; T Krivak; J A DeLoia; A Gutin; G B Mills; J S Lanchbury
Journal: Br J Cancer Date: 2012-10-09 Impact factor: 7.640

9. DNA methylation in small cell lung cancer defines distinct disease subtypes and correlates with high expression of EZH2.

Authors: J T Poirier; E E Gardner; N Connis; A L Moreira; E de Stanchina; C L Hann; C M Rudin
Journal: Oncogene Date: 2015-03-09 Impact factor: 9.867

10. Trapping of PARP1 and PARP2 by Clinical PARP Inhibitors.

Authors: Junko Murai; Shar-yin N Huang; Benu Brata Das; Amelie Renaud; Yiping Zhang; James H Doroshow; Jiuping Ji; Shunichi Takeda; Yves Pommier
Journal: Cancer Res Date: 2012-11-01 Impact factor: 13.312

109 in total

1. Chemosensitive Relapse in Small Cell Lung Cancer Proceeds through an EZH2-SLFN11 Axis.

Authors: Eric E Gardner; Benjamin H Lok; Valentina E Schneeberger; Patrice Desmeules; Linde A Miles; Paige K Arnold; Andy Ni; Inna Khodos; Elisa de Stanchina; Thuyen Nguyen; Julien Sage; John E Campbell; Scott Ribich; Natasha Rekhtman; Afshin Dowlati; Pierre P Massion; Charles M Rudin; John T Poirier
Journal: Cancer Cell Date: 2017-02-13 Impact factor: 31.743

2. Sleep better on combination therapy: SLFN11 predicts response to veliparib and temozolomide in recurrent small cell lung cancer.

Authors: Chen Zhao; Nobuyuki Takahashi; Arun Rajan
Journal: Transl Lung Cancer Res Date: 2018-12

3. Temozolomide in combination with either veliparib or placebo in patients with relapsed-sensitive or refractory small-cell lung cancer.

Authors: Chiara Lazzari; Vanesa Gregorc; Alessandra Bulotta; Alessia Dottore; Giuseppe Altavilla; Mariacarmela Santarpia
Journal: Transl Lung Cancer Res Date: 2018-12

Review 4. New Approaches to SCLC Therapy: From the Laboratory to the Clinic.

Authors: John T Poirier; Julie George; Taofeek K Owonikoko; Anton Berns; Elisabeth Brambilla; Lauren A Byers; David Carbone; Huanhuan J Chen; Camilla L Christensen; Caroline Dive; Anna F Farago; Ramaswamy Govindan; Christine Hann; Matthew D Hellmann; Leora Horn; Jane E Johnson; Young S Ju; Sumin Kang; Mark Krasnow; James Lee; Se-Hoon Lee; Jonathan Lehman; Benjamin Lok; Christine Lovly; David MacPherson; David McFadden; John Minna; Matthew Oser; Keunchil Park; Kwon-Sik Park; Yves Pommier; Vito Quaranta; Neal Ready; Julien Sage; Giorgio Scagliotti; Martin L Sos; Kate D Sutherland; William D Travis; Christopher R Vakoc; Sarah J Wait; Ignacio Wistuba; Kwok Kin Wong; Hua Zhang; Jillian Daigneault; Jacinta Wiens; Charles M Rudin; Trudy G Oliver
Journal: J Thorac Oncol Date: 2020-02-01 Impact factor: 15.609

Review 5. Schlafen 11 (SLFN11), a restriction factor for replicative stress induced by DNA-targeting anti-cancer therapies.

Authors: Junko Murai; Anish Thomas; Markku Miettinen; Yves Pommier
Journal: Pharmacol Ther Date: 2019-05-23 Impact factor: 12.310

Review 6. Unravelling the biology of SCLC: implications for therapy.

Authors: Joshua K Sabari; Benjamin H Lok; James H Laird; John T Poirier; Charles M Rudin
Journal: Nat Rev Clin Oncol Date: 2017-05-23 Impact factor: 66.675

7. Targeting AXL and mTOR Pathway Overcomes Primary and Acquired Resistance to WEE1 Inhibition in Small-Cell Lung Cancer.

Authors: Triparna Sen; Pan Tong; Lixia Diao; Lerong Li; Youhong Fan; Jennifer Hoff; John V Heymach; Jing Wang; Lauren Averett Byers
Journal: Clin Cancer Res Date: 2017-07-11 Impact factor: 12.531

8. Overcoming Resistance to DNA-Targeted Agents by Epigenetic Activation of Schlafen 11 (SLFN11) Expression with Class I Histone Deacetylase Inhibitors.

Authors: Sai-Wen Tang; Anish Thomas; Junko Murai; Jane B Trepel; Susan E Bates; Vinodh N Rajapakse; Yves Pommier
Journal: Clin Cancer Res Date: 2018-02-01 Impact factor: 12.531

9. SLFN11 Blocks Stressed Replication Forks Independently of ATR.

Authors: Junko Murai; Sai-Wen Tang; Elisabetta Leo; Simone A Baechler; Christophe E Redon; Hongliang Zhang; Muthana Al Abo; Vinodh N Rajapakse; Eijiro Nakamura; Lisa M Miller Jenkins; Mirit I Aladjem; Yves Pommier
Journal: Mol Cell Date: 2018-02-01 Impact factor: 17.970

10. Schlafen-11 (SLFN11): a step forward towards personalized medicine in small-cell lung cancer?

Authors: Alessandro Inno; Anna Stagno; Stefania Gori
Journal: Transl Lung Cancer Res Date: 2018-12