Literature DB >> 31015319

PARP Inhibitor Efficacy Depends on CD8+ T-cell Recruitment via Intratumoral STING Pathway Activation in BRCA-Deficient Models of Triple-Negative Breast Cancer.

Constantia Pantelidou1, Olmo Sonzogni2, Mateus De Oliveria Taveira2,3, Anita K Mehta4, Aditi Kothari1, Dan Wang2,5, Tanvi Visal1, Michelle K Li2, Jocelin Pinto2, Jessica A Castrillon4, Emily M Cheney4, Peter Bouwman6, Jos Jonkers6, Sven Rottenberg6,7, Jennifer L Guerriero4, Gerburg M Wulf2, Geoffrey I Shapiro8,9.   

Abstract

Combinatorial clinical trials of PARP inhibitors with immunotherapies are ongoing, yet the immunomodulatory effects of PARP inhibition have been incompletely studied. Here, we sought to dissect the mechanisms underlying PARP inhibitor-induced changes in the tumor microenvironment of BRCA1-deficient triple-negative breast cancer (TNBC). We demonstrate that the PARP inhibitor olaparib induces CD8+ T-cell infiltration and activation in vivo, and that CD8+ T-cell depletion severely compromises antitumor efficacy. Olaparib-induced T-cell recruitment is mediated through activation of the cGAS/STING pathway in tumor cells with paracrine activation of dendritic cells and is more pronounced in HR-deficient compared with HR-proficient TNBC cells and in vivo models. CRISPR-mediated knockout of STING in cancer cells prevents proinflammatory signaling and is sufficient to abolish olaparib-induced T-cell infiltration in vivo. These findings elucidate an additional mechanism of action of PARP inhibitors and provide a rationale for combining PARP inhibition with immunotherapies for the treatment of TNBC. SIGNIFICANCE: This work demonstrates cross-talk between PARP inhibition and the tumor microenvironment related to STING/TBK1/IRF3 pathway activation in cancer cells that governs CD8+ T-cell recruitment and antitumor efficacy. The data provide insight into the mechanism of action of PARP inhibitors in BRCA-associated breast cancer.This article is highlighted in the In This Issue feature, p. 681. ©2019 American Association for Cancer Research.

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Year:  2019        PMID: 31015319      PMCID: PMC6548644          DOI: 10.1158/2159-8290.CD-18-1218

Source DB:  PubMed          Journal:  Cancer Discov        ISSN: 2159-8274            Impact factor:   39.397


  40 in total

Review 1.  Triple-negative breast cancer: disease entity or title of convenience?

Authors:  Lisa Carey; Eric Winer; Giuseppe Viale; David Cameron; Luca Gianni
Journal:  Nat Rev Clin Oncol       Date:  2010-09-28       Impact factor: 66.675

Review 2.  Direct effects of type I interferons on cells of the immune system.

Authors:  Sandra Hervas-Stubbs; Jose Luis Perez-Gracia; Ana Rouzaut; Miguel F Sanmamed; Agnes Le Bon; Ignacio Melero
Journal:  Clin Cancer Res       Date:  2011-03-03       Impact factor: 12.531

3.  Tumor-infiltrating lymphocytes are correlated with response to neoadjuvant chemotherapy in triple-negative breast cancer.

Authors:  Makiko Ono; Hitoshi Tsuda; Chikako Shimizu; Sohei Yamamoto; Tatsuhiro Shibata; Harukaze Yamamoto; Taizo Hirata; Kan Yonemori; Masashi Ando; Kenji Tamura; Noriyuki Katsumata; Takayuki Kinoshita; Yuichi Takiguchi; Hideki Tanzawa; Yasuhiro Fujiwara
Journal:  Breast Cancer Res Treat       Date:  2011-05-12       Impact factor: 4.872

4.  Molecular basis of Tank-binding kinase 1 activation by transautophosphorylation.

Authors:  Xiaolei Ma; Elizabeth Helgason; Qui T Phung; Clifford L Quan; Rekha S Iyer; Michelle W Lee; Krista K Bowman; Melissa A Starovasnik; Erin C Dueber
Journal:  Proc Natl Acad Sci U S A       Date:  2012-05-22       Impact factor: 11.205

5.  Tumoral lymphocytic infiltration and expression of the chemokine CXCL10 in breast cancers from the Ontario Familial Breast Cancer Registry.

Authors:  Anna Marie Mulligan; Irene Raitman; Linda Feeley; Dushanthi Pinnaduwage; Linh T Nguyen; Frances P O'Malley; Pamela S Ohashi; Irene L Andrulis
Journal:  Clin Cancer Res       Date:  2012-12-04       Impact factor: 12.531

6.  Prognostic and predictive value of tumor-infiltrating lymphocytes in a phase III randomized adjuvant breast cancer trial in node-positive breast cancer comparing the addition of docetaxel to doxorubicin with doxorubicin-based chemotherapy: BIG 02-98.

Authors:  Sherene Loi; Nicolas Sirtaine; Fanny Piette; Roberto Salgado; Giuseppe Viale; Françoise Van Eenoo; Ghizlane Rouas; Prudence Francis; John P A Crown; Erika Hitre; Evandro de Azambuja; Emmanuel Quinaux; Angelo Di Leo; Stefan Michiels; Martine J Piccart; Christos Sotiriou
Journal:  J Clin Oncol       Date:  2013-01-22       Impact factor: 44.544

7.  Loss of 53BP1 causes PARP inhibitor resistance in Brca1-mutated mouse mammary tumors.

Authors:  Janneke E Jaspers; Ariena Kersbergen; Ute Boon; Wendy Sol; Liesbeth van Deemter; Serge A Zander; Rinske Drost; Ellen Wientjens; Jiuping Ji; Amal Aly; James H Doroshow; Aaron Cranston; Niall M B Martin; Alan Lau; Mark J O'Connor; Shridar Ganesan; Piet Borst; Jos Jonkers; Sven Rottenberg
Journal:  Cancer Discov       Date:  2012-10-25       Impact factor: 39.397

8.  Somatic loss of BRCA1 and p53 in mice induces mammary tumors with features of human BRCA1-mutated basal-like breast cancer.

Authors:  Xiaoling Liu; Henne Holstege; Hanneke van der Gulden; Marcelle Treur-Mulder; John Zevenhoven; Arno Velds; Ron M Kerkhoven; Martin H van Vliet; Lodewyk F A Wessels; Johannes L Peterse; Anton Berns; Jos Jonkers
Journal:  Proc Natl Acad Sci U S A       Date:  2007-07-11       Impact factor: 11.205

9.  Identification of the minimal phosphoacceptor site required for in vivo activation of interferon regulatory factor 3 in response to virus and double-stranded RNA.

Authors:  Marc J Servant; Nathalie Grandvaux; Benjamin R tenOever; Delphine Duguay; Rongtuan Lin; John Hiscott
Journal:  J Biol Chem       Date:  2003-01-10       Impact factor: 5.157

10.  A high-throughput screen identifies PARP1/2 inhibitors as a potential therapy for ERCC1-deficient non-small cell lung cancer.

Authors:  S Postel-Vinay; I Bajrami; L Friboulet; R Elliott; Y Fontebasso; N Dorvault; K A Olaussen; F André; J-C Soria; C J Lord; A Ashworth
Journal:  Oncogene       Date:  2013-08-12       Impact factor: 9.867
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  159 in total

Review 1.  Targeting DNA repair in cancer: current state and novel approaches.

Authors:  Apostolos Klinakis; Dimitris Karagiannis; Theodoros Rampias
Journal:  Cell Mol Life Sci       Date:  2019-10-14       Impact factor: 9.261

Review 2.  Time for remodeling: SNF2-family DNA translocases in replication fork metabolism and human disease.

Authors:  Sarah A Joseph; Angelo Taglialatela; Giuseppe Leuzzi; Jen-Wei Huang; Raquel Cuella-Martin; Alberto Ciccia
Journal:  DNA Repair (Amst)       Date:  2020-08-15

Review 3.  Small molecular drugs reshape tumor microenvironment to synergize with immunotherapy.

Authors:  Chuanhui Han; Anli Zhang; Zhida Liu; Casey Moore; Yang-Xin Fu
Journal:  Oncogene       Date:  2020-12-07       Impact factor: 9.867

Review 4.  Biomarker-Guided Development of DNA Repair Inhibitors.

Authors:  James M Cleary; Andrew J Aguirre; Geoffrey I Shapiro; Alan D D'Andrea
Journal:  Mol Cell       Date:  2020-05-26       Impact factor: 17.970

5.  cGAS/STING axis mediates a topoisomerase II inhibitor-induced tumor immunogenicity.

Authors:  Zining Wang; Jiemin Chen; Jie Hu; Hongxia Zhang; Feifei Xu; Wenzhuo He; Xiaojuan Wang; Mengyun Li; Wenhua Lu; Gucheng Zeng; Penghui Zhou; Peng Huang; Siyu Chen; Wende Li; Liang-Ping Xia; Xiaojun Xia
Journal:  J Clin Invest       Date:  2019-08-13       Impact factor: 14.808

Review 6.  Integrating Immunotherapy and Targeted Therapy in Cancer Treatment: Mechanistic Insights and Clinical Implications.

Authors:  Johann S Bergholz; Qiwei Wang; Sheheryar Kabraji; Jean J Zhao
Journal:  Clin Cancer Res       Date:  2020-06-23       Impact factor: 12.531

7.  PD-1/PD-L1 checkpoint inhibitors in combination with olaparib display antitumor activity in ovarian cancer patient-derived three-dimensional spheroid cultures.

Authors:  Kathryn M Appleton; Ashley K Elrod; Katy A Lassahn; Stephen Shuford; Lillia M Holmes; Teresa M DesRochers
Journal:  Cancer Immunol Immunother       Date:  2021-01-25       Impact factor: 6.968

Review 8.  The cancer-natural killer cell immunity cycle.

Authors:  Nicholas D Huntington; Joseph Cursons; Jai Rautela
Journal:  Nat Rev Cancer       Date:  2020-06-24       Impact factor: 60.716

9.  Targeting DNA Repair to Drive Immune Responses: It's Time to Reconsider the Strategy for Clinical Translation.

Authors:  Nobuyuki Takahashi; Ira Surolia; Anish Thomas
Journal:  Clin Cancer Res       Date:  2020-02-17       Impact factor: 12.531

10.  Combination of PARP Inhibitor Olaparib, and PD-L1 Inhibitor Durvalumab, in Recurrent Ovarian Cancer: a Proof-of-Concept Phase II Study.

Authors:  Erika J Lampert; Alexandra Zimmer; Michelle Padget; Ashley Cimino-Mathews; Jayakumar R Nair; Yingmiao Liu; Elizabeth M Swisher; James W Hodge; Andrew B Nixon; Erin Nichols; Mohammad H Bagheri; Elliott Levy; Marc R Radke; Stanley Lipkowitz; Christina M Annunziata; Janis M Taube; Seth M Steinberg; Jung-Min Lee
Journal:  Clin Cancer Res       Date:  2020-05-12       Impact factor: 12.531
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