Literature DB >> 24842267

Expression of programmed death ligand 1 (PD-L1) is associated with poor prognosis in human breast cancer.

S Muenst1, A R Schaerli, F Gao, S Däster, E Trella, R A Droeser, M G Muraro, P Zajac, R Zanetti, W E Gillanders, W P Weber, S D Soysal.   

Abstract

Recent studies in multiple epithelial cancers have shown that the inhibitory receptor programmed cell death 1 (PD-1) is expressed on tumor-infiltrating lymphocytes and/or programmed death ligand 1 (PD-L1) is expressed on tumor cells, suggesting that antitumor immunity may be modulated by the PD-1/PD-L1 signaling pathway. In addition, phase 1 clinical trials with monoclonal antibodies targeting PD-1 or PD-L1 have shown promising results in several human cancers. The purpose of this study was to investigate the impact of PD-L1 expression in human breast cancer specimens. We conducted an immunohistochemistry study using a tissue microarray encompassing 650 evaluable formalin-fixed breast cancer cases with detailed clinical annotation and outcomes data. PD-L1 was expressed in 152 (23.4 %) of the 650 breast cancer specimens. Expression was significantly associated with age, tumor size, AJCC primary tumor classification, tumor grade, lymph node status, absence of ER expression, and high Ki-67 expression. In univariate analysis, PD-L1 expression was associated with a significantly worse OS. In multivariate analysis, PD-L1 expression remained an independent negative prognostic factor for OS. In subset analyses, expression of PD-L1 was associated with significantly worse OS in the luminal B HER2(-) subtype, the luminal B HER2(+) subtype, the HER2 subtype, and the basal-like subtype. This is the first study to demonstrate that PD-L1 expression is an independent negative prognostic factor in human breast cancer. This finding has important implications for the application of antibody therapies targeting the PD-1/PD-L1 signaling pathway in this disease.

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Year:  2014        PMID: 24842267      PMCID: PMC4180714          DOI: 10.1007/s10549-014-2988-5

Source DB:  PubMed          Journal:  Breast Cancer Res Treat        ISSN: 0167-6806            Impact factor:   4.872


  57 in total

Review 1.  Tissue microarray (TMA) technology: miniaturized pathology archives for high-throughput in situ studies.

Authors:  L Bubendorf; A Nocito; H Moch; G Sauter
Journal:  J Pathol       Date:  2001-09       Impact factor: 7.996

2.  Regulation of PD-1, PD-L1, and PD-L2 expression during normal and autoimmune responses.

Authors:  Spencer C Liang; Yvette E Latchman; Janet E Buhlmann; Michal F Tomczak; Bruce H Horwitz; Gordon J Freeman; Arlene H Sharpe
Journal:  Eur J Immunol       Date:  2003-10       Impact factor: 5.532

3.  PD-L2 is a second ligand for PD-1 and inhibits T cell activation.

Authors:  Y Latchman; C R Wood; T Chernova; D Chaudhary; M Borde; I Chernova; Y Iwai; A J Long; J A Brown; R Nunes; E A Greenfield; K Bourque; V A Boussiotis; L L Carter; B M Carreno; N Malenkovich; H Nishimura; T Okazaki; T Honjo; A H Sharpe; G J Freeman
Journal:  Nat Immunol       Date:  2001-03       Impact factor: 25.606

4.  B7-H1 blockade augments adoptive T-cell immunotherapy for squamous cell carcinoma.

Authors:  Scott E Strome; Haidong Dong; Hideto Tamura; Stephen G Voss; Dallas B Flies; Koji Tamada; Diva Salomao; John Cheville; Fumiya Hirano; Wei Lin; Jan L Kasperbauer; Karla V Ballman; Lieping Chen
Journal:  Cancer Res       Date:  2003-10-01       Impact factor: 12.701

5.  B7-H1 expression on non-small cell lung cancer cells and its relationship with tumor-infiltrating lymphocytes and their PD-1 expression.

Authors:  Jun Konishi; Koichi Yamazaki; Miyuki Azuma; Ichiro Kinoshita; Hirotoshi Dosaka-Akita; Masaharu Nishimura
Journal:  Clin Cancer Res       Date:  2004-08-01       Impact factor: 12.531

6.  Tumor-associated B7-H1 promotes T-cell apoptosis: a potential mechanism of immune evasion.

Authors:  Haidong Dong; Scott E Strome; Diva R Salomao; Hideto Tamura; Fumiya Hirano; Dallas B Flies; Patrick C Roche; Jun Lu; Gefeng Zhu; Koji Tamada; Vanda A Lennon; Esteban Celis; Lieping Chen
Journal:  Nat Med       Date:  2002-06-24       Impact factor: 53.440

Review 7.  Vaccine and antibody-directed T cell tumour immunotherapy.

Authors:  Said Dermime; David E Gilham; David M Shaw; Emma J Davidson; El-Kahina Meziane; Anne Armstrong; Robert E Hawkins; Peter L Stern
Journal:  Biochim Biophys Acta       Date:  2004-07-06

8.  Involvement of PD-L1 on tumor cells in the escape from host immune system and tumor immunotherapy by PD-L1 blockade.

Authors:  Yoshiko Iwai; Masayoshi Ishida; Yoshimasa Tanaka; Taku Okazaki; Tasuku Honjo; Nagahiro Minato
Journal:  Proc Natl Acad Sci U S A       Date:  2002-09-06       Impact factor: 11.205

9.  Prevalence of regulatory T cells is increased in peripheral blood and tumor microenvironment of patients with pancreas or breast adenocarcinoma.

Authors:  Udaya K Liyanage; Todd T Moore; Hong-Gu Joo; Yoshiyuki Tanaka; Virginia Herrmann; Gerard Doherty; Jeffrey A Drebin; Steven M Strasberg; Timothy J Eberlein; Peter S Goedegebuure; David C Linehan
Journal:  J Immunol       Date:  2002-09-01       Impact factor: 5.422

10.  Engagement of the PD-1 immunoinhibitory receptor by a novel B7 family member leads to negative regulation of lymphocyte activation.

Authors:  G J Freeman; A J Long; Y Iwai; K Bourque; T Chernova; H Nishimura; L J Fitz; N Malenkovich; T Okazaki; M C Byrne; H F Horton; L Fouser; L Carter; V Ling; M R Bowman; B M Carreno; M Collins; C R Wood; T Honjo
Journal:  J Exp Med       Date:  2000-10-02       Impact factor: 14.307
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  236 in total

Review 1.  Microbiome, bile acids, and obesity: How microbially modified metabolites shape anti-tumor immunity.

Authors:  Laura M Sipe; Mehdi Chaib; Ajeeth K Pingili; Joseph F Pierre; Liza Makowski
Journal:  Immunol Rev       Date:  2020-05       Impact factor: 12.988

2.  The combined presence of CD20 + B cells and PD-L1 + tumor-infiltrating lymphocytes in inflammatory breast cancer is prognostic of improved patient outcome.

Authors:  H Arias-Pulido; A Cimino-Mathews; N Chaher; C Qualls; N Joste; C Colpaert; J D Marotti; M Foisey; E R Prossnitz; L A Emens; S Fiering
Journal:  Breast Cancer Res Treat       Date:  2018-06-01       Impact factor: 4.872

Review 3.  Neoadjuvant Therapy for Breast Cancer: Established Concepts and Emerging Strategies.

Authors:  Tessa G Steenbruggen; Mette S van Ramshorst; Marleen Kok; Sabine C Linn; Carolien H Smorenburg; Gabe S Sonke
Journal:  Drugs       Date:  2017-08       Impact factor: 9.546

4.  Functional characterization of PD1+TIM3+ tumor-infiltrating T cells in DLBCL and effects of PD1 or TIM3 blockade.

Authors:  Mikaël Roussel; Kieu-Suong Le; Clémence Granier; Francisco Llamas Gutierrez; Etienne Foucher; Simon Le Gallou; Céline Pangault; Luc Xerri; Vincent Launay; Thierry Lamy; Eric Tartour; Daniel Olive; Thierry Fest
Journal:  Blood Adv       Date:  2021-04-13

5.  Clinicopathological analysis of epithelioid inflammatory myofibroblastic sarcoma.

Authors:  Xuemei Du; Ying Gao; Hongyu Zhao; Bin Li; Weimin Xue; Daye Wang
Journal:  Oncol Lett       Date:  2018-04-18       Impact factor: 2.967

6.  RAS/MAPK Activation Is Associated with Reduced Tumor-Infiltrating Lymphocytes in Triple-Negative Breast Cancer: Therapeutic Cooperation Between MEK and PD-1/PD-L1 Immune Checkpoint Inhibitors.

Authors:  Sherene Loi; Sathana Dushyanthen; Paul A Beavis; Roberto Salgado; Carsten Denkert; Peter Savas; Susan Combs; David L Rimm; Jennifer M Giltnane; Monica V Estrada; Violeta Sánchez; Melinda E Sanders; Rebecca S Cook; Mark A Pilkinton; Simon A Mallal; Kai Wang; Vincent A Miller; Phil J Stephens; Roman Yelensky; Franco D Doimi; Henry Gómez; Sergey V Ryzhov; Phillip K Darcy; Carlos L Arteaga; Justin M Balko
Journal:  Clin Cancer Res       Date:  2015-10-29       Impact factor: 12.531

7.  PD-L1 expression by immunohistochemistry in salivary duct carcinoma.

Authors:  Ameer Hamza; Dianna Roberts; Shirley Su; Randal S Weber; Diana Bell; Renata Ferrarotto
Journal:  Ann Diagn Pathol       Date:  2019-04-03       Impact factor: 2.090

8.  Eya3 promotes breast tumor-associated immune suppression via threonine phosphatase-mediated PD-L1 upregulation.

Authors:  Rebecca L Vartuli; Hengbo Zhou; Lingdi Zhang; Rani K Powers; Jared Klarquist; Pratyaydipta Rudra; Melanie Y Vincent; Debashis Ghosh; James C Costello; Ross M Kedl; Jill E Slansky; Rui Zhao; Heide L Ford
Journal:  J Clin Invest       Date:  2018-05-14       Impact factor: 14.808

Review 9.  Emerging role of circulating tumor cells in immunotherapy.

Authors:  Alexey Rzhevskiy; Alina Kapitannikova; Polina Malinina; Arthur Volovetsky; Hamidreza Aboulkheyr Es; Arutha Kulasinghe; Jean Paul Thiery; Anna Maslennikova; Andrei V Zvyagin; Majid Ebrahimi Warkiani
Journal:  Theranostics       Date:  2021-07-06       Impact factor: 11.556

10.  Timing of PD-1 Blockade Is Critical to Effective Combination Immunotherapy with Anti-OX40.

Authors:  David J Messenheimer; Shawn M Jensen; Michael E Afentoulis; Keith W Wegmann; Zipei Feng; David J Friedman; Michael J Gough; Walter J Urba; Bernard A Fox
Journal:  Clin Cancer Res       Date:  2017-08-28       Impact factor: 12.531
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