Cargando…
The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population
Breast cancer is a heterogeneous disease and patients are managed clinically based on ER, PR, HER2 expression, and key risk factors. We sought to characterize the molecular landscape of high-risk breast cancer patients enrolled onto an adjuvant chemotherapy study to understand how disease subsets an...
| Autores principales: | , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Nature Publishing Group
2016
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5515335/ https://www.ncbi.nlm.nih.gov/pubmed/28721382 http://dx.doi.org/10.1038/npjbcancer.2016.22 |
| _version_ | 1783250977317453824 |
|---|---|
| author | Wilson, Timothy R Yu, Jianjun Lu, Xuyang Spoerke, Jill M Xiao, Yuanyuan O’Brien, Carol Savage, Heidi M Huw, Ling-Yuh Zou, Wei Koeppen, Hartmut Forrest, William F Fridlyand, Jane Fu, Ling Tam, Rachel Schleifman, Erica B Sumiyoshi, Teiko Molinero, Luciana Hampton, Garret M O’Shaughnessy, Joyce A Lackner, Mark R |
| author_facet | Wilson, Timothy R Yu, Jianjun Lu, Xuyang Spoerke, Jill M Xiao, Yuanyuan O’Brien, Carol Savage, Heidi M Huw, Ling-Yuh Zou, Wei Koeppen, Hartmut Forrest, William F Fridlyand, Jane Fu, Ling Tam, Rachel Schleifman, Erica B Sumiyoshi, Teiko Molinero, Luciana Hampton, Garret M O’Shaughnessy, Joyce A Lackner, Mark R |
| author_sort | Wilson, Timothy R |
| collection | PubMed |
| description | Breast cancer is a heterogeneous disease and patients are managed clinically based on ER, PR, HER2 expression, and key risk factors. We sought to characterize the molecular landscape of high-risk breast cancer patients enrolled onto an adjuvant chemotherapy study to understand how disease subsets and tumor immune status impact survival. DNA and RNA were extracted from 861 breast cancer samples from patients enrolled onto the United States Oncology trial 01062. Samples were characterized using multiplex gene expression, copy number, and qPCR mutation assays. HR(+) patients with a PIK3CA mutant tumor had a favorable disease-free survival (DFS; HR 0.66, P=0.05), however, the prognostic effect was specific to luminal A patients (Luminal A: HR 0.67, P=0.1; Luminal B: HR 1.01, P=0.98). Molecular subtyping of triple-negative breast cancers (TNBCs) suggested that the mesenchymal subtype had the worst DFS, whereas the immunomodulatory subtype had the best DFS. Profiling of immunologic genes revealed that TNBC tumors (n=280) displaying an activated T-cell signature had a longer DFS following adjuvant chemotherapy (HR 0.59, P=0.04), while a distinct set of immune genes was associated with DFS in HR(+) cancers. Utilizing a discovery approach, we identified genes associated with a high risk of recurrence in HR(+) patients, which were validated in an independent data set. Molecular classification based on PAM50 and TNBC subtyping stratified clinical high-risk patients into distinct prognostic subsets. Patients with high expression of immune-related genes showed superior DFS in both HR(+) and TNBC. These results may inform patient management and drug development in early breast cancer. |
| format | Online Article Text |
| id | pubmed-5515335 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2016 |
| publisher | Nature Publishing Group |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-55153352017-07-18 The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population Wilson, Timothy R Yu, Jianjun Lu, Xuyang Spoerke, Jill M Xiao, Yuanyuan O’Brien, Carol Savage, Heidi M Huw, Ling-Yuh Zou, Wei Koeppen, Hartmut Forrest, William F Fridlyand, Jane Fu, Ling Tam, Rachel Schleifman, Erica B Sumiyoshi, Teiko Molinero, Luciana Hampton, Garret M O’Shaughnessy, Joyce A Lackner, Mark R NPJ Breast Cancer Article Breast cancer is a heterogeneous disease and patients are managed clinically based on ER, PR, HER2 expression, and key risk factors. We sought to characterize the molecular landscape of high-risk breast cancer patients enrolled onto an adjuvant chemotherapy study to understand how disease subsets and tumor immune status impact survival. DNA and RNA were extracted from 861 breast cancer samples from patients enrolled onto the United States Oncology trial 01062. Samples were characterized using multiplex gene expression, copy number, and qPCR mutation assays. HR(+) patients with a PIK3CA mutant tumor had a favorable disease-free survival (DFS; HR 0.66, P=0.05), however, the prognostic effect was specific to luminal A patients (Luminal A: HR 0.67, P=0.1; Luminal B: HR 1.01, P=0.98). Molecular subtyping of triple-negative breast cancers (TNBCs) suggested that the mesenchymal subtype had the worst DFS, whereas the immunomodulatory subtype had the best DFS. Profiling of immunologic genes revealed that TNBC tumors (n=280) displaying an activated T-cell signature had a longer DFS following adjuvant chemotherapy (HR 0.59, P=0.04), while a distinct set of immune genes was associated with DFS in HR(+) cancers. Utilizing a discovery approach, we identified genes associated with a high risk of recurrence in HR(+) patients, which were validated in an independent data set. Molecular classification based on PAM50 and TNBC subtyping stratified clinical high-risk patients into distinct prognostic subsets. Patients with high expression of immune-related genes showed superior DFS in both HR(+) and TNBC. These results may inform patient management and drug development in early breast cancer. Nature Publishing Group 2016-07-13 /pmc/articles/PMC5515335/ /pubmed/28721382 http://dx.doi.org/10.1038/npjbcancer.2016.22 Text en Copyright © 2016 Published in partnership with the Breast Cancer Research Foundation http://creativecommons.org/licenses/by/4.0/ This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ |
| spellingShingle | Article Wilson, Timothy R Yu, Jianjun Lu, Xuyang Spoerke, Jill M Xiao, Yuanyuan O’Brien, Carol Savage, Heidi M Huw, Ling-Yuh Zou, Wei Koeppen, Hartmut Forrest, William F Fridlyand, Jane Fu, Ling Tam, Rachel Schleifman, Erica B Sumiyoshi, Teiko Molinero, Luciana Hampton, Garret M O’Shaughnessy, Joyce A Lackner, Mark R The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population |
| title | The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population |
| title_full | The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population |
| title_fullStr | The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population |
| title_full_unstemmed | The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population |
| title_short | The molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase III adjuvant population |
| title_sort | molecular landscape of high-risk early breast cancer: comprehensive biomarker analysis of a phase iii adjuvant population |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5515335/ https://www.ncbi.nlm.nih.gov/pubmed/28721382 http://dx.doi.org/10.1038/npjbcancer.2016.22 |
| work_keys_str_mv | AT wilsontimothyr themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT yujianjun themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT luxuyang themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT spoerkejillm themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT xiaoyuanyuan themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT obriencarol themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT savageheidim themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT huwlingyuh themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT zouwei themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT koeppenhartmut themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT forrestwilliamf themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT fridlyandjane themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT fuling themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT tamrachel themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT schleifmanericab themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT sumiyoshiteiko themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT molineroluciana themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT hamptongarretm themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT oshaughnessyjoycea themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT lacknermarkr themolecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT wilsontimothyr molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT yujianjun molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT luxuyang molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT spoerkejillm molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT xiaoyuanyuan molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT obriencarol molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT savageheidim molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT huwlingyuh molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT zouwei molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT koeppenhartmut molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT forrestwilliamf molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT fridlyandjane molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT fuling molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT tamrachel molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT schleifmanericab molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT sumiyoshiteiko molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT molineroluciana molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT hamptongarretm molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT oshaughnessyjoycea molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation AT lacknermarkr molecularlandscapeofhighriskearlybreastcancercomprehensivebiomarkeranalysisofaphaseiiiadjuvantpopulation |