Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer

Maki Tanioka; Cheng Fan; Joel S. Parker; Katherine A. Hoadley; Zhiyuan Hu; Yan Li; Terry M. Hyslop; Brandelyn N. Pitcher; Matthew G. Soloway; Patricia A. Spears; Lynn N. Henry; Sara Tolaney; Chau T. Dang; Ian E. Krop; Lyndsay N. Harris; Donald A. Berry; Elaine R. Mardis; Eric P. Winer; Clifford A. Hudis; Lisa A. Carey; Charles M. Perou

doi:10.1158/1078-0432.CCR-17-3431

Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer

Maki Tanioka, Cheng Fan, Joel S. Parker, Katherine A. Hoadley, Zhiyuan Hu, Yan Li, Terry M. Hyslop, Brandelyn N. Pitcher, Matthew G. Soloway, Patricia A. Spears, Lynn N. Henry, Sara Tolaney, Chau T. Dang, Ian E. Krop, Lyndsay N. Harris, Donald A. Berry, Elaine R. Mardis, Eric P. Winer, Clifford A. Hudis, Lisa A. CareyCharles M. Perou

Research output: Contribution to journal › Article › peer-review

44 Citations (Scopus)

Abstract

Purpose: Response to a complex trastuzumab-based regimen is affected by multiple features of the tumor and its microenvironment. Developing a predictive algorithm is key to optimizing HER2-targeting therapy. Experimental Design: We analyzed 137 pretreatment tumors with mRNA-seq and DNA exome sequencing from CALGB 40601, a neoadjuvant phase III trial of paclitaxel plus trastuzumab with or without lapatinib in stage II to III HER2-positive breast cancer. We adopted an Elastic Net regularized regression approach that controls for covarying features within high-dimensional data. First, we applied 517 known gene expression signatures to develop an Elastic Net model to predict pCR, which we validated on 143 samples from four independent trials. Next, we performed integrative analyses incorporating clinicopathologic information with somatic mutation status, DNA copy number alterations (CNA), and gene signatures. Results: The Elastic Net model using only gene signatures predicted pCR in the validation sets (AUC ¼ 0.76). Integrative analyses showed that models containing gene signatures, clinical features, and DNA information were better pCR predictors than models containing a single data type. Frequently selected variables from the multiplatform models included amplifications of chromosome 6p, TP53 mutation, HER2-enriched subtype, and immune signatures. Variables predicting resistance included Luminal/ER^þ features. Conclusions: Models using RNA only, as well as integrated RNA and DNA models, can predict pCR with improved accuracy over clinical variables. Somatic DNA alterations (mutation, CNAs), tumor molecular subtype (HER2E, Luminal), and the microenvironment (immune cells) were independent predictors of response to trastuzumab and paclitaxel-based regimens. This highlights the complexity of predicting response in HER2-positive breast cancer.

Original language	English
Pages (from-to)	5292-5304
Number of pages	13
Journal	Clinical Cancer Research
Volume	24
Issue number	21
DOIs	https://doi.org/10.1158/1078-0432.CCR-17-3431
Publication status	Published - Nov 1 2018
Externally published	Yes

ASJC Scopus subject areas

Oncology
Cancer Research

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1158/1078-0432.CCR-17-3431

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Tanioka, M., Fan, C., Parker, J. S., Hoadley, K. A., Hu, Z., Li, Y., Hyslop, T. M., Pitcher, B. N., Soloway, M. G., Spears, P. A., Henry, L. N., Tolaney, S., Dang, C. T., Krop, I. E., Harris, L. N., Berry, D. A., Mardis, E. R., Winer, E. P., Hudis, C. A., ... Perou, C. M. (2018). Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer. Clinical Cancer Research, 24(21), 5292-5304. https://doi.org/10.1158/1078-0432.CCR-17-3431

Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer. / Tanioka, Maki; Fan, Cheng; Parker, Joel S. et al.
In: Clinical Cancer Research, Vol. 24, No. 21, 01.11.2018, p. 5292-5304.

Research output: Contribution to journal › Article › peer-review

Tanioka, M, Fan, C, Parker, JS, Hoadley, KA, Hu, Z, Li, Y, Hyslop, TM, Pitcher, BN, Soloway, MG, Spears, PA, Henry, LN, Tolaney, S, Dang, CT, Krop, IE, Harris, LN, Berry, DA, Mardis, ER, Winer, EP, Hudis, CA, Carey, LA & Perou, CM 2018, 'Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer', Clinical Cancer Research, vol. 24, no. 21, pp. 5292-5304. https://doi.org/10.1158/1078-0432.CCR-17-3431

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title = "Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer",

abstract = "Purpose: Response to a complex trastuzumab-based regimen is affected by multiple features of the tumor and its microenvironment. Developing a predictive algorithm is key to optimizing HER2-targeting therapy. Experimental Design: We analyzed 137 pretreatment tumors with mRNA-seq and DNA exome sequencing from CALGB 40601, a neoadjuvant phase III trial of paclitaxel plus trastuzumab with or without lapatinib in stage II to III HER2-positive breast cancer. We adopted an Elastic Net regularized regression approach that controls for covarying features within high-dimensional data. First, we applied 517 known gene expression signatures to develop an Elastic Net model to predict pCR, which we validated on 143 samples from four independent trials. Next, we performed integrative analyses incorporating clinicopathologic information with somatic mutation status, DNA copy number alterations (CNA), and gene signatures. Results: The Elastic Net model using only gene signatures predicted pCR in the validation sets (AUC ¼ 0.76). Integrative analyses showed that models containing gene signatures, clinical features, and DNA information were better pCR predictors than models containing a single data type. Frequently selected variables from the multiplatform models included amplifications of chromosome 6p, TP53 mutation, HER2-enriched subtype, and immune signatures. Variables predicting resistance included Luminal/ER{\th} features. Conclusions: Models using RNA only, as well as integrated RNA and DNA models, can predict pCR with improved accuracy over clinical variables. Somatic DNA alterations (mutation, CNAs), tumor molecular subtype (HER2E, Luminal), and the microenvironment (immune cells) were independent predictors of response to trastuzumab and paclitaxel-based regimens. This highlights the complexity of predicting response in HER2-positive breast cancer.",

author = "Maki Tanioka and Cheng Fan and Parker, {Joel S.} and Hoadley, {Katherine A.} and Zhiyuan Hu and Yan Li and Hyslop, {Terry M.} and Pitcher, {Brandelyn N.} and Soloway, {Matthew G.} and Spears, {Patricia A.} and Henry, {Lynn N.} and Sara Tolaney and Dang, {Chau T.} and Krop, {Ian E.} and Harris, {Lyndsay N.} and Berry, {Donald A.} and Mardis, {Elaine R.} and Winer, {Eric P.} and Hudis, {Clifford A.} and Carey, {Lisa A.} and Perou, {Charles M.}",

note = "Funding Information: We acknowledge the efforts of the data production and sample intake groups at the McDonnell Genome Institute in producing the exome sequencing data. Analyses were performed using a new Alliance {"}Data Mart{"} concept, and the research biopsies were made possible by generous support from The Breast Cancer Research Foundation. We thank our patients, the Alliance Breast Committee, and the Alliance Translational Research Program. This work was supported by funds from U10CA180888, U10CA180818, and U10CA180801, the Breast Cancer Research Foundation, the NCI Breast SPORE program (P50-CA58223-09A1), RO1-CA195740, the NIH/NCI Cancer Center Support Grant P30 CA008748-Memorial Sloan Kettering Cancer Center, and by the Susan G. Komen Foundation. T.M. Hyslop and Funding Information: We acknowledge the efforts of the data production and sample intake groups at the McDonnell Genome Institute in producing the exome sequencing data. Analyses were performed using a new Alliance {"}Data Mart{"} concept, and the research biopsies were made possible by generous support from The Breast Cancer Research Foundation. We thank our patients, the Alliance Breast Committee, and the Alliance Translational Research Program. This work was supported by funds from U10CA180888, U10CA180818, and U10CA180801, the Breast Cancer Research Foundation, the NCI Breast SPORE program (P50-CA58223-09A1), RO1-CA195740, the NIH/NCI Cancer Center Support Grant P30 CA008748-Memorial Sloan Kettering Cancer Center, and by the Susan G. Komen Foundation. T.M. Hyslop and B.N. Pitcher were supported by the Alliance Statistics and Data Center (U10CA180882-04). M. Tanioka was supported by a Postdoctoral Fellowship Grant from the Susan G. Komen Foundation. Publisher Copyright: {\textcopyright} 2018 American Association for Cancer Research.",

year = "2018",

month = nov,

day = "1",

doi = "10.1158/1078-0432.CCR-17-3431",

language = "English",

volume = "24",

pages = "5292--5304",

journal = "Clinical Cancer Research",

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TY - JOUR

T1 - Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer

AU - Tanioka, Maki

AU - Fan, Cheng

AU - Parker, Joel S.

AU - Hoadley, Katherine A.

AU - Hu, Zhiyuan

AU - Li, Yan

AU - Hyslop, Terry M.

AU - Pitcher, Brandelyn N.

AU - Soloway, Matthew G.

AU - Spears, Patricia A.

AU - Henry, Lynn N.

AU - Tolaney, Sara

AU - Dang, Chau T.

AU - Krop, Ian E.

AU - Harris, Lyndsay N.

AU - Berry, Donald A.

AU - Mardis, Elaine R.

AU - Winer, Eric P.

AU - Hudis, Clifford A.

AU - Carey, Lisa A.

AU - Perou, Charles M.

N1 - Funding Information: We acknowledge the efforts of the data production and sample intake groups at the McDonnell Genome Institute in producing the exome sequencing data. Analyses were performed using a new Alliance "Data Mart" concept, and the research biopsies were made possible by generous support from The Breast Cancer Research Foundation. We thank our patients, the Alliance Breast Committee, and the Alliance Translational Research Program. This work was supported by funds from U10CA180888, U10CA180818, and U10CA180801, the Breast Cancer Research Foundation, the NCI Breast SPORE program (P50-CA58223-09A1), RO1-CA195740, the NIH/NCI Cancer Center Support Grant P30 CA008748-Memorial Sloan Kettering Cancer Center, and by the Susan G. Komen Foundation. T.M. Hyslop and Funding Information: We acknowledge the efforts of the data production and sample intake groups at the McDonnell Genome Institute in producing the exome sequencing data. Analyses were performed using a new Alliance "Data Mart" concept, and the research biopsies were made possible by generous support from The Breast Cancer Research Foundation. We thank our patients, the Alliance Breast Committee, and the Alliance Translational Research Program. This work was supported by funds from U10CA180888, U10CA180818, and U10CA180801, the Breast Cancer Research Foundation, the NCI Breast SPORE program (P50-CA58223-09A1), RO1-CA195740, the NIH/NCI Cancer Center Support Grant P30 CA008748-Memorial Sloan Kettering Cancer Center, and by the Susan G. Komen Foundation. T.M. Hyslop and B.N. Pitcher were supported by the Alliance Statistics and Data Center (U10CA180882-04). M. Tanioka was supported by a Postdoctoral Fellowship Grant from the Susan G. Komen Foundation. Publisher Copyright: © 2018 American Association for Cancer Research.

PY - 2018/11/1

Y1 - 2018/11/1

N2 - Purpose: Response to a complex trastuzumab-based regimen is affected by multiple features of the tumor and its microenvironment. Developing a predictive algorithm is key to optimizing HER2-targeting therapy. Experimental Design: We analyzed 137 pretreatment tumors with mRNA-seq and DNA exome sequencing from CALGB 40601, a neoadjuvant phase III trial of paclitaxel plus trastuzumab with or without lapatinib in stage II to III HER2-positive breast cancer. We adopted an Elastic Net regularized regression approach that controls for covarying features within high-dimensional data. First, we applied 517 known gene expression signatures to develop an Elastic Net model to predict pCR, which we validated on 143 samples from four independent trials. Next, we performed integrative analyses incorporating clinicopathologic information with somatic mutation status, DNA copy number alterations (CNA), and gene signatures. Results: The Elastic Net model using only gene signatures predicted pCR in the validation sets (AUC ¼ 0.76). Integrative analyses showed that models containing gene signatures, clinical features, and DNA information were better pCR predictors than models containing a single data type. Frequently selected variables from the multiplatform models included amplifications of chromosome 6p, TP53 mutation, HER2-enriched subtype, and immune signatures. Variables predicting resistance included Luminal/ERþ features. Conclusions: Models using RNA only, as well as integrated RNA and DNA models, can predict pCR with improved accuracy over clinical variables. Somatic DNA alterations (mutation, CNAs), tumor molecular subtype (HER2E, Luminal), and the microenvironment (immune cells) were independent predictors of response to trastuzumab and paclitaxel-based regimens. This highlights the complexity of predicting response in HER2-positive breast cancer.

AB - Purpose: Response to a complex trastuzumab-based regimen is affected by multiple features of the tumor and its microenvironment. Developing a predictive algorithm is key to optimizing HER2-targeting therapy. Experimental Design: We analyzed 137 pretreatment tumors with mRNA-seq and DNA exome sequencing from CALGB 40601, a neoadjuvant phase III trial of paclitaxel plus trastuzumab with or without lapatinib in stage II to III HER2-positive breast cancer. We adopted an Elastic Net regularized regression approach that controls for covarying features within high-dimensional data. First, we applied 517 known gene expression signatures to develop an Elastic Net model to predict pCR, which we validated on 143 samples from four independent trials. Next, we performed integrative analyses incorporating clinicopathologic information with somatic mutation status, DNA copy number alterations (CNA), and gene signatures. Results: The Elastic Net model using only gene signatures predicted pCR in the validation sets (AUC ¼ 0.76). Integrative analyses showed that models containing gene signatures, clinical features, and DNA information were better pCR predictors than models containing a single data type. Frequently selected variables from the multiplatform models included amplifications of chromosome 6p, TP53 mutation, HER2-enriched subtype, and immune signatures. Variables predicting resistance included Luminal/ERþ features. Conclusions: Models using RNA only, as well as integrated RNA and DNA models, can predict pCR with improved accuracy over clinical variables. Somatic DNA alterations (mutation, CNAs), tumor molecular subtype (HER2E, Luminal), and the microenvironment (immune cells) were independent predictors of response to trastuzumab and paclitaxel-based regimens. This highlights the complexity of predicting response in HER2-positive breast cancer.

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Integrated analysis of RNA and DNA from the phase III trial CALGB 40601 identifies predictors of response to trastuzumab-based neoadjuvant chemotherapy in HER2-positive breast cancer

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UN SDGs

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