Single-nucleotide polymorphism biomarkers of adjuvant anastrozole-induced estrogen suppression in early breast cancer

James N. Ingle; Krishna R. Kalari; Poulami Barman; Lois E. Shepherd; Matthew J. Ellis; Paul E. Goss; Aman U. Buzdar; Mark E. Robson; Junmei Cairns; Erin E. Carlson; Abraham Eyman Casey; Tanya L. Hoskin; Barbara A. Goodnature; Tufia C. Haddad; Matthew P. Goetz; Richard M. Weinshilboum; Liewei Wang

doi:10.1097/FPC.0000000000000415

Single-nucleotide polymorphism biomarkers of adjuvant anastrozole-induced estrogen suppression in early breast cancer

James N. Ingle, Krishna R. Kalari, Poulami Barman, Lois E. Shepherd, Matthew J. Ellis, Paul E. Goss, Aman U. Buzdar, Mark E. Robson, Junmei Cairns, Erin E. Carlson, Abraham Eyman Casey, Tanya L. Hoskin, Barbara A. Goodnature, Tufia C. Haddad, Matthew P. Goetz, Richard M. Weinshilboum, Liewei Wang

Breast Medical Oncology

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

Abstract

Objectives Based on our previous findings that postmenopausal women with estrone (E1) and estradiol (E2) concentrations at or above 1.3 pg/ml and 0.5 pg/ml, respectively, after 6 months of adjuvant anastrozole therapy had a three-fold risk of recurrence, we aimed to identify a single-nucleotide polymorphism (SNP)-based model that would predict elevated E1 and E2 and then validate it in an independent dataset. Patients and methods The test set consisted of 322 women from the M3 study and the validation set consisted of 152 patients from MA.27. All patients were treated with adjuvant anastrozole, had on-anastrozole E1 and E2 concentrations and genome-wide genotyping. Results SNPs were identified from the M3 genome-wide association study. The best model to predict the E1-E2 phenotype with high balanced accuracy was a support vector machine model using clinical factors plus 46 SNPs. We did not have an independent cohort that is similar to the M3 study with clinical, E1-E2 phenotypes and genotype data to test our model. Hence, we chose a nested matched case-control cohort (MA.27 study) for testing. Our E1-E2 model was not validated but we found the MA.27 validation cohort was both clinically and genomically different. Conclusions We identified a SNP-based model that had excellent performance characteristics for predicting the phenotype of elevated E1 and E2 in women treated with anastrozole. This model was not validated in an independent dataset but that dataset was clinically and genomically substantially different. The model will need validation in a prospective study.

Original language	English (US)
Pages (from-to)	1-9
Number of pages	9
Journal	Pharmacogenetics and Genomics
DOIs	https://doi.org/10.1097/FPC.0000000000000415
State	Accepted/In press - 2020

Keywords

estrogen suppression
predictive models
single-nucleotide polymorphisms

ASJC Scopus subject areas

Molecular Medicine
Molecular Biology
Genetics
Pharmacology, Toxicology and Pharmaceutics(all)
Genetics(clinical)

Access to Document

10.1097/FPC.0000000000000415

Cite this

Ingle, J. N., Kalari, K. R., Barman, P., Shepherd, L. E., Ellis, M. J., Goss, P. E., Buzdar, A. U., Robson, M. E., Cairns, J., Carlson, E. E., Eyman Casey, A., Hoskin, T. L., Goodnature, B. A., Haddad, T. C., Goetz, M. P., Weinshilboum, R. M., & Wang, L. (Accepted/In press). Single-nucleotide polymorphism biomarkers of adjuvant anastrozole-induced estrogen suppression in early breast cancer. Pharmacogenetics and Genomics, 1-9. https://doi.org/10.1097/FPC.0000000000000415

Ingle, JN, Kalari, KR, Barman, P, Shepherd, LE, Ellis, MJ, Goss, PE, Buzdar, AU, Robson, ME, Cairns, J, Carlson, EE, Eyman Casey, A, Hoskin, TL, Goodnature, BA, Haddad, TC, Goetz, MP, Weinshilboum, RM & Wang, L 2020, 'Single-nucleotide polymorphism biomarkers of adjuvant anastrozole-induced estrogen suppression in early breast cancer', Pharmacogenetics and Genomics, pp. 1-9. https://doi.org/10.1097/FPC.0000000000000415

@article{b4d27e0d371b4f128d5d25dd023347b9,

title = "Single-nucleotide polymorphism biomarkers of adjuvant anastrozole-induced estrogen suppression in early breast cancer",

abstract = "Objectives Based on our previous findings that postmenopausal women with estrone (E1) and estradiol (E2) concentrations at or above 1.3 pg/ml and 0.5 pg/ml, respectively, after 6 months of adjuvant anastrozole therapy had a three-fold risk of recurrence, we aimed to identify a single-nucleotide polymorphism (SNP)-based model that would predict elevated E1 and E2 and then validate it in an independent dataset. Patients and methods The test set consisted of 322 women from the M3 study and the validation set consisted of 152 patients from MA.27. All patients were treated with adjuvant anastrozole, had on-anastrozole E1 and E2 concentrations and genome-wide genotyping. Results SNPs were identified from the M3 genome-wide association study. The best model to predict the E1-E2 phenotype with high balanced accuracy was a support vector machine model using clinical factors plus 46 SNPs. We did not have an independent cohort that is similar to the M3 study with clinical, E1-E2 phenotypes and genotype data to test our model. Hence, we chose a nested matched case-control cohort (MA.27 study) for testing. Our E1-E2 model was not validated but we found the MA.27 validation cohort was both clinically and genomically different. Conclusions We identified a SNP-based model that had excellent performance characteristics for predicting the phenotype of elevated E1 and E2 in women treated with anastrozole. This model was not validated in an independent dataset but that dataset was clinically and genomically substantially different. The model will need validation in a prospective study.",

keywords = "estrogen suppression, predictive models, single-nucleotide polymorphisms",

author = "Ingle, {James N.} and Kalari, {Krishna R.} and Poulami Barman and Shepherd, {Lois E.} and Ellis, {Matthew J.} and Goss, {Paul E.} and Buzdar, {Aman U.} and Robson, {Mark E.} and Junmei Cairns and Carlson, {Erin E.} and {Eyman Casey}, Abraham and Hoskin, {Tanya L.} and Goodnature, {Barbara A.} and Haddad, {Tufia C.} and Goetz, {Matthew P.} and Weinshilboum, {Richard M.} and Liewei Wang",

note = "Funding Information: These studies were supported, in part, by NIH grant P50CA116201 (Mayo Clinic Breast Cancer Specialized Program of Research Excellence), U19 GM61388 (The Pharmacogenomics Research Network), and CCS 015469 from the Canadian Cancer Society. Publisher Copyright: {\textcopyright} 2020 Lippincott Williams and Wilkins. All rights reserved.",

year = "2020",

doi = "10.1097/FPC.0000000000000415",

language = "English (US)",

pages = "1--9",

journal = "Pharmacogenetics and Genomics",

issn = "1744-6872",

publisher = "Lippincott Williams and Wilkins",

}

TY - JOUR

T1 - Single-nucleotide polymorphism biomarkers of adjuvant anastrozole-induced estrogen suppression in early breast cancer

AU - Ingle, James N.

AU - Kalari, Krishna R.

AU - Barman, Poulami

AU - Shepherd, Lois E.

AU - Ellis, Matthew J.

AU - Goss, Paul E.

AU - Buzdar, Aman U.

AU - Robson, Mark E.

AU - Cairns, Junmei

AU - Carlson, Erin E.

AU - Eyman Casey, Abraham

AU - Hoskin, Tanya L.

AU - Goodnature, Barbara A.

AU - Haddad, Tufia C.

AU - Goetz, Matthew P.

AU - Weinshilboum, Richard M.

AU - Wang, Liewei

N1 - Funding Information: These studies were supported, in part, by NIH grant P50CA116201 (Mayo Clinic Breast Cancer Specialized Program of Research Excellence), U19 GM61388 (The Pharmacogenomics Research Network), and CCS 015469 from the Canadian Cancer Society. Publisher Copyright: © 2020 Lippincott Williams and Wilkins. All rights reserved.

PY - 2020

Y1 - 2020

N2 - Objectives Based on our previous findings that postmenopausal women with estrone (E1) and estradiol (E2) concentrations at or above 1.3 pg/ml and 0.5 pg/ml, respectively, after 6 months of adjuvant anastrozole therapy had a three-fold risk of recurrence, we aimed to identify a single-nucleotide polymorphism (SNP)-based model that would predict elevated E1 and E2 and then validate it in an independent dataset. Patients and methods The test set consisted of 322 women from the M3 study and the validation set consisted of 152 patients from MA.27. All patients were treated with adjuvant anastrozole, had on-anastrozole E1 and E2 concentrations and genome-wide genotyping. Results SNPs were identified from the M3 genome-wide association study. The best model to predict the E1-E2 phenotype with high balanced accuracy was a support vector machine model using clinical factors plus 46 SNPs. We did not have an independent cohort that is similar to the M3 study with clinical, E1-E2 phenotypes and genotype data to test our model. Hence, we chose a nested matched case-control cohort (MA.27 study) for testing. Our E1-E2 model was not validated but we found the MA.27 validation cohort was both clinically and genomically different. Conclusions We identified a SNP-based model that had excellent performance characteristics for predicting the phenotype of elevated E1 and E2 in women treated with anastrozole. This model was not validated in an independent dataset but that dataset was clinically and genomically substantially different. The model will need validation in a prospective study.

AB - Objectives Based on our previous findings that postmenopausal women with estrone (E1) and estradiol (E2) concentrations at or above 1.3 pg/ml and 0.5 pg/ml, respectively, after 6 months of adjuvant anastrozole therapy had a three-fold risk of recurrence, we aimed to identify a single-nucleotide polymorphism (SNP)-based model that would predict elevated E1 and E2 and then validate it in an independent dataset. Patients and methods The test set consisted of 322 women from the M3 study and the validation set consisted of 152 patients from MA.27. All patients were treated with adjuvant anastrozole, had on-anastrozole E1 and E2 concentrations and genome-wide genotyping. Results SNPs were identified from the M3 genome-wide association study. The best model to predict the E1-E2 phenotype with high balanced accuracy was a support vector machine model using clinical factors plus 46 SNPs. We did not have an independent cohort that is similar to the M3 study with clinical, E1-E2 phenotypes and genotype data to test our model. Hence, we chose a nested matched case-control cohort (MA.27 study) for testing. Our E1-E2 model was not validated but we found the MA.27 validation cohort was both clinically and genomically different. Conclusions We identified a SNP-based model that had excellent performance characteristics for predicting the phenotype of elevated E1 and E2 in women treated with anastrozole. This model was not validated in an independent dataset but that dataset was clinically and genomically substantially different. The model will need validation in a prospective study.

KW - estrogen suppression

KW - predictive models

KW - single-nucleotide polymorphisms

UR - http://www.scopus.com/inward/record.url?scp=85095862607&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85095862607&partnerID=8YFLogxK

U2 - 10.1097/FPC.0000000000000415

DO - 10.1097/FPC.0000000000000415

M3 - Article

C2 - 32649577

AN - SCOPUS:85095862607

SN - 1744-6872

SP - 1

EP - 9

JO - Pharmacogenetics and Genomics

JF - Pharmacogenetics and Genomics

ER -

Single-nucleotide polymorphism biomarkers of adjuvant anastrozole-induced estrogen suppression in early breast cancer

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this