Risk of Breast Cancer Among Carriers of Pathogenic Variants in Breast Cancer Predisposition Genes Varies by Polygenic Risk Score

Chi Gao; Eric C. Polley; Steven N. Hart; Hongyan Huang; Chunling Hu; Rohan Gnanaolivu; Jenna Lilyquist; Nicholas J. Boddicker; Jie Na; Christine B. Ambrosone; Paul L. Auer; Leslie Bernstein; Elizabeth S. Burnside; A. Heather Eliassen; Mia M. Gaudet; Christopher Haiman; David J. Hunter; Eric J. Jacobs; Esther M. John; Sara Lindström; Huiyan Ma; Susan L. Neuhausen; Polly A. Newcomb; Katie M. O’Brien; Janet E. Olson; Irene M. Ong; Alpa V. Patel; Julie R. Palmer; Dale P. Sandler; Rulla Tamimi; Jack A. Taylor; Lauren R. Teras; Amy Trentham-Dietz; Celine M. Vachon; Clarice R. Weinberg; Song Yao; Jeffrey N. Weitzel; David E. Goldgar; Susan M. Domchek; Katherine L. Nathanson; Fergus J. Couch; Peter Kraft

doi:10.1200/JCO.20.01992

Risk of Breast Cancer Among Carriers of Pathogenic Variants in Breast Cancer Predisposition Genes Varies by Polygenic Risk Score

Chi Gao, Eric C. Polley, Steven N. Hart, Hongyan Huang, Chunling Hu, Rohan Gnanaolivu, Jenna Lilyquist, Nicholas J. Boddicker, Jie Na, Christine B. Ambrosone, Paul L. Auer, Leslie Bernstein, Elizabeth S. Burnside, A. Heather Eliassen, Mia M. Gaudet, Christopher Haiman, David J. Hunter, Eric J. Jacobs, Esther M. John, Sara LindströmHuiyan Ma, Susan L. Neuhausen, Polly A. Newcomb, Katie M. O’Brien, Janet E. Olson, Irene M. Ong, Alpa V. Patel, Julie R. Palmer, Dale P. Sandler, Rulla Tamimi, Jack A. Taylor, Lauren R. Teras, Amy Trentham-Dietz, Celine M. Vachon, Clarice R. Weinberg, Song Yao, Jeffrey N. Weitzel, David E. Goldgar, Susan M. Domchek, Katherine L. Nathanson, Fergus J. Couch, Peter Kraft

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

Abstract

PURPOSE This study assessed the joint association of pathogenic variants (PVs) in breast cancer (BC) predisposition genes and polygenic risk scores (PRS) with BC in the general population. METHODS A total of 26,798 non-Hispanic white BC cases and 26,127 controls from predominately population-based studies in the Cancer Risk Estimates Related to Susceptibility consortium were evaluated for PVs in BRCA1, BRCA2, ATM, CHEK2, PALB2, BARD1, BRIP1, CDH1, and NF1. PRS based on 105 common variants were created using effect estimates from BC genome-wide association studies; the performance of an overall BC PRS and estrogen receptor–specific PRS were evaluated. The odds of BC based on the PVs and PRS were estimated using penalized logistic regression. The results were combined with age-specific incidence rates to estimate 5-year and lifetime absolute risks of BC across percentiles of PRS by PV status and first-degree family history of BC. RESULTS The estimated lifetime risks of BC among general-population noncarriers, based on 10th and 90th percentiles of PRS, were 9.1%-23.9% and 6.7%-18.2% for women with or without first-degree relatives with BC, respectively. Taking PRS into account, more than 95% of BRCA1, BRCA2, and PALB2 carriers had . 20% lifetime risks of BC, whereas, respectively, 52.5% and 69.7% of ATM and CHEK2 carriers without first-degree relatives with BC, and 78.8% and 89.9% of those with a first-degree relative with BC had . 20% risk. CONCLUSION PRS facilitates personalization of BC risk among carriers of PVs in predisposition genes. Incorporating PRS into BC risk estimation may help identify . 30% of CHEK2 and nearly half of ATM carriers below the 20% lifetime risk threshold, suggesting the addition of PRS may prevent overscreening and enable more personalized risk management approaches.

Original language	English (US)
Pages (from-to)	2564-2573
Number of pages	10
Journal	Journal of Clinical Oncology
Volume	39
Issue number	23
DOIs	https://doi.org/10.1200/JCO.20.01992
State	Published - Aug 10 2021

ASJC Scopus subject areas

Oncology
Cancer Research

Access to Document

10.1200/JCO.20.01992

Cite this

Gao, C., Polley, E. C., Hart, S. N., Huang, H., Hu, C., Gnanaolivu, R., Lilyquist, J., Boddicker, N. J., Na, J., Ambrosone, C. B., Auer, P. L., Bernstein, L., Burnside, E. S., Eliassen, A. H., Gaudet, M. M., Haiman, C., Hunter, D. J., Jacobs, E. J., John, E. M., ... Kraft, P. (2021). Risk of Breast Cancer Among Carriers of Pathogenic Variants in Breast Cancer Predisposition Genes Varies by Polygenic Risk Score. Journal of Clinical Oncology, 39(23), 2564-2573. https://doi.org/10.1200/JCO.20.01992

Gao, C, Polley, EC, Hart, SN, Huang, H, Hu, C, Gnanaolivu, R, Lilyquist, J, Boddicker, NJ, Na, J, Ambrosone, CB, Auer, PL, Bernstein, L, Burnside, ES, Eliassen, AH, Gaudet, MM, Haiman, C, Hunter, DJ, Jacobs, EJ, John, EM, Lindström, S, Ma, H, Neuhausen, SL, Newcomb, PA, O’Brien, KM, Olson, JE, Ong, IM, Patel, AV, Palmer, JR, Sandler, DP, Tamimi, R, Taylor, JA, Teras, LR, Trentham-Dietz, A, Vachon, CM, Weinberg, CR, Yao, S, Weitzel, JN, Goldgar, DE, Domchek, SM, Nathanson, KL, Couch, FJ & Kraft, P 2021, 'Risk of Breast Cancer Among Carriers of Pathogenic Variants in Breast Cancer Predisposition Genes Varies by Polygenic Risk Score', Journal of Clinical Oncology, vol. 39, no. 23, pp. 2564-2573. https://doi.org/10.1200/JCO.20.01992

@article{a1f44b806c9140cbba58349e060d8bc1,

title = "Risk of Breast Cancer Among Carriers of Pathogenic Variants in Breast Cancer Predisposition Genes Varies by Polygenic Risk Score",

abstract = "PURPOSE This study assessed the joint association of pathogenic variants (PVs) in breast cancer (BC) predisposition genes and polygenic risk scores (PRS) with BC in the general population. METHODS A total of 26,798 non-Hispanic white BC cases and 26,127 controls from predominately population-based studies in the Cancer Risk Estimates Related to Susceptibility consortium were evaluated for PVs in BRCA1, BRCA2, ATM, CHEK2, PALB2, BARD1, BRIP1, CDH1, and NF1. PRS based on 105 common variants were created using effect estimates from BC genome-wide association studies; the performance of an overall BC PRS and estrogen receptor–specific PRS were evaluated. The odds of BC based on the PVs and PRS were estimated using penalized logistic regression. The results were combined with age-specific incidence rates to estimate 5-year and lifetime absolute risks of BC across percentiles of PRS by PV status and first-degree family history of BC. RESULTS The estimated lifetime risks of BC among general-population noncarriers, based on 10th and 90th percentiles of PRS, were 9.1%-23.9% and 6.7%-18.2% for women with or without first-degree relatives with BC, respectively. Taking PRS into account, more than 95% of BRCA1, BRCA2, and PALB2 carriers had . 20% lifetime risks of BC, whereas, respectively, 52.5% and 69.7% of ATM and CHEK2 carriers without first-degree relatives with BC, and 78.8% and 89.9% of those with a first-degree relative with BC had . 20% risk. CONCLUSION PRS facilitates personalization of BC risk among carriers of PVs in predisposition genes. Incorporating PRS into BC risk estimation may help identify . 30% of CHEK2 and nearly half of ATM carriers below the 20% lifetime risk threshold, suggesting the addition of PRS may prevent overscreening and enable more personalized risk management approaches.",

author = "Chi Gao and Polley, {Eric C.} and Hart, {Steven N.} and Hongyan Huang and Chunling Hu and Rohan Gnanaolivu and Jenna Lilyquist and Boddicker, {Nicholas J.} and Jie Na and Ambrosone, {Christine B.} and Auer, {Paul L.} and Leslie Bernstein and Burnside, {Elizabeth S.} and Eliassen, {A. Heather} and Gaudet, {Mia M.} and Christopher Haiman and Hunter, {David J.} and Jacobs, {Eric J.} and John, {Esther M.} and Sara Lindstr{\"o}m and Huiyan Ma and Neuhausen, {Susan L.} and Newcomb, {Polly A.} and O{\textquoteright}Brien, {Katie M.} and Olson, {Janet E.} and Ong, {Irene M.} and Patel, {Alpa V.} and Palmer, {Julie R.} and Sandler, {Dale P.} and Rulla Tamimi and Taylor, {Jack A.} and Teras, {Lauren R.} and Amy Trentham-Dietz and Vachon, {Celine M.} and Weinberg, {Clarice R.} and Song Yao and Weitzel, {Jeffrey N.} and Goldgar, {David E.} and Domchek, {Susan M.} and Nathanson, {Katherine L.} and Couch, {Fergus J.} and Peter Kraft",

note = "Publisher Copyright: {\textcopyright} 2021 by American Society of Clinical Oncology.",

year = "2021",

month = aug,

day = "10",

doi = "10.1200/JCO.20.01992",

language = "English (US)",

volume = "39",

pages = "2564--2573",

journal = "Journal of Clinical Oncology",

issn = "0732-183X",

publisher = "American Society of Clinical Oncology",

number = "23",

}

TY - JOUR

T1 - Risk of Breast Cancer Among Carriers of Pathogenic Variants in Breast Cancer Predisposition Genes Varies by Polygenic Risk Score

AU - Gao, Chi

AU - Polley, Eric C.

AU - Hart, Steven N.

AU - Huang, Hongyan

AU - Hu, Chunling

AU - Gnanaolivu, Rohan

AU - Lilyquist, Jenna

AU - Boddicker, Nicholas J.

AU - Na, Jie

AU - Ambrosone, Christine B.

AU - Auer, Paul L.

AU - Bernstein, Leslie

AU - Burnside, Elizabeth S.

AU - Eliassen, A. Heather

AU - Gaudet, Mia M.

AU - Haiman, Christopher

AU - Hunter, David J.

AU - Jacobs, Eric J.

AU - John, Esther M.

AU - Lindström, Sara

AU - Ma, Huiyan

AU - Neuhausen, Susan L.

AU - Newcomb, Polly A.

AU - O’Brien, Katie M.

AU - Olson, Janet E.

AU - Ong, Irene M.

AU - Patel, Alpa V.

AU - Palmer, Julie R.

AU - Sandler, Dale P.

AU - Tamimi, Rulla

AU - Taylor, Jack A.

AU - Teras, Lauren R.

AU - Trentham-Dietz, Amy

AU - Vachon, Celine M.

AU - Weinberg, Clarice R.

AU - Yao, Song

AU - Weitzel, Jeffrey N.

AU - Goldgar, David E.

AU - Domchek, Susan M.

AU - Nathanson, Katherine L.

AU - Couch, Fergus J.

AU - Kraft, Peter

PY - 2021/8/10

Y1 - 2021/8/10

N2 - PURPOSE This study assessed the joint association of pathogenic variants (PVs) in breast cancer (BC) predisposition genes and polygenic risk scores (PRS) with BC in the general population. METHODS A total of 26,798 non-Hispanic white BC cases and 26,127 controls from predominately population-based studies in the Cancer Risk Estimates Related to Susceptibility consortium were evaluated for PVs in BRCA1, BRCA2, ATM, CHEK2, PALB2, BARD1, BRIP1, CDH1, and NF1. PRS based on 105 common variants were created using effect estimates from BC genome-wide association studies; the performance of an overall BC PRS and estrogen receptor–specific PRS were evaluated. The odds of BC based on the PVs and PRS were estimated using penalized logistic regression. The results were combined with age-specific incidence rates to estimate 5-year and lifetime absolute risks of BC across percentiles of PRS by PV status and first-degree family history of BC. RESULTS The estimated lifetime risks of BC among general-population noncarriers, based on 10th and 90th percentiles of PRS, were 9.1%-23.9% and 6.7%-18.2% for women with or without first-degree relatives with BC, respectively. Taking PRS into account, more than 95% of BRCA1, BRCA2, and PALB2 carriers had . 20% lifetime risks of BC, whereas, respectively, 52.5% and 69.7% of ATM and CHEK2 carriers without first-degree relatives with BC, and 78.8% and 89.9% of those with a first-degree relative with BC had . 20% risk. CONCLUSION PRS facilitates personalization of BC risk among carriers of PVs in predisposition genes. Incorporating PRS into BC risk estimation may help identify . 30% of CHEK2 and nearly half of ATM carriers below the 20% lifetime risk threshold, suggesting the addition of PRS may prevent overscreening and enable more personalized risk management approaches.

AB - PURPOSE This study assessed the joint association of pathogenic variants (PVs) in breast cancer (BC) predisposition genes and polygenic risk scores (PRS) with BC in the general population. METHODS A total of 26,798 non-Hispanic white BC cases and 26,127 controls from predominately population-based studies in the Cancer Risk Estimates Related to Susceptibility consortium were evaluated for PVs in BRCA1, BRCA2, ATM, CHEK2, PALB2, BARD1, BRIP1, CDH1, and NF1. PRS based on 105 common variants were created using effect estimates from BC genome-wide association studies; the performance of an overall BC PRS and estrogen receptor–specific PRS were evaluated. The odds of BC based on the PVs and PRS were estimated using penalized logistic regression. The results were combined with age-specific incidence rates to estimate 5-year and lifetime absolute risks of BC across percentiles of PRS by PV status and first-degree family history of BC. RESULTS The estimated lifetime risks of BC among general-population noncarriers, based on 10th and 90th percentiles of PRS, were 9.1%-23.9% and 6.7%-18.2% for women with or without first-degree relatives with BC, respectively. Taking PRS into account, more than 95% of BRCA1, BRCA2, and PALB2 carriers had . 20% lifetime risks of BC, whereas, respectively, 52.5% and 69.7% of ATM and CHEK2 carriers without first-degree relatives with BC, and 78.8% and 89.9% of those with a first-degree relative with BC had . 20% risk. CONCLUSION PRS facilitates personalization of BC risk among carriers of PVs in predisposition genes. Incorporating PRS into BC risk estimation may help identify . 30% of CHEK2 and nearly half of ATM carriers below the 20% lifetime risk threshold, suggesting the addition of PRS may prevent overscreening and enable more personalized risk management approaches.

UR - http://www.scopus.com/inward/record.url?scp=85112327018&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85112327018&partnerID=8YFLogxK

U2 - 10.1200/JCO.20.01992

DO - 10.1200/JCO.20.01992

M3 - Article

C2 - 34101481

AN - SCOPUS:85112327018

SN - 0732-183X

VL - 39

SP - 2564

EP - 2573

JO - Journal of Clinical Oncology

JF - Journal of Clinical Oncology

IS - 23

ER -

Risk of Breast Cancer Among Carriers of Pathogenic Variants in Breast Cancer Predisposition Genes Varies by Polygenic Risk Score

Abstract

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Cite this