Case-Case Genome-Wide Analyses Identify Subtype-Informative Variants That Confer Risk for Breast Cancer

Authors

Xiaohui Sun
Shiv P Verma
Guochong Jia
Xinjun Wang
Jie Ping
Xingyi Guo
Xiao-Ou Shu
Jianhong Chen
Andriy Derkach
Qiuyin Cai
Xiaolin Liang
Jirong Long
Kenneth Offit
Jung H Oh
Anne S Reiner
Gordon P Watt
Meghan Woods
Yaohua Yang
Christine B Ambrosone
Stefan Ambs
Yu Chen
Patrick Concannon
Montserrat Garcia-Closas
Jian Gu
Christopher A Haiman
Jennifer J Hu
Dezheng Huo
Esther M John
Julia A Knight
Christopher I Li
Charles F Lynch
Lene Mellemkjær
Katherine L Nathanson
Barbara Nemesure
Olufunmilayo I Olopade
Andrew F Olshan
Tuya Pal
Julie R Palmer
Michael F Press
Maureen Sanderson
Dale P Sandler
Melissa A Troester
Wei Zheng
Jonine L Bernstein
Matthew F Buas
Xiang Shu

Publication Date

8-1-2024

Journal

Cancer Research

Abstract

Breast cancer includes several subtypes with distinct characteristic biological, pathologic, and clinical features. Elucidating subtype-specific genetic etiology could provide insights into the heterogeneity of breast cancer to facilitate the development of improved prevention and treatment approaches. In this study, we conducted pairwise case-case comparisons among five breast cancer subtypes by applying a case-case genome-wide association study (CC-GWAS) approach to summary statistics data of the Breast Cancer Association Consortium. The approach identified 13 statistically significant loci and eight suggestive loci, the majority of which were identified from comparisons between triple-negative breast cancer (TNBC) and luminal A breast cancer. Associations of lead variants in 12 loci remained statistically significant after accounting for previously reported breast cancer susceptibility variants, among which, two were genome-wide significant. Fine mapping implicated putative functional/causal variants and risk genes at several loci, e.g., 3q26.31/TNFSF10, 8q22.3/NACAP1/GRHL2, and 8q23.3/LINC00536/TRPS1, for TNBC as compared with luminal cancer. Functional investigation further identified rs16867605 at 8q22.3 as a SNP that modulates the enhancer activity of GRHL2. Subtype-informative polygenic risk scores (PRS) were derived, and patients with a high subtype-informative PRS had an up to two-fold increased risk of being diagnosed with TNBC instead of luminal cancers. The CC-GWAS PRS remained statistically significant after adjusting for TNBC PRS derived from traditional case-control GWAS in The Cancer Genome Atlas and the African Ancestry Breast Cancer Genetic Consortium. The CC-GWAS PRS was also associated with overall survival and disease-specific survival among patients with breast cancer. Overall, these findings have advanced our understanding of the genetic etiology of breast cancer subtypes, particularly for TNBC. Significance: The discovery of subtype-informative genetic risk variants for breast cancer advances our understanding of the etiologic heterogeneity of breast cancer, which could accelerate the identification of targets and personalized strategies for prevention and treatment.

Keywords

Humans, Genome-Wide Association Study, Female, Genetic Predisposition to Disease, Polymorphism, Single Nucleotide, Breast Neoplasms, Triple Negative Breast Neoplasms, Case-Control Studies, Risk Factors

DOI

10.1158/0008-5472.CAN-23-3854

PMID

38832928

PMCID

PMC11293972

PubMedCentral® Posted Date

2-1-2025

PubMedCentral® Full Text Version

Author MSS

Published Open-Access

yes