TY - JOUR
T1 - Incidence of breast cancer and its subtypes in relation to individual and multiple low-penetrance genetic susceptibility loci
AU - Reeves, Gillian K.
AU - Travis, Ruth C.
AU - Green, Jane
AU - Bull, Diana
AU - Tipper, Sarah
AU - Baker, Krys
AU - Beral, Valerie
AU - Peto, Richard
AU - Bell, John
AU - Zelenika, Diana
AU - Lathrop, Mark
AU - Banks, Emily
PY - 2010/7/28
Y1 - 2010/7/28
N2 - Context: There is limited evidence on how the risk of breast cancer and its subtypes depend on low-penetrance susceptibility loci, individually or in combination. Objective: To analyze breast cancer risk, overall and by tumor subtype, in relation to 14 individual single-nucleotide polymorphisms (SNPs) previously linked to the disease, and in relation to a polygenic risk score. Design, Setting, and Participants: Study of 10 306 women with breast cancer (mean age at diagnosis, 58 years) and 10 393 women without breast cancer who in 2005-2008 provided blood samples for genotyping in a large prospective study of UK women; and meta-analysis of these results and of other published results. Main Outcome Measures: Estimated per-allele odds ratio (OR) for individual SNPs, and cumulative incidence of breast cancer to age 70 years in relation to a polygenic risk score based on the 4, 7, or 10 SNPs most strongly associated with risk. Results: Odds ratios for breast cancer were greatest for FGFR2-rs2981582 and TNRC9-rs3803662 and, for these 2 SNPs, were significantly greater for estrogen receptor (ER) - positive than for ER-negative disease, both in our data and in metaanalyses of all published data (pooled per-allele ORs [95% confidence intervals] for ER-positive vs ER-negative disease: 1.30 [1.26-1.33] vs 1.05 [1.01-1.10] for FGFR2; interaction P<.001; and 1.24 [1.21-1.28] vs 1.12 [1.07-1.17] for TNRC9; interaction P<.001). The next strongest association was for 2q-rs13387042, for which the per-allele OR was significantly greater for bilateral than unilateral disease (1.39 [1.21-1.60] vs 1.15 [1.11-1.20]; interaction P=.008) and for lobular than ductal tumors (1.35 [1.23-1.49] vs 1.10 [1.05-1.15]; interaction P<.001). The estimated cumulative incidence (95% confidence interval) of breast cancer to age 70 years among women in the top and bottom fifths of a polygenic risk score based on 7 SNPs was 8.8% (8.3%-9.4%) and 4.4% (4.2%-4.8%), respectively. For ER-positive disease the corresponding risks were 7.4% (6.9%-8.0%) and 3.4% (3.1%-3.8%), respectively; while for ER-negative disease they were 1.4% (1.2%-1.6%) and 1.0% (0.8%-1.2%). The findings did not differ materially according to the number of SNPs included in the polygenic risk model. Conclusions: The polygenic risk score was substantially more predictive of ERpositive than of ER-negative breast cancer, particularly for absolute risk.
AB - Context: There is limited evidence on how the risk of breast cancer and its subtypes depend on low-penetrance susceptibility loci, individually or in combination. Objective: To analyze breast cancer risk, overall and by tumor subtype, in relation to 14 individual single-nucleotide polymorphisms (SNPs) previously linked to the disease, and in relation to a polygenic risk score. Design, Setting, and Participants: Study of 10 306 women with breast cancer (mean age at diagnosis, 58 years) and 10 393 women without breast cancer who in 2005-2008 provided blood samples for genotyping in a large prospective study of UK women; and meta-analysis of these results and of other published results. Main Outcome Measures: Estimated per-allele odds ratio (OR) for individual SNPs, and cumulative incidence of breast cancer to age 70 years in relation to a polygenic risk score based on the 4, 7, or 10 SNPs most strongly associated with risk. Results: Odds ratios for breast cancer were greatest for FGFR2-rs2981582 and TNRC9-rs3803662 and, for these 2 SNPs, were significantly greater for estrogen receptor (ER) - positive than for ER-negative disease, both in our data and in metaanalyses of all published data (pooled per-allele ORs [95% confidence intervals] for ER-positive vs ER-negative disease: 1.30 [1.26-1.33] vs 1.05 [1.01-1.10] for FGFR2; interaction P<.001; and 1.24 [1.21-1.28] vs 1.12 [1.07-1.17] for TNRC9; interaction P<.001). The next strongest association was for 2q-rs13387042, for which the per-allele OR was significantly greater for bilateral than unilateral disease (1.39 [1.21-1.60] vs 1.15 [1.11-1.20]; interaction P=.008) and for lobular than ductal tumors (1.35 [1.23-1.49] vs 1.10 [1.05-1.15]; interaction P<.001). The estimated cumulative incidence (95% confidence interval) of breast cancer to age 70 years among women in the top and bottom fifths of a polygenic risk score based on 7 SNPs was 8.8% (8.3%-9.4%) and 4.4% (4.2%-4.8%), respectively. For ER-positive disease the corresponding risks were 7.4% (6.9%-8.0%) and 3.4% (3.1%-3.8%), respectively; while for ER-negative disease they were 1.4% (1.2%-1.6%) and 1.0% (0.8%-1.2%). The findings did not differ materially according to the number of SNPs included in the polygenic risk model. Conclusions: The polygenic risk score was substantially more predictive of ERpositive than of ER-negative breast cancer, particularly for absolute risk.
UR - http://www.scopus.com/inward/record.url?scp=77954971172&partnerID=8YFLogxK
U2 - 10.1001/jama.2010.1042
DO - 10.1001/jama.2010.1042
M3 - Article
SN - 0098-7484
VL - 304
SP - 426
EP - 434
JO - JAMA - Journal of the American Medical Association
JF - JAMA - Journal of the American Medical Association
IS - 4
ER -