Application of new genomic technologies to breast cancer risk assessment Book Section

  


Author: Robson, M.
Editors: Benson, J. R.; Gui, G.; Tuttle, T. M.
Article/Chapter Title: Application of new genomic technologies to breast cancer risk assessment
Abstract: Since the genetic contribution to variance in the risk of breast cancer cannot be explained by mutations in known susceptibility genes, a number of investigators reasoned that common variants could be responsible (the common diseasecommon variant hypothesis). The development of technologies that rapidly genotype large numbers of individuals at large numbers of loci gave rise to the era of genome-wide association studies (GWAS) that were intended to test this hypothesis and define the responsible variants. GWAS are essentially case-control studies that compare the frequencies of hundred of thousands to millions of different genetic variants in affected and unaffected individuals (5). The approach has proven to be enormously successful, and as of the second quarter of 2011 there were 1449 published associations for 237 traits, including breast cancer (http://www.genome.gov/gwastudies/; accessed April 14, 2012). Nonetheless, there are significant limitations to GWAS. First, the number of comparisons requires a high level of stringency in reporting statistical significance, to avoid false discovery. For discovery studies, a P value for comparison of 10-7 or greater is usually required (6), and even at this level a number of loci that are significant in the first stage of a study do not replicate in subsequent validation phases. There are two implications of this. The first is that a number of loci that do influence risk may fail to rise to the level of significance required, and thus be missed. The second is that the loci that are identified may have associated odds ratios that are at the higher end of their actual effect sizes. This phenomenon is known as “the winner’s curse,” and has implications for the use of published odds ratios in risk prediction models. Another limitation of GWAS is that they are not able to identify associations with rare variants (minor allele frequencies less than 5%), even with large numbers of cases and controls. This has implications for the problem of “missing heritability,” to be discussed later. Third, it appears that the variants discovered through GWAS are not, in most cases, the causal variants that are actually responsible for the increase in risk. In fact, the exploration of mechanisms by which common and European-Americans from the United States. Two SNPs (rs13387042, 2q35 and rs3803662, 16q12) showed significant associations in all analyses. This study was particularly signifi- cant as it was the first to note that these variants were associated with estrogen receptor (ER) positive breast cancer, but not ER negative cancer, suggesting that the influence of common variants on breast cancer risk could be subtype specific. A follow-up analysis from the Breast Cancer Association Consortium, however, found that rs13387042 was associated with increased risks of both ER-positive and ER-negative breast cancer (12). Stacey et al. also noted a signal from an SNP in the 5q12 which did not reach genome-wide significance in their replication phases, but that was also somewhat correlated in GWAS from other groups. In a follow-up analysis of 5028 cases and 32,090 controls of European ancestry, the relevance of 5p12 SNPs rs4415084 and rs10941679 was demonstrated more definitively (13). Again, the association was confined to ER-positive breast cancer. In fact, a follow-up study by the Breast Cancer Association Consortium suggested that the association was largely with progesterone receptor positive cancers, with a stronger association with lower grade tumors (14). In this analysis, the group also evaluated the subtype specificity of rs1219648 in FGFR2 and found that the risk of this SNP was also confined to ER-positive cancer. © 2013 by Taylor & Francis Group, LLC.
Book Title: Early Breast Cancer: From Screening to Multidisciplinary Management. 3rd ed
ISBN: 9781841848860
Publisher: CRC Press  
Publication Place: Boca Raton, FL
Date Published: 2013-01-01
Start Page: 28
End Page: 38
Language: English
PROVIDER: scopus
DOI/URL:

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85054707090&doi=10.1201%2fb13937&partnerID=40&md5=ca191c39629c4383b6428bb5a0da4372
Notes: DOI: 10.1201/b13937 -- Book Chapter: 4 -- Export Date: 1 November 2018 -- Source: Scopus