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Using genome and transcriptome data from African-ancestry female participants to identify putative breast cancer susceptibility genes.

Jie PingGuochong JiaQiuyin CaiXingyi GuoRan TaoChristine B AmbrosoneDezheng HuoStefan AmbsMollie E BarnardYu ChenMontserrat Garcia-ClosasJian GuJennifer J HuEsther M JohnChristopher I LiKatherine L NathansonBarbara NemesureOlufunmilayo I OlopadeTuya PalMichael F PressMaureen SandersonDale R SandlerToshio YoshimatsuPrisca O AdejumoThomas U AhearnAbenaa M BrewsterAnselm J M HennisTimothy MakumbiPaul NdomKatie M O'BrienAndrew F OlshanMojisola M OluwasanuSonya ReidSong YaoEboneé N ButlerMaosheng HuangAtara I NtekimBingshan LiMelissa A TroesterJulie R PalmerChristopher A HaimanJirong LongQuan Long
Published in: Nature communications (2024)
African-ancestry (AA) participants are underrepresented in genetics research. Here, we conducted a transcriptome-wide association study (TWAS) in AA female participants to identify putative breast cancer susceptibility genes. We built genetic models to predict levels of gene expression, exon junction, and 3' UTR alternative polyadenylation using genomic and transcriptomic data generated in normal breast tissues from 150 AA participants and then used these models to perform association analyses using genomic data from 18,034 cases and 22,104 controls. At Bonferroni-corrected P < 0.05, we identified six genes associated with breast cancer risk, including four genes not previously reported (CTD-3080P12.3, EN1, LINC01956 and NUP210L). Most of these genes showed a stronger association with risk of estrogen-receptor (ER) negative or triple-negative than ER-positive breast cancer. We also replicated the associations with 29 genes reported in previous TWAS at P < 0.05 (one-sided), providing further support for an association of these genes with breast cancer risk. Our study sheds new light on the genetic basis of breast cancer and highlights the value of conducting research in AA populations.
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