Abstract
Somatic driver mutations in TP53 are associated with triple-negative breast cancer (TNBC) and poorer outcomes. Breast cancers in women of African ancestry (AA) are more likely to be TNBC and have somatic TP53 mutations than cancers in non-Hispanic White (NHW) women. Missense driver mutations in TP53 have varied functional impact including loss-of-function (LOF) or gain-of-function (GOF) activity, and dominant negative (DNE) effects. We aimed to determine if there were differences in somatic TP53 mutation types by patient ancestry or TNBC status. We identified breast cancer datasets with somatic TP53 mutation data, ancestry, age, and hormone receptor status. Mutations were classified for functional impact using published data and type of mutation. We assessed differences using Fisher's exact test. From 96 breast cancer studies, we identified 2964 women with somatic TP53 mutations: 715 (24.1%) Asian, 258 (8.7%) AA, 1931 (65.2%) NHW, and 60 (2%) Latina. The distribution of TP53 mutation type was similar by ancestry. However, 35.8% of tumors from NHW individuals had GOF mutations compared to 29% from AA individuals (p = 0.04). Mutations with DNE activity were positively associated with TNBC (OR 1.37, p = 0.03) and estrogen receptor (ER) negative status (OR 1.38; p = 0.005). Somatic TP53 mutation types did not differ by ancestry overall, but GOF mutations were more common in NHW women than AA women. ER-negative and TNBC tumors are less likely to have DNE+ TP53 mutations which could reflect biological processes. Larger cohorts and functional studies are needed to further elucidate these findings.
Highlights
Tumor protein 53, encoded by TP53, is a transcription factor with tumor suppressive activity that regulates target genes in response to cellular stress
35.8% of tumors from non-Hispanic White (NHW) individuals had GOF mutations compared to 29% in African ancestry (AA) individuals (p=0.04)
Mutations lacking dominant negative (DNE) activity were positively associated with triple negative breast cancer (TNBC) (OR=1.37, p=0.03) and estrogen receptor (ER) negative status (OR=1.38; p=0.005)
Summary
Tumor protein 53, encoded by TP53, is a transcription factor with tumor suppressive activity that regulates target genes in response to cellular stress. Pathogenic somatic mutations in TP53 often disrupt DNA binding capability, impair transcriptional activity and result in other loss-of-function (LOF) effects. A subset of missense somatic variants lead to new gain-of-function (GOF) activities. TP53 missense mutations can display dominant negative activity (DNE), in which one mutant TP53 protein disrupts the activity of the non-mutant protein during tetramerization. This effect is more common at hotspot mutation sites and may contribute to accelerated loss of heterozygosity and tumor progression [11]. Somatic driver mutations in TP53 are associated with triple negative breast cancer (TNBC) and poorer outcomes. Missense driver mutations in TP53 are known to have different functional effects including loss-of function (LOF) or gainof-function (GOF) activity. A subset of variants exhibit dominant negative (DNE) activity over wildtype TP53 or other TP53 family members
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