Abstract 6115: Genetic ancestry specific meQTLs control immune function regulation in a breast cancer cohort of African and European patients

Abstract

Abstract Black women with significant African ancestry experience a disproportionately higher incidence of the most aggressive and invasive breast cancer subtypes, along with worse clinical outcomes across all demographic groups within the United States. These health disparities arise from complex interactions between genetic, sociocultural, and environmental factors. Epigenetic mechanisms, such as DNA methylation (DNAm), which regulate gene expression have been proposed as a means to capture the molecular impact of adverse environments on tumor biology. While DNAm levels can be influenced by environmental stimuli, they are also regulated by individual genotypes at methylation quantitative trait loci (meQTLs), posing a challenge to modeling the impact of the environment on cancer molecular characteristics. We hypothesized that ancestry differential DNAm in breast cancer is a result of differential genotype frequencies of SNPs due to ancestry at meQTL loci that can result in phenotypic differences between breast cancer patients of African and European ancestry through differential gene expression regulation. To investigate this hypothesis, we leveraged multi-omic data from The Cancer Genome Atlas (TCGA) breast cancer cohort to perform integrative analysis in patients of European and African ancestry (n=578). 804 CpGs were significantly differentially methylated between European and African ancestry breast cancer patients. meQTL analysis at these sites identified 37 cis-meQTLs and 748 trans-meQTLs, regulating methylation at CpG sites enriched in CpG Islands, enhancers, and other open chromatin regions. 54% of the cis- and 69% of the trans-meQTLs show evidence of differential genotype frequencies by ancestry. Association analysis between methylation and local gene expression revealed that 683 of the 804 ancestry differentially methylated sites regulate the expression of 5,774 genes. We found a statistically significant enrichment for genes involved in immune-related functions such as MHC class II protein complex assembly and the regulation of leukocyte cell-cell adhesion. Intriguingly, 10.5% of these genes encode transcription factors (TFs), and out of these ~23% are linked to African-ancestry specific open chromatin regions in breast cancer cell lines derived from African-ancestry donors. Our findings show that ancestry specific DNAm differences display strong genetic associations via ancestry associated meQTLs, affecting fundamental immunological processes in breast cancer. Our findings suggest that the effects of ancestry-specific genetic regulation may be more profound than previously appreciated, while pointing to the potential for confounding due to genetic ancestry when using DNA methylation as a molecular readout of environmental exposures. Citation Format: Kyriaki Founta, Nyasha Chambwe. Genetic ancestry specific meQTLs control immune function regulation in a breast cancer cohort of African and European patients [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 6115.