Genetic ancestry-specific Molecular and Survival Differences in Admixed Breast Cancer Patients
Aristeidis G. Telonis, Daniel A. Rodriguez, Philip M. Spanheimer, Maria E. Figueroa, Neha Goel- Surgery
Objective:
We aim to determine whether incremental changes in genetic ancestry percentages influence molecular and clinical outcome characteristics of breast cancer in an admixed population.
Summary Background Data:
Breast cancer patients are predominantly characterized as “Black” or “White” based on self-identified race/ethnicity or arbitrary genetic ancestry cutoffs. This limits scientific discovery in populations that are admixed or of mixed race/ethnicity as they cannot be classified based on historical race/ethnicity boxes or genetic ancestry cutoffs.
Methods:
We used the TCGA cohort and focused on genetically admixed patients that had less than 90% European, African, Asian, or Native American ancestry.
Results:
Genetically admixed breast cancer patients exhibited improved 10-year overall survival relative to those with>90% European ancestry. Within the luminal A subtype, patients with lower African ancestry had longer 10-year overall survival compared to those with higher African ancestry. Correlation of genetic ancestry with gene expression and DNA methylation in the admixed cohort revealed novel ancestry-specific intrinsic PAM50 subtype patterns. In luminal A tumors, genetic ancestry was correlated with both the expression and methylation of signaling genes, while in basal-like tumors, genetic ancestry was correlated with stemness genes. In addition, we took a machine-learning approach to estimate genetic ancestry from gene expression or DNA methylation, and were able to accurately calculate ancestry values from a reduced set of 10 genes or 50 methylation sites that were specific for each molecular subtype.
Conclusions:
Our results suggest that incremental changes in genetic ancestry percentages result in ancestry-specific molecular differences even between well-established PAM50 subtypes which may influence disparities in breast cancer survival outcomes. Accounting for incremental changes in ancestry will be important in future research, prognostication, and risk-stratification, particularly in ancestrally diverse populations.