Somatic mutations in the DNA repairome in prostate cancers in African Americans and Caucasians

Santosh Yadav,Wei Jiang,Carol Woods,Sudurika Mukhopadhyay,Nick Makridakis,Krzysztof Moroz,Vinodh K Chellamuthu,Muralidharan Anbalagan,Erik K Flemington,Melody Baddoo

doi:10.1038/s41388-020-1280-x

Abstract

Most hereditary tumors show aberrations in DNA repair genes or their regulators. In contrast, only a minority of sporadic tumors show alterations in these genes. As a result, genomic instability is currently considered an enhancer of tumorigenesis rather than an obligatory event in this process. However, tumor heterogeneity presents a significant technical challenge for most cancer genomics studies performed at less than 100× mean resolution depth. To address the importance of genomic instability in prostate carcinogenesis and tumor progression, we performed ultrahigh depth exome sequencing of 124 DNA damage repair/response (repairome) genes in 63 tumors and matched normal tissue samples in African Americans and Caucasians. The average sequence depth was 712-fold for DNA isolated from normal tissue and 368-fold for FFPE tumors. We identified 671 somatic mutations in tumors from African Americans and 762 somatic mutations in tumors in Caucasians. The most frequently mutated DNA repairome genes were EXO1, ATR, POLQ, NEIL3, ERCC6, BRCA2, BRCA1, XPC, JAG1, RPA1, POLE, ATM, and LIG1 in African American men, and POLQ, NEIL3, POLB, BRCA2, EXO1, ERCC6, ATR, RBBP8, BRCA1, ATM, JAG1, XPC, and POLE in Caucasians. We found that 89% of tumors had at least one mutation in nucleotide excision repair pathway genes in African Americans, whereas >40% of tumors had mutations in base excision repair pathway genes in Caucasians. We further identified a marginal increase in mutation rate in tumors in African Americans with increasing age. Tumors in Caucasians did not show a correlation with age, but a progressive increase in the mutation rate was observed at higher Gleason scores. Our data reveal significant differences in the molecular signatures in the DNA repairome in prostate cancer between African Americans and Caucasians. These data also have substantial implications regarding the well-known health disparities in prostate cancer, such as the higher mortality in African Americans than Caucasians.

Highlights

IntroductionLouisiana Cancer Research Center, New Orleans, LA, USA 2 Tulane Center for Aging, Department of Medicine, Tulane
Supplementary information The online version of this article contains supplementary material, which is available to authorized users.Louisiana Cancer Research Center, New Orleans, LA, USA 2 Tulane Center for Aging, Department of Medicine, TulaneUniversity, New Orleans, LA, USAProstate cancer (PCa) is the most common type of cancer in men in USA (164,690 estimated new cases and 29,430 mortalities in 2018, according to the Surveillance, Epidemiology, and End Results database, National Cancer Institute)
To address the importance of genomic instability in human prostate carcinogenesis, we deep sequenced the exons of 124 genes involved in the DNA damage repair/ response in 52 PCas and matched normal tissue samples, at very high resolution (312–768 average read depth)

Summary

Introduction

Louisiana Cancer Research Center, New Orleans, LA, USA 2 Tulane Center for Aging, Department of Medicine, Tulane. Prostate cancer (PCa) is the most common type of cancer in men in USA (164,690 estimated new cases and 29,430 mortalities in 2018, according to the Surveillance, Epidemiology, and End Results database, National Cancer Institute). Why some tumors are more unstable than others, or what exactly causes this instability, remains unclear

Objectives

Methods

Results

Conclusion