Next-Generation Sequencing-based genomic profiling of brain metastases of primary ovarian cancer identifies high number of BRCA-mutations

S Balendran,S Liebmann-Reindl,L Kenner,C B Geier,B Streubel,M Preusser,T Reischer,A S Berghoff,N Popitsch,P Birner

doi:10.1007/s11060-017-2459-z

Abstract

Ovarian cancer represents the most common gynaecological malignancy and has the highest mortality of all female reproductive cancers. It has a rare predilection to develop brain metastases (BM). In this study, we evaluated the mutational profile of ovarian cancer metastases through Next-Generation Sequencing (NGS) with the aim of identifying potential clinically actionable genetic alterations with options for small molecule targeted therapy. Library preparation was conducted using Illumina TruSight Rapid Capture Kit in combination with a cancer specific enrichment kit covering 94 genes. BRCA-mutations were confirmed by using TruSeq Custom Amplicon Low Input Kit in combination with a custom-designed BRCA gene panel. In our cohort all eight sequenced BM samples exhibited a multitude of variant alterations, each with unique molecular profiles. The 37 identified variants were distributed over 22 cancer-related genes (23.4%). The number of mutated genes per sample ranged from 3 to 7 with a median of 4.5. The most commonly altered genes were BRCA1/2, TP53, and ATM. In total, 7 out of 8 samples revealed either a BRCA1 or a BRCA2 pathogenic mutation. Furthermore, all eight BM samples showed mutations in at least one DNA repair gene. Our NGS study of BM of ovarian carcinoma revealed a significant number of BRCA-mutations beside TP53, ATM and CHEK2 mutations. These findings strongly suggest the implication of BRCA and DNA repair malfunction in ovarian cancer metastasizing to the brain. Based on these findings, pharmacological PARP inhibition could be one potential targeted therapeutic for brain metastatic ovarian cancer patients.

Highlights

Electronic supplementary material The online version of this article contains supplementary material, which is available to authorized users.Ovarian cancer (OC) represents the most common gynaecological malignancy and has the highest mortality in the10 Ludwig Boltzmann Institute for Cancer Research LBI-CR, Vienna, Austria1 3 Vol.:(0123456789)J Neurooncol (2017) 133:469–476 developed world [1]
We evaluated the mutational profile of OC metastases through Next-Generation Sequencing (NGS) with the aim of identifying potential clinically actionable genetic alterations with options for small molecule targeted therapy
When focusing on the 94 genes analyzed in the brain metastases (BM) samples, we found the median number of gene mutations per primary tumor biopsies (PT) sample and median number of mutated genes to be 1.0

Summary

Introduction

Ovarian cancer (OC) represents the most common gynaecological malignancy and has the highest mortality in the. 10 Ludwig Boltzmann Institute for Cancer Research LBI-CR, Vienna, Austria. More than 70% of OCs are diagnosed in advanced stages with detectable transperitoneal spread [4]. The 5-year survival rate is approximately 30% [5]. Despite progress in the diagnosis and treatment of these tumors, the rates of relapse and distant metastasis remain high [1]. Given the high recurrence rate and poor long-term survival of women with advanced stage disease, there is a strong need to document the unique metastatic patterns of epithelial OC by comparing the differences in genetic profiles between primary and metastatic tissue specimens [6]

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