Whole genome sequencing of HER2+ metastatic breast cancer and CNA comparison between long term survivor and short-term survivor.

Abstract

e13019 Background: The introduction of anti-HER2 therapies such as trastuzumab for HER2+ metastatic breast cancer (MBC) has led to significant improvements to disease progression. We and others have reported long-term durable complete response to trastuzumab in patients with HER2+ MBC. We hypothesise that genomic copy number alteration (CNA) and tumour mutational burden (TMB) may act as a prognostic measure of predicting response to trastuzumab in long-term survivors (LTS) compared to short-term survivors (STS). Using whole-genome sequencing (WGS) to detect these alterations, we aim to identify the molecular characteristics of primary and metastatic lesions in patients with metastatic HER2+ breast cancer. Methods: WGS was performed on samples from two patients from a HER2+ MBC cohort; a of long-term survivor (PFS 27 months; OS > 60 months) and a short-term survivor (PFS 4 months; OS < 14 months). Primary tumours, adjacent normal tissue and metastases were sequenced at a mean depth of 60X. Reads were aligned on the hg38 reference genome using Burrows-Wheeler Aligner (bwa), CNA were detected using Control-FREEC to evaluate total CNA burden. Single nucleotide variants were detected using GATK Mutect2 to calculate TMB. Results: Analysis of DNA chromosome disruption (fraction of the genome amplified/deleted) revealed a higher overall fraction of disrupted genome in the LTS primary tumour and metastasis compared with the STS (0.061 and 0.064 vs 0.031 and 0.047, respectively). Further delineation of the distribution of CNA burden in all genomes identified chr1 as the most altered in the STS samples whereas chr17 was the most disrupted in the LTS samples. HER2 and CDK12 were amplified in both LTS and STS samples (4 copies in LTS primary tumour and metastasis, 18 and 14 copies in STS primary tumour and metastasis respectively). A high TMB was estimated in both samples but was higher in the STS primary tumour than in the LTS one (161 vs 142, respectively). TMB was increased in LTS metastatic lesions. NRAS mutation was found in LTS primary tumour but was lost in the metastasis. Conclusions: This pilot study highlights the potential for whole-genome sequencing to identify CNA and TMB in HER2+ MBC in patients who display long-term and short-term survival. Further samples from this cohort need to be studied to investigate the relationship between CNA burden and HER2+ MBC patient survival.