The Complete Spectrum Of Esr1 Mutations From 7590 Breast Cancer Tumor Samples

Background: Approximately 70% of newly diagnosed breast cancers express estrogen receptor alpha (ERα), and are treated with agents that block ER signaling. Acquired mutations in ESR1 , the gene that encodes ERα, have been associated with resistance to aromatase inhibitor therapy in patients with ER positive metastatic breast cancer (ER+ mBC). The most frequently occurring ESR1 mutations are clustered between amino acids 536 to 538 within the ligand binding domain (LBD), although limited data exists characterizing the full mutation profile in a large number of breast cancer samples. Methods : We surveyed the Foundation Medicine dataset of 7590 primary and metastatic breast cancer tumor samples for ESR1 short variants and copy number alterations. Hormone receptor status was unavailable, therefore two assumptions were made to provide an estimate of prevalence in the ER+ HER2- population: 70% of the tumor samples are from ER+ HER2- patients, and all ESR1 mutations from non- HER2 amplified metastatic sites are from ER+ HER2- patients. In a separate cohort of 48 ER+ mBC patients, circulating tumor DNA (ctDNA) was analyzed for ESR1 mutations using the BEAMing method by Sysmex and with Foundation Medicine9s sequencing assay, FoundationACT (Assay for Circulating Tumor DNA). Results : The prevalence of mutations in ER+ HER2- breast cancer was estimated to be 22% in samples from metastatic sites but less than 3% in samples from primary sites. ESR1 amplification was rare in samples from both primary and metastatic disease sites at 1.3% and 2.0% respectively. A total of 153 unique short variants of known and unknown status were identified. In addition to hotspot mutations at 537 and 538, previously undescribed rare mutations were identified throughout the entire length of the LBD, although 10 alterations at amino acids 380, 463, 536, 537, and 538 account for 86% of all ESR1 mutations in the ER+ HER2- metastatic sites. We also characterized the overlap of ESR1 alterations with commonly altered and clinically relevant genes in breast cancer, including PIK3CA mutations and HER2 amplification, and we report here a landscape of co-occurring alterations. In the cohort of patient samples where ctDNA was analyzed, BEAMing and FoundationAct assays both detected ESR1 mutations in 19 out of 48 samples, and overall concordance of mutation status (wild-type vs mutant) was 100%. A total of 51 individual mutations were detected with the BEAMing assay, 42 of which were detected with the FoundationACT assay. Seven mutations that were undetected by FoundationACT had mutant allele frequencies less than 0.1%. Ten ESR1 mutations were detected only by FoundationACT, 9 of which are not covered with the BEAMing assay. Alterations in PIK3CA, CDH1, TP53, ERBB2, and other breast cancer relevant genes were also detected with FoundationACT. Conclusions : Understanding the mutational landscape of ESR1 and co-occurring alterations is important for diagnostic development in conjunction with the clinical development of novel anti-endocrine therapies. Our data demonstrate a large spectrum of mutations in the LBD in addition to known hotspot mutations. In addition, the FoundationACT assay offers a robust NGS-based method to screen for mutations in ctDNA that is highly concordant with digital PCR methods. Citation Format: Spoerke JM, Schleifman E, Clark TA, Young G, Nahas M, Kennedy M, Young L, Chmielecki J, Otto GA, Lipson D, Wilson TR, Gendreau S, Lackner MR. The complete spectrum of ESR1 mutations from 7590 breast cancer tumor samples [abstract]. In: Proceedings of the 2016 San Antonio Breast Cancer Symposium; 2016 Dec 6-10; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2017;77(4 Suppl):Abstract nr P6-07-08.