Abstract 3138: Changes in tumor cell-free DNA copy number instability (CNI) predict therapeutic response in metastatic cancers

Background: Tumor cell-free DNA (cfDNA) has the potential to provide minimally invasive patient specific biomarkers to monitor tumor burden. Gains and losses of chromosomal regions - as a hallmark of cancer - have been detected in plasma as copy number aberrations (CNAs), and for several cancers a relation to tumor size has been reported. Longitudinal observations during anti-cancer therapy have been mostly anecdotal. We measured CNAs changes during treatment by computing a genomic copy number instability index (CNI) of cfDNA to evaluate its potential to predict cytotoxic chemotherapy (chemo) response. Methods: 24 patients (pts) with advanced esophageal cancer (EC; n = 2), colorectal cancer (CRC; n = 3), non-Hodgkin lymphoma (NHL; n = 3), pancreatic ductal adenocarcinomas (PDAC; n = 4), and non-small cell lung cancer (NSCLC; n = 12) were included and assessable for response. DNA was extracted from pre-treatment plasma samples at baseline and sequentially for up to six cycles of chemotherapy. Copy-numbers were called from shotgun sequencing (Illumina) after mapping and quality filtering reads were counted in 5.5MBp windows (sliding) yielding a read coverage of 24,000-fold per bin. The read counts were transformed into log2 ratios and converted into a score based on Gaussian transformations. Concentration of total cfDNA was determined by digital PCR. Treatment response by imaging was recorded by RECIST 1.1 or EORTC PET/CT criteria. For pts with baseline CNI>40 (representing the 99.99% level for non-cancer healthy controls), CNI change was considered predictive of response or stable disease when there was a reduction of CNI ≥50% relative to baseline. Disease progression was demonstrated when: 1) CNI was ≥50% over nadir and