Quantifying the evolution of tumor architecture using serial circulating tumor DNA.
Henry, J; Loree, JM; Strickler, JH; Raghav, KPS; Morris, VK; Raymond, VM; Lanman, RB; Yaeger, R; Corcoran, RB; Overman, MJ; Kopetz, S
Published in: Journal of Clinical Oncology
600 Background: There is limited data regarding changes in the genomic landscape in individual patients over time as serial tissue biopsy has risk and is of uncertain clinical benefit. The advent of circulating tumor DNA (ctDNA) allows for safe and repeated molecular sampling with the potential to investigate evolution of tumor architecture over the disease course. Methods: From 5/15 to 12/17, 116 patients with metastatic CRC had between three to 12 blood specimens taken over the treatment course. Plasma was tested using targeted NGS assay (Guardant360, Guardant Health, 68 gene). To account for variations in the amount of ctDNA in serial samples, a window of evaluable allele frequency was established for each patient as the fold change between the max allele frequency (mAF) and limit of detection for serial samples with the lowest mAF. Mutations not falling within this window were excluded from analysis. Substantial treatment induced selective pressure (SP) was defined as a decrease in the mutant mAF of > 50% in patients with at least an initial mAF of 1%. Results: 116 patients with a total of 317 serial blood samples were evaluable after accounting for ctDNA variations over time. Specimens were collected a median of 12 months apart, with a median of three specimens per patient. Thirteen patients (11%) did not have any changes in mutations on serial sampling, however the remainder of patients gained an average of 1.1 mutations per time point (mut/tp), and lost 1.0 mut/tp. 31% of patients demonstrated evidence of substantial treatment-induced SP. These patients were more likely to demonstrate a change in clonal architecture of the tumor (46% greater rate than those without SP, P = 0.04), predominantly through gain of new clones. In contrast, clonal hematopoiesis alterations that may be induced by chemotherapy, such as JAK2, were neither gained or lost. Conclusions: After correction for variations over time in the total amount of ctDNA in circulation, we identify numerous changes in tumor architecture with serial sampling. For the first time in colorectal cancer we demonstrate that when treatment-induced SP is applied the rate of tumor evolution is increased, demonstrating potential value of monitoring changes in tumor architecture over the disease course.
