Abstract
Double minute chromosomes are extrachromosomal circular DNA fragments frequently found in brain tumors. To understand their evolution, we characterized the double minutes in paired diagnosis and relapse tumors from a pediatric high-grade glioma and four adult glioblastoma patients. We determined the full structures of the major double minutes using a novel approach combining multiple types of supporting genomic evidence. Among the double minutes identified in the pediatric patient, only one carrying EGFR was maintained at high abundance in both samples, whereas two others were present in only trace amounts at diagnosis but abundant at relapse, and the rest were found either in the relapse sample only or in the diagnosis sample only. For the EGFR-carrying double minutes, we found a secondary somatic deletion in all copies at relapse, after erlotinib treatment. However, the somatic mutation was present at very low frequency at diagnosis, suggesting potential resistance to the EGFR inhibitor. This mutation caused an in-frame RNA transcript to skip exon 16, a novel transcript isoform absent in EST database, as well as about 700 RNA-seq of normal brains that we reviewed. We observed similar patterns involving longitudinal copy number shift of double minutes in another four pairs (diagnosis/relapse) of adult glioblastoma. Overall, in three of five paired tumor samples, we found that although the same oncogenes were amplified at diagnosis and relapse, they were amplified on different double minutes. Our results suggest that double minutes readily evolve, increasing tumor heterogeneity rapidly. Understanding patterns of double minute evolution can shed light on future therapeutic solutions to brain tumors carrying such variants.
Highlights
Double minutes are extrachromosomal circular DNA frequently found in many different tumor types, especially in brain tumors [2, 3, 34]
SJHGG019 is from a 7-year-old male patient, diagnosed with glioblastoma multiforme (GBM) (WHO grade IV) in the right cerebellar hemisphere
To understand whether the observed pattern of double minute evolution from the diagnosis tumor to the relapse tumor is unique to SJHGG019 or more commonplace, we examined the highly amplified segments ( log2R > 3) in other sets of paired diagnosis and relapse samples from The Cancer Genome Atlas (TCGA) adult (GBM) patients
Summary
Double minutes are extrachromosomal circular DNA (eccDNA) frequently found in many different tumor types, especially in brain tumors [2, 3, 34]. It has been shown that cell-free eccDNA can be detected in plasma or serum and is possibly more stable than circulating linear DNA [12] Despite their important roles in tumorigenesis and clinical utilities, it is not clear how double minutes evolve and how they contribute to the dynamics of tumor heterogeneity. With the availability of high-depth whole genome sequencing (WGS) of the paired tumor and normal samples from the same patient, it is possible to assemble the circular structure of double minutes based on short-read sequencing data. Recent studies have reported the structural heterogeneity of double minutes in a tumor population in several cancer types, suggesting that they dynamically evolve [13, 14]. We provided evidence that secondary somatic mutations on a double minute can drastically affect its fitness as revealed by copy number in the relapse tumor compared to diagnosis
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
