| Literature DB >> 27753035 |
Hongdo Do1,2,3, Daniel Cameron4,5, Ramyar Molania6,7, Bibhusal Thapa7,8, Gareth Rivalland8, Paul L Mitchell8, Carmel Murone9, Thomas John10,8, Anthony Papenfuss4,5, Alexander Dobrovic11,12,13.
Abstract
Identifying circulating tumour DNA (ctDNA) for monitoring of cancer therapy is dependent on the development of readily designed, sensitive cancer-specific DNA markers. Genomic rearrangements that are present in the vast majority of cancers provide such markers.Tumour DNA isolated from two fresh-frozen lung tumours underwent whole genome sequencing. Genomic rearrangements were detected using a new computational algorithm, GRIDSS. Four genomic rearrangements from each tumour were chosen for further study using rearrangement-specific primers. Six of the eight rearrangements tested were identified as tumour-specific, the remaining two were present in the germline. ctDNA was quantified using digital PCR for the tumour genomic rearrangements in patient blood. Interestingly, one of the patients had no detectable ctDNA either prior to or post surgery although the rearrangements were readily detectable in the tumour DNA.This study demonstrates the feasibility of using digital PCR based on genomic rearrangements for the monitoring of minimal residual disease. In addition, whole genome sequencing provided further information enabling therapeutic choices including the identification of a cryptic EGFR exon 19 deletion in one patient and the identification of a high somatic mutation load in the other patient. This approach can be used as a model for all cancers with rearranged genomes.Entities:
Keywords: Droplet digital PCR; Genomic rearrangement; Liquid biopsy; Lung cancer; Whole genome sequencing
Mesh:
Substances:
Year: 2016 PMID: 27753035 DOI: 10.1007/978-3-319-42044-8_27
Source DB: PubMed Journal: Adv Exp Med Biol ISSN: 0065-2598 Impact factor: 2.622