Noninvasive identification and monitoring of cancer mutations by targeted deep sequencing of plasma DNA.
Source
Cancer Research UK Cambridge Research Institute, Li Ka Shing Centre, Robinson Way, Cambridge CB2 0RE, UK.
Abstract
Plasma of cancer patients contains cell-free tumor DNA that carries information on tumor mutations and tumor burden. Individual mutations have been probed using allele-specific assays, but sequencing of entire genes to detect cancer mutations in circulating DNA has not been demonstrated. We developed a method for tagged-amplicon deep sequencing (TAm-Seq) and screened 5995 genomic bases for low-frequency mutations. Using this method, we identified cancer mutations present in circulating DNA at allele frequencies as low as 2%, with sensitivity and specificity of >97%. We identified mutations throughout the tumor suppressor gene TP53 in circulating DNA from 46 plasma samples of advanced ovarian cancer patients. We demonstrated use of TAm-Seq to noninvasively identify the origin of metastatic relapse in a patient with multiple primary tumors. In another case, we identified in plasma an EGFR mutation not found in an initial ovarian biopsy. We further used TAm-Seq to monitor tumor dynamics, and tracked 10 concomitant mutations in plasma of a metastatic breast cancer patient over 16 months. This low-cost, high-throughput method could facilitate analysis of circulating DNA as a noninvasive "liquid biopsy" for personalized cancer genomics.
- PMID:
- 22649089
- [PubMed - in process]
1 comment:
Tumor monitoring in a drop of blood! Yes, it’s coming. The ability to monitor cancer non-invasively via a finger-prick (not multiple blood tubes) is an unprecedented breakthrough and will be driving the rapid uptake of precision medicine. This technological advancement by CirculoGene Theranostics will further harness tools for cfDNA NGS analysis, profiling circulating genome, and improving test turnaround time, accuracy and treatment outcomes.
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