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R. Lin
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P3.06 - Poster Session 3 - Prognostic and Predictive Biomarkers (ID 178)
- Event: WCLC 2013
- Type: Poster Session
- Track: Biology
- Presentations: 1
- Moderators:
- Coordinates: 10/30/2013, 09:30 - 16:30, Exhibit Hall, Ground Level
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P3.06-013 - ICE COLD-PCR Combined with Next-Generation Sequencing: Increased Sensitivity for High Throughput Detection of Mutations. (ID 1433)
09:30 - 09:30 | Author(s): R. Lin
- Abstract
Background
The ICE COLD-PCR (Improved and Complete Enrichment COamplification at Lower Denaturation Temperature PCR) technology is capable of high sensitivity mutation detection. The ICE COLD-PCR (ICP) reaction contains a reference sequence oligonucleotide (RS-oligo) that hybridizes to both alleles but will dissociate from the mutant strand at the critical temperature for all mutation types: point mutations, insertions, deletions and indels. Following ICP, samples with mutations present at 0.1% in the original sample can be enriched and determined using standard Sanger sequencing. Next-Generation Sequencing (NGS) allows high-throughput analysis of somatic mutations in cancer using targeted resequencing panels of genes. Thus a broad mutation signature of tumors can be determined. However, the level of detection is ~4% for mutations unless a higher depth of coverage is used; this comes at the price of reducing the number of samples that can be analyzed on a chip. ICP enrichment of mutations prior to NGS mimics an increased "depth of coverage" without reducing the throughput per chip.Methods
Proof of concept experiments were performed using low level mutations: KRAS G12R (0.5, 0.1, 0.05%) PIK3CA E542K and E545K (1.0, 0.5, 0.1%) and EGFR Exon 19 E746_A750del (0.5, 0.1, 0.05%). In addition, DNA isolated from FFPE tissues and matched plasma were amplified by standard PCR or enriched by ICP and subsequently analyzed for PIK3CA, KRAS, BRAF and EGFR mutations using the Ion AmpliSeq Cancer Hotspot Panel on the Ion Torrent Personal Genome Machine (PGM) with the Variant Caller Plugin.Results
ICE COLD-PCR Amplification of FFPE DNA with Sequence Confirmation by Sanger Sequencing or Next Generation Sequencing using the Ion Torrent PGM Gene Mutation in Sample % Starting Mutant % Variant Frequency (Sanger) % Variant Frequency (NGS) P-value Coverage Ref Cov Var Cov EGFR Exon 19 #1 E746_A750_Del 0.50% 30 9.1* 1.00E-10 2,000 1,812 182 #2 E746_A750_Del 0.10% 10 3* 7.82E-10 2,000 1,940 60 #3 E746_A750_Del 0.05% Background No Variant KRAS #1 G12R 0.50% 70 69.18 1.00E-10 19,174 5,819 13,264 #2 G12R 0.10% 10 23.58 1.00E-10 10,004 7,513 2,359 #3 G12R 0.05% Background 2.86 5.01E-04 11,027 10,603 315 PIK3CA #1 E542K 1.0% 15 16.48 1.00E-10 28,899 24,113 4,763 #1 E545K 1.0% 25 24.23 1.00E-10 30,027 22,700 7,275 #2 E542K 0.5% 10 9.19 1.00E-10 15,680 14,225 1,441 #2 E545K 0.5% 10 11.78 1.00E-10 15,267 13,405 1,798 #3 E542K 0.1% Background 2.02 1.00E-10 15,358 15,045 310 #3 E545K 0.1% Background 3.17 1.00E-10 15,154 14,657 481 * difficult to detect deletions by NGS Conclusion
ICP is a flexible technology that results in a PCR product enriched for any mutation present in the sample analyzed. This upstream enrichment of low level somatic mutations combined with high throughput analysis by NGS brings NGS one step closer for use in high throughput screening of circulating mutations for patient treatment selection and monitoring of disease.