Oncomine Cell-Free NA Assays for Liquid Biopsy Clinical Research

Comprehensive liquid biopsy workflow for cell-free nucleic acids, from blood sample to variant data

Ion Torrent Oncomine cell-free nucleic acids assays are multibiomarker next-generation sequencing (NGS) assays that enable reproducible detection of somatic mutations in plasma, down to a level of 0.1% in genes relevant to solid tumors. When used as part of a complete liquid biopsy NGS workflow, the road from research blood sample to variant data only takes two days.

Each assay contains the reagents for library construction and a single pool of primers used to perform multiplex PCR for preparation of amplicon libraries from cell-free DNA (cfDNA) and cell-free RNA (cfRNA) found in the plasma fraction of whole blood, and each is part of a complete research solution to detect tumor-derived DNA and RNA from cell-free nucleic acids.

Using a single tube of blood, our assays are designed for analysis of single nucleotide variants, short indels, copy number variations, and fusions that are frequently mutated in research cancer samples. The assays enable a limit of detection (LOD) down to 0.1%.

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White Paper: Analytical Validation of the Oncomine Pan-Cancer Cell-Free Assay

Learn how the assay performs against commercially available pre-characterized reference materials and clinical plasma samples.

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Why are pathologists and oncologists interested in liquid biopsy clinical cancer research?

Liquid biopsies offer several advantages over conventional solid tumor samples:

Less invasive to obtain, enabling tumor content to be sampled multiple times
Lower cost compared to traditional tissue samples
Faster turnaround time from sample to results
Help capture more of the heterogeneity of the tumor
May lead to improvements in standard of care in the future

We now know that cancer is a molecular disease. To better advance cancer research in the future, we need a clearer understanding of how those oncogenes and oncoproteins change in both time and space. Liquid biopsy applications enable clinical researchers to investigate tumors in ways not previously possible.

In the past, clinical cancer research on cfDNA focused on digital PCR or droplet digital PCR applications to analyze samples with low-frequency mutations. These approaches, while sensitive, limit the number of target genes, thereby limiting the field of vision of the researcher.

The Oncomine Cell-Free Research Assays and the Ion GeneStudio S5 Systems enable tumor heterogeneity research, therapy selection research, therapy monitoring research, and reoccurrence research studies from as little as 1ng of sample input.

Detect mutations like EGFR T790M

“Using the Oncomine Lung cfDNA Assay, we were able to amplify more difficult samples. The assay allowed us the detection of mutations like EGFR T790M down to 0.14% allelic fraction.”

José Luis Costa, PhD
Senior Researcher
Institute of Molecular Pathology and Immunology of the University of Porto, Portugal

Optimized for liquid biopsy clinical research focused on primary driver and resistance mutations in cell-free nucleic acids

Oncomine cell-free research assays include targets identified by the Oncomine Reporter, a cancer genomics data resource, and reviewed by clinical researchers.

Oncomine cell-free research assay gene content

Assay	DNA/RNA	Gene		Selected SNV hotspots	CNVs	Fusions	Extra
Oncomine Pan-Cancer Cell-Free Assay	DNA & RNA	AKT1 ALK APC AR ARAF BRAF CCND1 CCND2 CCND3 CDK4 CDK6 CHEK2 CTNNB1 DDR2 EGFR ERBB2 ERBB3 ERG ESR1 ETV1 FBXW7 FGFR1 FGFR2 FGFR3 FGFR4 FLT3	GNA11 GNAQ GNAS HRAS IDH1 IDH2 KIT KRAS MAP2K1 MAP2K2 MET MTOR MYC NRAS NTRK1 NTRK3 PDGFRA PIK3CA PTEN RAF1 RET ROS1 SF3B1 SMAD4 SMO TP53	>900 hotspots including: BRAF EGFR HRAS, KRAS, NRAS	CCND1 CCND2 CCND3 CDK4 CDK6 EGFR ERBB2 FGFR1 FGFR2 FGFR3 MET MYC	ALK BRAF ERG ETV1 FGFR1 FGFR2 FGFR3 MET NTRK1 NTRK3 RET ROS1	MET exon 14 skipping Tumor suppressor genes: APC FBXW7 PTEN TP53
Oncomine Lung cfTNA Assay	DNA & RNA	ALK BRAF EGFR ERBB2 KRAS MAP2K1 MET NRAS PIK3CA RET ROS1 TP53		>150 hotspots including: EGFR: T790M, C797S, L858R, Exon 19 del KRAS: G12X, G13X, Q61X BRAF: V600E ALK: Exon 21-25 PIK3CA: E545K, H1047R, E542K	MET	ALK, RET,ROS1	MET exon 14 skipping
Oncomine Lung cfDNA Assay	DNA	ALK BRAF EGFR ERBB2 KRAS MAP2K1 MET NRAS PIK3CA ROS1 TP53		>150 hotspots including: EGFR: T790M, C797S, L858R, Exon 19 del KRAS: G12X, G13X, Q61X BRAF: V600E ALK: Exon 21-25 PIK3CA: E545K, H1047R, E542K	---	---	---
Oncomine Breast cfDNA Assay v2	DNA	AKT1 CCND1 EGFR ERBB2 ERBB3 ESR1 FBXW7 FGFR1 KRAS PIK3CA SF3B1 TP53		>150 hotspots including: PIK3CA: E545K, H1047R AKT1: E17K ESR1: mutations associated with anti- estrogen resistance TP53: mutations associated with loss of function ERBB2: mutations associated with sensitivity to anti-ERBB2 therapies	CCND1, ERBB2, FGFR1	---	Expanded coverage of TP53
Oncomine Breast cfDNA Assay	DNA	AKT1 EGFR ERBB2 ERBB3 ESR1 FBXW7 KRAS PIK3CA SF3B1 TP53		>150 hotspots including: PIK3CA: E545K, H1047R AKT1: E17K ESR1: mutations associated with anti- estrogen resistance TP53: mutations associated with loss of function ERBB2: mutations associated with sensitivity to anti-ERBB2 therapies	---	---	---
Oncomine Colon cfDNA Assay	DNA	AKT1 APC BRAF CTNNB1 EGFR ERBB2 FBXW7 GNAS KRAS MAP2K1 NRAS PIK3CA SMAD4 TP53		>240 hotspots including: KRAS/NRAS: G12/G13/Q61 BRAF: V600E PIK3CA: E545K, H1047R TP53: R175H R273H/C/L Recurrent deleterious APC mutations (including p.R876, p.R1114, p.Q1378, p.R1450) SMAD4: R361C/H CTNNB1: S45F, T41A	---	---	---

Hotspot Genes		Tumor Suppressor Genes	Copy Number Genes	Gene Fusions
AKT1 ALK AR ARAF BRAF CHEK2 CTNNB1 DDR2 EGFR ERBB2 ERBB3 ESR1 FGFR1 FGFR2 FGFR3 FGFR4 FLT3 GNA11 GNAQ GNAS	HRAS IDH1 IDH2 KIT KRAS MAP2K1 MAP2K2 MET MTOR NRAS NTRK1 NTRK3 PDGFRA PIK3CA RAF1 RET ROS1 SF3B1 SMAD4 SMO	APC FBXW7 PTEN TP53	CCND1 CCND2 CCND3 CDK4 CDK6 EGFR ERBB2 FGFR1 FGFR2 FGFR3 MET MYC	ALK BRAF ERG ETV1 FGFR1 FGFR2 FGFR3 MET NTRK1 NTRK3 RET ROS1

Oncomine cell-free assays leverage Ion Torrent sequencing, enabling researchers to develop future applications

Single tube of blood—the end-to-end, two-day NGS workflow is enabled from a single tube of blood
High-value content—including key targets selected and verified by the OncoNetwork consortium and industry experts, the assays enable analysis of all types of key mutations (SNV, indels, CNVs, fusions)
Sample tolerance—flexible input amounts and tolerance of sample input variability to accommodate more of your samples
Low limit of detection—variant detection down to 0.1% for SNV hotspots and indels
Reduced cost—uniform coverage of tumor type–specific amplicons enables more samples per sequencing run
Optimized analysis—the variant caller helps to increase sensitivity and specificity

Enabling results from more of your liquid biopsy research samples

Since cell-free nucleic acids can vary from sample to sample, flexibility in supporting varying amounts of input DNA, especially small amounts, is critical. Oncomine cell-free assays have the ability to support varying input amounts (Figure 1). Getting data from as many samples as possible is a crucial step in advancing liquid biopsy research.

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Click image to enlarge

Figure 1. Amplicon coverage and input material determine limit of detection using Oncomine cfDNA assays.

In verification studies, the assays demonstrate high correlation between the variants called in formalin-fixed, paraffin-embedded (FFPE) samples and those called in plasma (Table 1). As expected, there is a higher mutant allelic fraction in the FFPE tumor sample compared to that measured in plasma, and germline variants are seen at expected levels of ~50% in both FFPE and plasma.

Sample	Variant	FFPE	Plasma
1	EGFR-L858R	71.42%	2.62%
2	TP53-R158L	51.89%	4.32%
3	MET-T1010I KRAS-G12C	43.87% 34.62%	51.57% 0.28%
4	N/A	No detection	No detection
5	EGFR-L858R MET-T1010I TP53-Y220C	58.44% 41.93% 35.54%	7.28% 48.72% 1.93%
6	TP53-R158L	10.19%	1.26%

Table 1. Correlation of FFPE and matched plasma sample results (late-stage lung cancer samples). Oncomine cell-free assays demonstrate high correlation between variants called in FFPE samples and those called in matched plasma samples. The above data was obtained using the Oncomine Lung cfDNA Assay. Bolded values indicate somatic mutations. Non-bolded values indicate germline mutations.

Overall, Oncomine cell-free assays enable results from more samples, with demonstrated, repeatable results using clinical research samples at 0.1% limit of detection with 90% sensitivity and >98% specificity across our whole portfolio of Oncomine cell-free assays.

Sample	*EGFR* E746_A750delELREA	*EGFR* L858R	*EGFR* T790M	*EGFR* V769_D770insASV	*KRAS* G12D	*NRAS* A59T	*NRAS* Q61K	*PIK3CA* E545K
0.1% HDX	0.06	0.17	0.06	0.10	0.22	0.17	0.15	0.10
1% HDX	0.72	1.07	0.75	0.74	1.14	1.15	1.15	2.29
5% HDX	4.52	4.86	6.32	3.97	6.34	6.11	6.94	5.29
100% WT	0	0	0	0	0	0	0	0

Table 2. Variants called from Horizon cfDNA Multiplex Reference Set. All 8 mutant hotspots were called at 0.1%. Data obtained using the Oncomine Lung cfDNA Assay.

Oncomine cell-free research workflow

Running up to 8 samples on an Ion 530 chip or up to 32 samples on an Ion 540 chip, the Oncomine cell-free assays enable efficiently multiplexed PCR analysis of single nucleotide variants (SNVs) , short indels, copy number variations, and fusions across our whole portfolio of Oncomine cell-free assays. frequently mutated in common tumor types, tolerating sample input variability and accommodating flexible input amounts as low as 1 ng.

The entire workflow (Figure 2), from isolation of cell-free nucleic acids using the appropriate Applied Biosystems MagMAX Cell-Free Isolation Kit to analysis of samples, can be accomplished in just 2 days on the Ion GeneStudio S5 Prime system.

oncomine-cell-free-dna-assays-liquid-biopsy-clinical-research-banner

Prep.

Cell-free isolation (MagMAX Cell-Free Isolation Kit)
Library prep (Oncomine Cell-Free Assays)
Template prep (Ion Chef System)

Sequence.

High-throughput sequencing (Ion GeneStudio S5 Series)

Analyze.

Variant caller for optimized analysis (Torrent Suite / Ion Reporter Software)
Labels, guidelines, and global clinical trials (Oncomine Reporter)

All the tools you need for liquid biopsy clinical research

Oncomine cell-free assays are part of a complete workflow designed for liquid biopsy clinical research, which includes:

Oncomine cell-free assays

A kit containing reagents for library construction and a single pool of multiplex PCR primers to prepare amplicon libraries from cell-free nucleic acids found in the plasma fraction of whole blood.

Tag Sequencing Barcode Sets 1–24 and 25–48

A set of unique barcode adapters specifically designed for optimal performance with our technology. The unique barcode adapters are compatible with the Ion S5, Ion PGM, and Ion Proton systems. When used in combination with kits, this set enables you to pool up to 24 amplicon libraries and conduct multiplex sequencing analysis, which helps reduce the sequencing cost per sample.

Ion GeneStudio S5 Series

The Ion GeneStudio S5 Series supports five different chip types, so you can run multiple applications on a single sequencer. This flexibility eliminates the need to batch samples in order to achieve the optimum cost efficiency. Just choose the chip type that matches your specific throughput or application needs.

Learn more

Poster: Can blood plasma samples really provide comprehensive genetic mutation assessment?

Learn more in this featured poster from AACR 2019.