Stringent Base Specific and Optimization-Free Multiplex Mediator Probe ddPCR for the Quantification of Point Mutations in Circulating Tumor DNA.
Franziska SchlenkerElena KipfMax DeuterInga HöffkesMichael LehnertRoland ZengerleFelix von StettenFlorian SchererJulius WehrleNikolas von BubnoffPeter JuelgTobias HutzenlaubNadine BorstPublished in: Cancers (2021)
There is an increasing demand for optimization-free multiplex assays to rapidly establish comprehensive target panels for cancer monitoring by liquid biopsy. We present the mediator probe (MP) PCR for the quantification of the seven most frequent point mutations and corresponding wild types (KRAS and BRAF) in colorectal carcinoma. Standardized parameters for the digital assay were derived using design of experiments. Without further optimization, the limit of detection (LoD) was determined through spiking experiments with synthetic mutant DNA in human genomic DNA. The limit of blank (LoB) was measured in cfDNA plasma eluates from healthy volunteers. The 2-plex and 4-plex MP ddPCR assays showed a LoB of 0 copies/mL except for 4-plex KRAS G13D (9.82 copies/mL) and 4-plex BRAF V600E (16.29 copies/mL) and allele frequencies of 0.004% ≤ LoD ≤ 0.38% with R2 ≥ 0.98. The quantification of point mutations in patient plasma eluates (18 patients) during follow-up using the 4-plex MP ddPCR showed a comparable performance to the reference assays. The presented multiplex assays need no laborious optimization, as they use the same concentrations and cycling conditions for all targets. This facilitates assay certification, allows a fast and flexible design process, and is thus easily adaptable for individual patient monitoring.
Keyphrases
- circulating tumor
- high throughput
- wild type
- real time pcr
- cell free
- circulating tumor cells
- single cell
- end stage renal disease
- case report
- chronic kidney disease
- endothelial cells
- ejection fraction
- single molecule
- newly diagnosed
- living cells
- quantum dots
- metastatic colorectal cancer
- papillary thyroid
- high intensity
- young adults
- squamous cell
- solid state