A Unified And Streamlined Targeted Sequencing System For The Quantification Of Dna Mutations And Rna Expression Markers In Lung Cancer

Introduction: The promise of precision medicine relies on the identification of DNA and RNA markers that can individualize patient management. Methods such as next-generation sequencing (NGS) can deduce DNA or RNA sequences, but both types of nucleic acid have not been efficiently and effectively combined into a single NGS workflow. We describe a comprehensive methodology for targeted clinical NGS that reports DNA and RNA variants, provides a streamlined workflow, and accommodates low-input total nucleic acid (TNA) from challenging clinical specimens. Methods: Sample QC was performed using a novel qPCR assay that quantifies discrete populations of amplifiable DNA and RNA from TNA material. PCR-based target enrichment was performed using QuantideX® NGS reagents (Asuragen) and sequenced on the MiSeq® System (Illumina). Bioinformatic analyses were conducted using QuantideX® Reporter (Asuragen), a software suite that directly incorporates pre-analytical QC information into the variant calling. Results: Targeted DNA- and RNA-seq panels were developed that query 54 lung cancer DNA targets and 135 RNA targets, including >100 gene fusions and mRNA expression markers associated with clinical actionability. Gene-specific primers were formulated as multiplex PCR or RT-PCR reactions to independently interrogate DNA or RNA variants, respectively, from TNA or combined into a 189-plex RT-PCR to report multi-categorical nucleic acid variants. Integration of the bioinformatics pipeline and variant caller with wet-lab QC results enhanced mutation call sensitivity at The NGS panels were assessed with cell-line and synthetic controls and a residual clinical cohort of 97 NSCLC FFPE specimens. Mutations were accurately detected from as few as 5-10 DNA templates and down to Conclusions: QuantideX targeted NGS chemistries can unify the analysis of DNA and RNA markers associated with lung cancer and report SNVs, indels, fusions, and aberrantly expressed mRNA transcripts from a single NGS run. This novel technology offers reliable, accurate and comprehensive molecular characterizations of challenging tumor specimens by integrating wet-bench and dry-bench methods and improving the efficacy of routine laboratory testing. Citation Format: Gary J. Latham, Julie Krosting, Michael Dodge, Robert Zeigler, Liangjing Chen, Jason Plyler, Shobha Gokul, Junya Fujimoto, Vassiliki Papadimitrakopoulou, Ignacio Wistuba, Richard Blidner, Brian Haynes. A unified and streamlined targeted sequencing system for the quantification of DNA mutations and RNA expression markers in lung cancer. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1389.