Effect of Different Proteinase K Digest Protocols and Deparaffinization Methods on Yield and Integrity of DNA Extracted From Formalin-fixed, Paraffin-embedded Tissue.

DNA extracted from formalin-fixed, paraffin-embedded tissue sections is often inadequate for sequencing, due to poor yield or degradation. We optimized the proteinase K digest by testing increased volume of enzyme and increased digest length from the manufacturer's protocol using 54 biospecimens, performing the digest in centrifuge tubes. Doubling the quantity of proteinase K resulted in a median increase in yield of 96%. Applying the optimized proteinase K protocol to sections deparaffinized on microscope slides generated a further increase in yield of 41%, but only at >50,000 epithelial tumor cells/section. DNA yield now correlated with (χ2 = 0.84) and could be predicted from the epithelial tumor cell number. DNA integrity was assayed using end point multiplex PCR (amplicons of 100-400 bp visualized on a gel), quantitative PCR (qPCR; Illumina FFPE QC Assay), and nanoelectrophoresis (DNA Integrity Numbers [DINs]). Generally, increases in yield were accompanied by increases in integrity, but sometimes qPCR and DIN results were conflicting. Amplicons of 400 bp were almost universally obtained. The process of optimization enabled us to reduce the percentage of samples that failed published quality control thresholds for determining amenability to whole genome sequencing from 33% to 7%.

Standardization of the preanalytical phase of DNA extraction from fixed tissue for next-generation sequencing analyses.

Next-generation sequencing (NGS) analyses on DNA derived from archived Formalin-Fixed Paraffin-Embedded (FFPE) clinical material can provide a powerful tool in oncology research and clinical diagnostics. Although several studies have established that NGS can be performed using DNA from FFPE tissue, the accuracy and reproducibility of such analyses, as well as their robustness to the biomolecular quality of the samples used, remains a matter of debate. Excellent reviews have recently been published, providing evidence-based best practices for FFPE DNA extraction. Alternative fixatives exist, although their implementation in clinical practice is difficult. In this article, we present (i) a review of fixed tissue DNA preanalytics with a special focus on DNA extraction and fixed tissue sample qualification and (ii) results from comparisons between different methods of DNA extraction from tissue samples that have been fixed or stabilized by different methods, in terms of NGS metrics and different DNA quality metrics.