PLoS Medicine (Aug 2021)

Cell-free DNA ultra-low-pass whole genome sequencing to distinguish malignant peripheral nerve sheath tumor (MPNST) from its benign precursor lesion: A cross-sectional study.

  • Jeffrey J Szymanski,
  • R Taylor Sundby,
  • Paul A Jones,
  • Divya Srihari,
  • Noah Earland,
  • Peter K Harris,
  • Wenjia Feng,
  • Faridi Qaium,
  • Haiyan Lei,
  • David Roberts,
  • Michele Landeau,
  • Jamie Bell,
  • Yi Huang,
  • Leah Hoffman,
  • Melissa Spencer,
  • Matthew B Spraker,
  • Li Ding,
  • Brigitte C Widemann,
  • Jack F Shern,
  • Angela C Hirbe,
  • Aadel A Chaudhuri

DOI
https://doi.org/10.1371/journal.pmed.1003734
Journal volume & issue
Vol. 18, no. 8
p. e1003734

Abstract

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BackgroundThe leading cause of mortality for patients with the neurofibromatosis type 1 (NF1) cancer predisposition syndrome is the development of malignant peripheral nerve sheath tumor (MPNST), an aggressive soft tissue sarcoma. In the setting of NF1, this cancer type frequently arises from within its common and benign precursor, plexiform neurofibroma (PN). Transformation from PN to MPNST is challenging to diagnose due to difficulties in distinguishing cross-sectional imaging results and intralesional heterogeneity resulting in biopsy sampling errors.Methods and findingsThis multi-institutional study from the National Cancer Institute and Washington University in St. Louis used fragment size analysis and ultra-low-pass whole genome sequencing (ULP-WGS) of plasma cell-free DNA (cfDNA) to distinguish between MPNST and PN in patients with NF1. Following in silico enrichment for short cfDNA fragments and copy number analysis to estimate the fraction of plasma cfDNA originating from tumor (tumor fraction), we developed a noninvasive classifier that differentiates MPNST from PN with 86% pretreatment accuracy (91% specificity, 75% sensitivity) and 89% accuracy on serial analysis (91% specificity, 83% sensitivity). Healthy controls without NF1 (participants = 16, plasma samples = 16), PN (participants = 23, plasma samples = 23), and MPNST (participants = 14, plasma samples = 46) cohorts showed significant differences in tumor fraction in plasma (P = 0.001) as well as cfDNA fragment length (P ConclusionsTumor fraction levels derived from cfDNA fragment size and copy number alteration analysis of plasma cfDNA using ULP-WGS significantly correlated with MPNST tumor burden, accurately distinguished MPNST from its benign PN precursor, and dynamically correlated with treatment response. In the future, our findings could form the basis for improved early cancer detection and monitoring in high-risk cancer-predisposed populations.