Frontiers in Oncology (Sep 2021)

RNA Sequencing Data for FFPE Tumor Blocks Can Be Used for Robust Estimation of Tumor Mutation Burden in Individual Biosamples

  • Maxim Sorokin,
  • Maxim Sorokin,
  • Maxim Sorokin,
  • Maxim Sorokin,
  • Alexander Gorelyshev,
  • Alexander Gorelyshev,
  • Victor Efimov,
  • Evgenia Zotova,
  • Marianna Zolotovskaia,
  • Elizaveta Rabushko,
  • Denis Kuzmin,
  • Alexander Seryakov,
  • Dmitry Kamashev,
  • Xinmin Li,
  • Elena Poddubskaya,
  • Maria Suntsova,
  • Anton Buzdin,
  • Anton Buzdin,
  • Anton Buzdin,
  • Anton Buzdin,
  • Anton Buzdin

DOI
https://doi.org/10.3389/fonc.2021.732644
Journal volume & issue
Vol. 11

Abstract

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Tumor mutation burden (TMB) is a well-known efficacy predictor for checkpoint inhibitor immunotherapies. Currently, TMB assessment relies on DNA sequencing data. Gene expression profiling by RNA sequencing (RNAseq) is another type of analysis that can inform clinical decision-making and including TMB estimation may strongly benefit this approach, especially for the formalin-fixed, paraffin-embedded (FFPE) tissue samples. Here, we for the first time compared TMB levels deduced from whole exome sequencing (WES) and RNAseq profiles of the same FFPE biosamples in single-sample mode. We took TCGA project data with mean sequencing depth 23 million gene-mapped reads (MGMRs) and found 0.46 (Pearson)–0.59 (Spearman) correlation with standard mutation calling pipelines. This was converted into low (<10) and high (>10) TMB per megabase classifier with area under the curve (AUC) 0.757, and application of machine learning increased AUC till 0.854. We then compared 73 experimental pairs of WES and RNAseq profiles with lower (mean 11 MGMRs) and higher (mean 68 MGMRs) RNA sequencing depths. For higher depth, we observed ~1 AUC for the high/low TMB classifier and 0.85 (Pearson)–0.95 (Spearman) correlation with standard mutation calling pipelines. For the lower depth, the AUC was below the high-quality threshold of 0.7. Thus, we conclude that using RNA sequencing of tumor materials from FFPE blocks with enough coverage can afford for high-quality discrimination of tumors with high and low TMB levels in a single-sample mode.

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