Comparison of Commonly Used Solid Tumor Targeted Gene Sequencing Panels for Estimating Tumor Mutation Burden Shows Analytical and Prognostic Concordance Within the Cancer Genome Atlas Cohort - PubMed

Comparison of Commonly Used Solid Tumor Targeted Gene Sequencing Panels for Estimating Tumor Mutation Burden Shows Analytical and Prognostic Concordance Within the Cancer Genome Atlas Cohort - PubMed

Comparison of Commonly Used Solid Tumor Targeted Gene Sequencing Panels for Estimating Tumor Mutation Burden Shows Analytical and Prognostic Concordance Within the Cancer Genome Atlas Cohort

Nicholas Bevins 1, Shulei Sun 2, Zied Gaieb 3, John A Thorson 2, Sarah S Murray 2

Affiliations 

• PMID: 32217764
 
• DOI: 10.1136/jitc-2020-000613

Abstract

Background: Tumor mutation burden (TMB) is a biomarker frequently reported by clinical laboratories, which is derived by quantifying of the number of single nucleotide or indel variants (mutations) identified by next-generation sequencing of tumors. TMB values can inform prognosis or predict the response of a patient's tumor to immune checkpoint inhibitor therapy. Methods for the calculation of TMB are not standardized between laboratories, with significant variables being the gene content of the panels sequenced and the inclusion or exclusion of synonymous variants in the calculations. The impact of these methodological differences has not been investigated and the concordance of reported TMB values between laboratories is unknown.

Methods: Sequence variant lists from more than 9000 tumors of various types were downloaded from The Cancer Genome Atlas. Variant lists were filtered to include only appropriate variant types (ie, non-synonymous only or synonymous and non-synonymous variants) within the genes found in five commonly used targeted solid tumor gene panels as well as an in-house gene panel. Calculated TMB was paired with corresponding overall survival (OS) data of each patient.

Results: Regression analysis indicates high concordance of TMB as derived from the examined panels. TMB derived from panels was consistently and significantly lower than that derived from a whole exome. TMB, as derived from whole exome or the examined panels, showed a significant correlation with OS in the examined data.

Conclusions: TMB derived from the examined gene panels was analytically equivalent between panels, but not between panels and whole-exome sequencing. Correlation between TMB and OS is significant if TMB method-specific cut-offs are used. These results suggest that TMB values, as derived from the gene panels examined, are analytically and prognostically equivalent.

Keywords: genetic markers; immunotherapy; translational medical research; tumor biomarkers.

© Author(s) (or their employer(s)) 2020. Re-use permitted under CC BY. Published by BMJ.

Conflict of interest statement

Competing interests: None declared.

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