Frontiers in Oncology (Jun 2022)

TP53 Mutations Identified Using NGS Comprise the Overwhelming Majority of TP53 Disruptions in CLL: Results From a Multicentre Study

  • Mark A. Catherwood,
  • Dorte Wren,
  • Laura Chiecchio,
  • Doriane Cavalieri,
  • David Donaldson,
  • Sarah Lawless,
  • Ezzat ElHassadi,
  • Amjad Hayat,
  • Mary R. Cahill,
  • Derville O’Shea,
  • Jeremy Sargent,
  • Peter Stewart,
  • Manisha Maurya,
  • John Quinn,
  • Philip Murphy,
  • David Gonzalez de Castro,
  • Ken Mills,
  • Nicholas C. P. Cross,
  • Nicholas C. P. Cross,
  • Francesco Forconi,
  • Sunil Iyengar,
  • Anna Schuh,
  • Patrick Thornton

DOI
https://doi.org/10.3389/fonc.2022.909615
Journal volume & issue
Vol. 12

Abstract

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Limited data exists to show the correlation of (tumour protein 53) TP53 mutation detected by Next generation sequencing (NGS) and the presence/absence of deletions of 17p13 detected by FISH. The study which is the largest series to date includes 2332 CLL patients referred for analysis of del(17p) by FISH and TP53 mutations by NGS before treatment. Using a 10% variant allele frequency (VAF) threshold, cases were segregated into high burden mutations (≥10%) and low burden mutations (<10%). TP53 aberrations (17p [del(17p)] and/or TP53 mutation) were detected in 320/2332 patients (13.7%). Using NGS analysis, 429 TP53 mutations were identified in 303 patients (13%). Of these 238 (79%) and 65 (21%) were cases with high burden and low burden mutations respectively. In our cohort, 2012 cases did not demonstrate a TP53 aberration (86.3%). A total of 159 cases showed TP53 mutations in the absence of del(17p) (49/159 with low burden TP53 mutations) and 144 cases had both TP53 mutation and del(17p) (16/144 with low burden mutations). Only 17/2332 (0.7%) cases demonstrated del(17p) with no TP53 mutation. Validated NGS protocols should be used in clinical decision making to avoid missing low-burden TP53 mutations and can detect the vast majority of TP53 aberrations.

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