eJHaem (Nov 2022)

Next‐generation sequencing‐based analysis to assess the pattern of relapse in patients with Philadelphia‐positive acute lymphoblastic leukemia

  • Jae‐Sook Ahn,
  • TaeHyung Kim,
  • Sung‐Hoon Jung,
  • Seo‐Yeon Ahn,
  • Ga‐Young Song,
  • Mihee Kim,
  • Deok‐Hwan Yang,
  • Je‐Jung Lee,
  • Mi Yeon Kim,
  • Joon Ho Moon,
  • Zhaolei Zhang,
  • Hyeoung‐Joon Kim,
  • Dennis Dong Hwan Kim

DOI
https://doi.org/10.1002/jha2.514
Journal volume & issue
Vol. 3, no. 4
pp. 1145 – 1153

Abstract

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Abstract In this study, we performed serial monitoring using targeted DNA sequencing to identify genetic alterations in adults with Philadelphia‐positive acute lymphoblastic leukemia (Ph‐ALL). Deep sequencing was performed by targeting the coding regions of 45 genes with recurrent driver mutations and 1129 single nucleotide polymorphism sites. Of the 43 patients that we examined, at least one case of genetic alterations was detected in 38 (88%) of the 43 patients at diagnosis (somatic mutations in 10 patients [23%] and copy number aberrations [CNA] in 36 patients [84%]). The most frequently detected CNA lesions were in IKZF1 (n = 25, 58%) and the most frequently mutated gene was SETD2 (n = 5). At least one genetic abnormality (loss, gain, or persistence) was observed in all the samples obtained at relapse that were available for analysis (n = 15), compared with the samples obtained at diagnosis (disappearance of any previously detected genetic alterations: 11 patients [73%]; new genetic abnormalities: nine patients [60%]; and persistent genetic abnormalities: eight patients [53%]]. The most frequently deleted lesions were in IKZF1 (n = 9, 60%), and the most frequently mutated gene was ABL1 (eight patients, 53%). Our data indicate that leukemic progression may be associated with complex genetic alterations in Ph‐ALL during the course of treatment.

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