Cancer Medicine (Jul 2024)

Impact of genomic and epigenomic alterations of multigene on a multicancer pedigree

  • Jingyu Gao,
  • Yongzhang Wu,
  • Jieming Yu,
  • Yinbin Qiu,
  • Tiantian Yi,
  • Chaochao Luo,
  • Junxiao Zhang,
  • Gary Lu,
  • Xu Li,
  • Fu Xiong,
  • Xuedong Wu,
  • Xinghua Pan

DOI
https://doi.org/10.1002/cam4.7394
Journal volume & issue
Vol. 13, no. 13
pp. n/a – n/a

Abstract

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Abstract Background Germline mutations have been identified in a small number of hereditary cancers, but the genetic predisposition for many familial cancers remains to be elucidated. Methods This study identified a Chinese pedigree that presented different cancers (breast cancer, BRCA; adenocarcinoma of the esophagogastric junction, AEG; and B‐cell acute lymphoblastic leukemia, B‐ALL) in each of the three generations. Whole‐genome sequencing and whole‐exome sequencing were performed on peripheral blood or bone marrow and cancer biopsy samples. Whole‐genome bisulfite sequencing was conducted on the monozygotic twin brothers, one of whom developed B‐ALL. Results According to the ACMG guidelines, bioinformatic analysis of the genome sequencing revealed 20 germline mutations, particularly mutations in the DNAH11 (c.9463G > A) and CFH (c.2314G > A) genes that were documented in the COSMIC database and validated by Sanger sequencing. Forty‐one common somatic mutated genes were identified in the cancer samples, displaying the same type of single nucleotide substitution Signature 5. Meanwhile, hypomethylation of PLEK2, MRAS, and RXRA as well as hypermethylation of CpG island associated with WT1 was shown in the twin with B‐ALL. Conclusions These findings reveal genomic alterations in a pedigree with multiple cancers. Mutations found in the DNAH11, CFH genes, and other genes predispose to malignancies in this family. Dysregulated methylation of WT1, PLEK2, MRAS, and RXRA in the twin with B‐ALL increases cancer susceptibility. The similarity of the somatic genetic changes among the three cancers indicates a hereditary impact on the pedigree. These familial cancers with germline and somatic mutations, as well as epigenomic alterations, represent a common molecular basis for many multiple cancer pedigrees.

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