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Poster session 07

25P - NGS-based identification of novel hereditary breast/ovarian cancer genes in patients with clinical features of genetic predisposition

Date

14 Sep 2024

Session

Poster session 07

Topics

Genetic and Genomic Testing;  Basic Science

Tumour Site

Ovarian Cancer;  Breast Cancer

Presenters

Ekaterina Kuligina

Citation

Annals of Oncology (2024) 35 (suppl_2): S215-S228. 10.1016/annonc/annonc1574

Authors

E.S. Kuligina1, A.P. Sokolenko1, R.V. Broyde2, R.S. Mulkidjan1, M.V. Semina1, A.A. Romanko1, A.S. Martianov1, J.A. Gorgul1, A. Nostaeva3, Y. Aulchenko3, E.N. Imyanitov1

Author affiliations

  • 1 Department Of Tumor Biology, N.N. Petrov National Medical Research Center of Oncology, 197758 - Saint-Petersburg/RU
  • 2 Chemotherapy Department, GBUZ St. Petersburg Clinical Scientific and Practical Center for Specialized Types of Medical Care (Oncological), 197758 - Saint-Petersburg/RU
  • 3 Bioinformatics, PolyKnomics BV, 5237 PA - 's-Hertogenbosch/NL

Resources

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Abstract 25P

Background

Germline variants in known breast/ovarian cancer (BC/OC) predisposing genes explain less than half of the familial clustering of these diseases. This study aimed to identify novel genes for hereditary BC/OC.

Methods

We developed a custom NGS panel composed of 25 candidate BC/OC-associated genes. Twelve of these 25 genes (AEN, ATF5, BRIP1, CEBPA, FANCM, GREB1, GRWD1, P4HTM, POLA2, RAD50, RAD54B, STK36) were selected from our whole exome sequencing (WES) dataset involving BRCA1/2 mutation-negative OC patients with pronounced response to platinum-based therapy. The remaining 13 genes (ATRIP, BRWD1, BTG4, CACNA1H, CLN5, FGL1, GLIS3, GRAPL, PMS1, SLX4, TEN1, TKTL1, TSGA10IP) were selected from UK Biobank data based on WES comparison of 3290 early-onset or familial BC cases vs. healthy controls (n=44950, UK Biobank). Targeted NGS was performed for 385 patients with early-onset, familial, or bilateral BCs (n=385) and 395 consecutive OCs negative Slavic founder BRCA1/2 mutations.

Results

Thirty-five potentially deleterious mutations in 14 genes, including 16 truncating variants and 19 missense mutations with CADD score >25, were identified. Thirteen of these alleles were recurrent, although having exceptionally low population frequency. The recurrent nonsense ATF5 p.Arg207* germline mutation was accompanied by LOH of the remaining wild-type allele and high-level homologous recombination deficiency (HRD) in the tumor tissue. Other genes with apparent association with BC/OC risk were CEBPA, FANCM, BRIP1, ATRIP, RAD50, and RAD54B.

Conclusions

The results of NGS analysis suggest a contribution of a multitude of rare pathogenic variants in genetic predisposition to BRCA1/2 mutation-negative BC and OC.

Clinical trial identification

Editorial acknowledgement

Legal entity responsible for the study

The authors.

Funding

This work was supported by grant #22-15-00278 from the Russian Science Foundation and UK Biobank Resource project 41601. The work of YSA and AVN was funded by PolyKnomics BV.

Disclosure

All authors have declared no conflicts of interest.

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