Frontiers in Oncology (Sep 2024)

Prevalence of the cancer-associated germline variants in Russian adults and long-living individuals: using the ACMG recommendations and computational interpreters for pathogenicity assessment

  • Mariia Gusakova,
  • Irina Dzhumaniiazova,
  • Elena Zelenova,
  • Daria Kashtanova,
  • Mikhail Ivanov,
  • Aleksandra Mamchur,
  • Antonina Rumyantseva,
  • Mikhail Terekhov,
  • Sergey Mitrofanov,
  • Liliya Golubnikova,
  • Aleksandra Akinshina,
  • Konstantin Grammatikati,
  • Irina Kalashnikova,
  • Vladimir Yudin,
  • Valentin Makarov,
  • Anton Keskinov,
  • Sergey Yudin

DOI
https://doi.org/10.3389/fonc.2024.1420176
Journal volume & issue
Vol. 14

Abstract

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BackgroundPopulation studies are essential for gathering critical disease prevalence data. Automated pathogenicity assessment tools enhance the capacity to interpret and annotate large amounts of genetic data. In this study, we assessed the prevalence of cancer-associated germline variants in Russia using a semiautomated variant interpretation algorithm.MethodsWe examined 74,996 Russian adults (Group 1) and 2,872 long-living individuals aged ≥ 90 years (Group 2) for variants in 28 ACMG-recommended cancer-associated genes in three steps: InterVar annotation; ClinVar interpretation; and a manual review of the prioritized variants based on the available data. Using the data on the place of birth and the region of residence, we determined the geographical distribution of the detected variants and tracked the migration dynamics of their carriers.ResultsWe report 175 novel del-VUSs. We detected 232 pathogenic variants, 46 likely pathogenic variants, and 216 del-VUSs in Group 1 and 19 pathogenic variants, 2 likely pathogenic variants, and 16 del-VUSs in Group 2. For each detected variant, we provide a description of its functional significance and geographical distribution.ConclusionThe present study offers extensive genetic data on the Russian population, critical for future genetic research and improved primary cancer prevention and genetic screening strategies. The proposed hybrid assessment algorithm streamlines variant prioritization and pathogenicity assessment and offers a reliable and verifiable way of identifying variants of uncertain significance that need to be manually reviewed.

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