Whole genome sequencing completes the molecular genetic testing workflow of patients with Lynch syndrome.

Horti-Oravecz, Klaudia [Horti-Oravecz, Klaudia (Molekuláris biológia), author] National Institute of Oncology; School of PhD Studies (SU); Bozsik, Anikó* [Bozsik, Anikó (Molekuláris bioló...), author] National Institute of Oncology; HUN-REN-SE Research Group for Hereditary Tumors (SU / FM / I / DLM); Pócza, Tímea [Pócza, Tímea (Biológus), author] National Institute of Oncology; Vereczkey, Ildikó [Vereczkey, Ildikó (nőgyógyászati pat...), author] National Institute of Oncology; Strausz, Tamás [Strausz, Tamás (Patológia), author] National Institute of Oncology; Tóth, Erika [Tóth, Erika (patológia), author] National Institute of Oncology; Sedlackova, Tatiana; Rusnakova, Diana; Szemes, Tomas; Likó, István [Likó, István (Bioinformatika-Mo...), author] HUN-REN-SE Research Group for Hereditary Tumors (SU / FM / I / DLM); Oláh, Edit [Oláh, Edit (molekuláris onkol...), author] National Institute of Oncology; Butz, Henriett [Butz, Henriett (orvostudomány), author] National Institute of Oncology; HUN-REN-SE Research Group for Hereditary Tumors (SU / FM / I / DLM); Department of Laboratory Medicine (SU / FM / I); Patócs, Attila [Patócs, Attila Balázs (Orvostudomány), author] National Institute of Oncology; HUN-REN-SE Research Group for Hereditary Tumors (SU / FM / I / DLM); Department of Laboratory Medicine (SU / FM / I); Papp, János** [Papp, János (molekuláris genetika), author] National Institute of Oncology; Grolmusz, Vince Kornél ✉ [Grolmusz, Vince Kornél (orvostudomány), author] National Institute of Oncology; HUN-REN-SE Research Group for Hereditary Tumors (SU / FM / I / DLM); Department of Laboratory Medicine (SU / FM / I)

English Article (Journal Article) Scientific
Published: NPJ GENOMIC MEDICINE 2056-7944 2056-7944 10 (1) Paper: 5 , 17 p. 2025
  • SJR Scopus - Genetics (clinical): D1
Identifiers
Fundings:
  • (National Tumor Biology Laboratory (2022–2.1.1-NL-2022-00010)))
  • Hungarian Thematic Excellence Program((TKP2021-EGA-44))
  • (NKFIH-FK-138377)
  • (János Bolyai Postdoctoral Scholarship (BO/00141/21))
  • Kulturális és Innovációs Minisztérium Új Nemzeti Kiválósági Ösztöndíja(ÚNKP-22-5-SE-25) Funder: Ministry of Culture and Innovation
  • (ÚNKP-23-5-SE-16)
  • (NRDI NKFI-FK135065)
  • (ÚNKP-23-5-SE-4)
Multigene panel tests (MGPTs) revolutionized the diagnosis of Lynch syndrome (LS), however noncoding pathogenic variants (PVs) can only be detected by complementary methods including whole genome sequencing (WGS). Here we present a DNA-, RNA- and tumor tissue-based WGS prioritization workflow for patients with a suspicion of LS where MGPT detected no LS-related PV. Among the 100 enrolled patients, MGPT detected 28 simple PVs and an additional 3 complex PVs. Among the 69 MGPT-negative patients, the lack of somatic MLH1 promoter methylation in a patient with a distinguished MLH1 allelic imbalance selected this sample for WGS. This returned a germline deep intronic MLH1 variant, with further functional studies confirming its' pathogenicity. Interestingly, all three complex PVs and the MLH1 deep intronic PV were found to be recurrent at our center. Our straightforward and cost-effective prioritization workflow can optimally include WGS in the genetic diagnosis of LS.
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2025-04-02 00:54