Epilepsy & Behavior Reports (Jan 2021)

Genetic cause of epilepsy in a Greek cohort of children and young adults with heterogeneous epilepsy syndromes

  • Ioannis Zaganas,
  • Pelagia Vorgia,
  • Martha Spilioti,
  • Lambros Mathioudakis,
  • Maria Raissaki,
  • Stavroula Ilia,
  • Melpomeni Giorgi,
  • Irene Skoula,
  • Georgios Chinitrakis,
  • Kleita Michaelidou,
  • Evangelos Paraskevoulakos,
  • Olga Grafakou,
  • Chariklia Kariniotaki,
  • Thekla Psyllou,
  • Spiros Zafeiris,
  • Maria Tzardi,
  • George Briassoulis,
  • Argirios Dinopoulos,
  • Panayiotis Mitsias,
  • Athanasios Evangeliou

Journal volume & issue
Vol. 16
p. 100477

Abstract

Read online

We describe a cohort of 10 unrelated Greek patients (4 females, 6 males; median age 6.5 years, range 2–18 years) with heterogeneous epilepsy syndromes with a genetic basis. In these patients, causative genetic variants, including two novel ones, were identified in 9 known epilepsy-related genes through whole exome sequencing. A patient with glycine encephalopathy was a compound heterozygote for the p.Arg222Cys and the p.Ser77Leu AMT variant. A patient affected with Lafora disease carried the homozygous p.Arg171His EPM2A variant. A de novo heterozygous variant in the GABRG2 gene (p.Pro282Thr) was found in one patient and a pathogenic variant in the GRIN2B gene (p.Gly820Val) in another patient. Infantile-onset lactic acidosis with seizures was associated with the p.Arg446Ter PDHX gene variant in one patient. In two additional epilepsy patients, the p.Ala1662Val and the novel non-sense p.Phe1330Ter SCN1A gene variants were found. Finally, in 3 patients we observed a novel heterozygous missense variant in SCN2A (p.Ala1874Thr), a heterozygous splice site variant in SLC2A1 (c.517-2A>G), as a cause of Glut1 deficiency syndrome, and a pathogenic variant in STXBP1 (p.Arg292Leu), respectively. In half of our cases (patients with variants in the GRIN2B, SCN1A, SCN2A and SLC2A1 genes), a genetic cause with potential management implications was identified.

Keywords