AUTHOR=Liu Liu , Chen Zi-Rong , Xu Hai-Qing , Liu De-Tian , Mao Yong , Liu Han-Kui , Liu Xiao-Rong , Zhou Peng , Lin Si-Mei , Li Bin , He Na , Su Tao , Zhai Qiong-Xiang , Meng Heng , Liao Wei-Ping , Yi Yong-Hong 

TITLE=DEPDC5 Variants Associated Malformations of Cortical Development and Focal Epilepsy With Febrile Seizure Plus/Febrile Seizures: The Role of Molecular Sub-Regional Effect

JOURNAL=Frontiers in Neuroscience

VOLUME=14

YEAR=2020

URL=https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2020.00821

DOI=10.3389/fnins.2020.00821

ISSN=1662-453X

ABSTRACT=<p>To explore the phenotype spectrum of <italic>DEPDC5</italic> variants and the possible mechanisms underlying phenotypical variation, we performed targeted next-generation sequencing in 305 patients with focal epilepsies and 91 patients with generalized epilepsies. Protein modeling was performed to predict the effects of missense mutations. All previously reported epilepsy-related <italic>DEPDC5</italic> variants were reviewed. The genotype–phenotype correlations with molecular sub-regional implications were analyzed. We identified a homozygous <italic>DEPDC5</italic> mutation (p.Pro1031His) in a case with focal cortical dysplasia and eight heterozygous mutations in 11 families with mild focal epilepsies, including 13 patients in eight families with focal epilepsy with febrile seizures plus/febrile seizures (FEFS + /FS). The mutations included one termination codon mutation (p.Ser1601_Ter1604del_ext133), three truncating mutations (p.Val151Serfs<sup>∗</sup>27, p.Arg239<sup>∗</sup>, and p.Arg838<sup>∗</sup>), and four missense mutations (p.Tyr7Cys, p.Tyr836Cys, p.Pro1031His, and p.Gly1545Ser) that were predicted to affect hydrogen bonds and protein stability. Analysis on epilepsy-related <italic>DEPDC5</italic> variants revealed that malformations of cortical development (MCDs) had a tendency of higher frequency of null mutations than those without MCD. MCD-associated heterozygous missense mutations were clustered in structural axis for binding arrangement (SABA) domain and close to the binding sites to NPRL2/NPRL3 complex, whereas those associated with FEFS + /FS were a distance away from the binding sites. Evidence from four aspects and one possible evidence from sub-regional implication suggested MCD and FEFS + /FS as phenotypes of <italic>DEPDC5</italic> variants. This study suggested that the phenotypes of <italic>DEPDC5</italic> variants vary from mild FEFS + /FS to severe MCD. Heterozygous <italic>DEPDC5</italic> mutations are generally less pathogenic and commonly associated with mild phenotypes. Bi-allelic mutations and second hit of somatic mutations, together with the genotype–phenotype correlation and sub-regional implication of <italic>DEPDC5</italic> variants, explain severe phenotypes.</p>