BCOR variants are associated with X-linked recessive partial epilepsy.

OBJECTIVE:BCOR gene, encoding a corepressor of BCL6, plays an important role in fetal development. BCOR mutations were previously associated with oculofaciocardiodental syndrome (OFCD or MCOPS2, OMIM# 300166). The BCOR protein is ubiquitously expressed in multiple areas, including the brain. However, the role of BCOR in neurological disorder remains elusive. METHODS:Trios-based whole-exome sequencing was performed in a cohort of 323 cases with partial epilepsy without acquired causes. RESULTS:Seven hemizygous missense BCOR variants, including c 0.103 G>C/p.Asp35His, c.1079 A>G/p.His360Arg, c 0.1097 C>T/p.Thr366Ile, c 0.3301 C>T/p.Pro1101Ser, c 0.3391 C>T/p.Arg1131Trp, c 0.4199 G>A/p.Arg1400Gln, and c 0.5254 G>A/p.Asp1752Asn, were identified in seven cases with partial epilepsy. Two patients presented partial seizures with generalized seizures and/or generalized discharges. One case showed cortical dysplasia in the right temporal-occipital area on MRI. Two cases presented mild developmental delay. However, all patients achieved seizure-free. The frequency of BCOR variants in the present cohort was significantly higher than that in the controls of healthy Chinese volunteers and all populations of Genome Aggregation Database (gnomAD). Computational modeling, including hydrogen bond and prediction of protein stability, implied that the variants lead to structural impairment. Previously, OFCD associated BCOR mutations were mostly destructive mutations in an X-linked dominant (XLD) pattern; in contrast, the BCOR variants identified in this study were all missense variants, which were associated with partial epilepsy in an X-linked recessive (XLR) pattern. The proportion of missense mutations in epilepsy was significantly higher than that in OFCD. CONCLUSIONS:BCOR was potentially a candidate pathogenic gene of partial epilepsy with or without developmental delay. The genotype-phenotype correlation helps understanding the mechanism underlying phenotypic variation.