Early-onset epileptic encephalopathy in a girl carrying a truncating mutation of the ARX gene: rethinking the ARX phenotype in females.

Severe early-onset epilepsy is due to a number of known causes, although a clear etiology is not identifiable in up to a third of all the cases. Pathogenic sequence variations in the ARX gene have been described almost exclusively in males, whereas heterozygous female relatives, such as mothers, sisters and even grandmothers have been largely reported as asymptomatic or mildly affected. To investigate the pathogenic role of ARX in refractory epilepsy of early onset even in females, we have screened the ARX sequence in a population of 50 female subjects affected with unexplained epileptic encephalopathy with onset in the first year of life. We report the identification of a novel truncating mutation of the coding region of the ARX gene in a girl with a structurally normal brain. Our findings confirm the role of ARX in the pathogenesis of early epilepsy and underline the importance of screening of the ARX gene in both male and female subjects with otherwise unexplained early onset epileptic encephalopathy.

Familial Ohtahara syndrome due to a novel ARX gene mutation.

Recently, it has been reported that longer expansions of the polyalanine tract of the ARX gene could cause an early infantile encephalopathy with suppression burst pattern and that the length of this repeat region could be related to the severity of the electroclinical picture. We describe the history of two male individuals, born from monozygotic twin sisters, with Ohtahara syndrome (OS) that evolved into West syndrome phenotype and epileptic encephalopathy. In both children, we have found a previously unreported missense mutation in exon 5 of ARX gene (c.1604T>A) resulting in the substitution of a leucine with a glutamine in the aminoacid sequence. The two mothers and the maternal grandmother carry the same mutation which segregates with the disease phenotype in the family. This study confirms that ARX is involved in the pathogenesis of cryptogenic early onset epileptic encephalopathy, such as OS, and suggests that the severity of the electroclinical picture is likely to not exclusively correlate with the extent of expansions of the polyalanine tracts, but rather with the functional effect of different pathogenetic mutations.