NFB-16. mTOROPATHIES AND SUBEPENDYMAL GIANT CELL ASTROCYTOMAS: PREDICTIVE VALUE OF GERMINAL TSC1/2 MUTATIONS SCREENING IN FAMILIAL CASES

mTOR controls several important aspects of cell function particularly in the nervous system. Its hyperactivation has been involved in tuberous sclerosis complex (TSC) and other mTORopathies as well as drug-resistant epilepsy. Mutations in TSC1 and TSC2 genes cause loss of normal inhibition of mTORC1 complex, leading to cell overgrowth and disruptions in synaptogenesis. Many children and adults with TSC harbour neurologic defects especially subependymal giant cell astrocytomas (SEGAs) in the brain. Here, we have performed mutational analysis followed by a genetic counselling for a Tunisian family from Sfax town harboring epileptic seizures associated to a neurocutaneous disorder. Index cases were referred for renal angiolipomas (RAL) associated to seizures crisis and were diagnosed as having TSC. The first 26-year-old patient complained of epilepsy since the age of 22 with left temporal crisis related to cortical tubers near the Heschl’s gyrus. His brother, a 36-year-old man presented more severe epileptic crisis (since 15 years-old), multiples RAL, subependymal nodules, and a rapid evolution of his mTORopathy with tumoral progression of his renal and central nerve lesions: renal cell carcinoma and SEGAs. TSC1 gene mutation screening showed heterozygous two bp deletion at codons 213 and 214 of exon 5. SEGAs are rare, low-grade glioneuronal brain tumors that occur almost exclusively in TSC patients but can lead to nervous complications. We showed through this report, the predictive value of germinal TSC mutations screening in familial cases, because early recognition of the molecular defect may lead to appropriate management of the tumoral progression.