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Molecular characterization of Hemimegalencephaly

$621,965R01FY2016NSNIH

Rockefeller University, New York NY

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Abstract

DESCRIPTION (provided by applicant): Molecular characterization of hemimegalencephaly Abstract Somatic mutations, in which a fraction of the cells in the body have a deleterious mutation, is well recognized in cancer but only recently appreciated in neurological disease. In the setting of a somatic mutation in a population of progenitor cells, all daughter cells inherit te mutation and are able to express the resultant phenotype as a function of the differentiation program. We recently identified the first de novo somatic mutations in the developing brain in the condition hemimegalencephaly, (HME) a catastrophic focal epilepsy condition associated with a malformation of cerebral cortical development (MCD). HME is one of the most severe MCD syndromes, characterized by massive hamartomatous overgrowth of either of the two cerebral hemispheres. Cerebral hemispherectomy is a frequent treatment for the refractory epilepsy, allowing sampling of diseased tissue. By comparing DNA from diseased brain with DNA from blood/saliva, we identified de novo somatic mutations in PIK3CA, AKT3 or MTOR, part of the mTOR pathway. Mutations were present in 8-40% of sequenced alleles in various brain regions sampled during surgery, and some in codons known to activate the protein. However, the pilot study was based on a limited sample size. The goal of this application is to expand upon our initial findings, and elucidate the genetic, developmental, signaling and cell biological mechanisms of HME, particularly in the context of mammalian cortex development. We will combine next-generation sequencing of diseased brain from HME patients with advanced bioinformatics, complete clinical correlated neuroanatomy, and mouse modeling to help advance our understanding of the mechanism of this important disease. We will: 1] Test for de novo somatic mutations in a larger retrospectively and prospectively collected cohort of HME patients. 2] Correlate genetic disease burden with clinical, imaging, and histopathological findings (phenotype). 3] Test how these de novo mutations alter progenitor cell functions in the developing cerebral cortex. The goal of the experiments is to determine how mutations in these genes lead to disrupted cortical development, why these lesions are epileptogenic, and whether repurposing approved medications might benefit patients, with relevance to other focal dysplasias and focal epilepsies.

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