mTOR Pathway Somatic Pathogenic Variants in Focal Malformations of Cortical Development: Novel Variants, Topographic Mapping, and Clinical Outcomes

Eric Krochmalnek; Andrea Accogli; Judith St-Onge; Nassima Addour-Boudrahem; Gyan Prakash; Sung-Hoon Kim; Tristan Brunette-Clement; Ghadd Alhajaj; Lina Mougharbel; Elena Bruneau; Kenneth A Myers; Francois Dubeau; Jason Karamchandani; Jean-Pierre Farmer; Jeffrey Atkinson; Jeffrey Hall; Chantal Chantal Poulin; Bernard Rosenblatt; Joel Lafond-Lapalme; Alexander Weil; Catherine Fallet-Bianco; Steffen Albrecht; Nahum Sonenberg; Jean-Baptiste Riviere; Roy W Dudley; Myriam Srour

doi:10.1212/NXG.0000000000200103

mTOR Pathway Somatic Pathogenic Variants in Focal Malformations of Cortical Development: Novel Variants, Topographic Mapping, and Clinical Outcomes

Neurol Genet. 2023 Oct 26;9(6):e200103. doi: 10.1212/NXG.0000000000200103. eCollection 2023 Dec.

Authors

Eric Krochmalnek¹, Andrea Accogli¹, Judith St-Onge¹, Nassima Addour-Boudrahem¹, Gyan Prakash¹, Sung-Hoon Kim¹, Tristan Brunette-Clement¹, Ghadd Alhajaj¹, Lina Mougharbel¹, Elena Bruneau¹, Kenneth A Myers¹, Francois Dubeau¹, Jason Karamchandani¹, Jean-Pierre Farmer¹, Jeffrey Atkinson¹, Jeffrey Hall¹, Chantal Chantal Poulin¹, Bernard Rosenblatt¹, Joel Lafond-Lapalme¹, Alexander Weil¹, Catherine Fallet-Bianco¹, Steffen Albrecht¹, Nahum Sonenberg¹, Jean-Baptiste Riviere¹, Roy W Dudley¹, Myriam Srour¹

Affiliation

¹ From the Research Institute of the McGill University Health Centre (E.K., J.S.-O., N.A.-B., L.M., E.B., K.A.M., J.L.-L., J.-B.R., R.W.D., M.S.); Integrated Program in Neuroscience (E.K.), McGill University; Department of Specialized Medicine (A.A.), McGill University Health Centre; Department of Human Genetics (A.A., J.-B.R.), Faculty of Medicine; Goodman Cancer Centre (G.P., S.-H.K., N.S.), Department of Biochemistry, McGill University; Department of Pediatric Neurosurgery (T.B.-C., A.W.), Centre Hospitalier Universitaire Sainte-Justine, University of Montreal; Division of Pediatric Neurology (G.A., K.A.M., C.C.P., M.S.), Department of Pediatrics, McGill University, Montreal, Quebec, Canada; Department of Pediatrics (G.A.), Unaizah College of Medicine and Medical Sciences, Qassim University, Saudi Arabia; Department of Neurology and Neurosurgery (K.A.M., F.D., J.H., C.C.P., M.S.), McGill University Health Centre; Department of Pathology (J.K., S.A.), McGill University; Division of Neurosurgery (J.-P.F., J.A., R.W.D.), Department of Pediatric Surgery, McGill University Health Center; McGill University (B.R.); Department of Pathology (C.F.-B.), Centre Hospitalier Universitaire Sainte-Justine, University of Montreal, Quebec, Canada.

Abstract

Background and objectives: Somatic and germline pathogenic variants in genes of the mammalian target of rapamycin (mTOR) signaling pathway are a common mechanism underlying a subset of focal malformations of cortical development (FMCDs) referred to as mTORopathies, which include focal cortical dysplasia (FCD) type II, subtypes of polymicrogyria, and hemimegalencephaly. Our objective is to screen resected FMCD specimens with mTORopathy features on histology for causal somatic variants in mTOR pathway genes, describe novel pathogenic variants, and examine the variant distribution in relation to neuroimaging, histopathologic classification, and clinical outcomes.

Methods: We performed ultra-deep sequencing using a custom HaloPlex^HS Target Enrichment kit in DNA from 21 resected fresh-frozen histologically confirmed FCD type II, tuberous sclerosis complex, or hemimegalencephaly specimens. We mapped the variant alternative allele frequency (AAF) across the resected brain using targeted ultra-deep sequencing in multiple formalin-fixed paraffin-embedded tissue blocks. We also functionally validated 2 candidate somatic MTOR variants and performed targeted RNA sequencing to validate a splicing defect associated with a novel DEPDC5 variant.

Results: We identified causal mTOR pathway gene variants in 66.7% (14/21) of patients, of which 13 were somatic with AAF ranging between 0.6% and 12.0%. Moreover, the AAF did not predict balloon cell presence. Favorable seizure outcomes were associated with genetically clear resection borders. Individuals in whom a causal somatic variant was undetected had excellent postsurgical outcomes. In addition, we demonstrate pathogenicity of the novel c.4373_4375dupATG and candidate c.7499T>A MTOR variants in vitro. We also identified a novel germline aberrant splice site variant in DEPDC5 (c.2802-1G>C).

Discussion: The AAF of somatic pathogenic variants correlated with the topographic distribution, histopathology, and postsurgical outcomes. Moreover, cortical regions with absent histologic FCD features had negligible or undetectable pathogenic variant loads. By contrast, specimens with frank histologic abnormalities had detectable pathogenic variant loads, which raises important questions as to whether there is a tolerable variant threshold and whether surgical margins should be clean, as performed in tumor resections. In addition, we describe 2 novel pathogenic variants, expanding the mTORopathy genetic spectrum. Although most pathogenic somatic variants are located at mutation hotspots, screening the full-coding gene sequence remains necessary in a subset of patients.