BACKGROUND: Malformations of cortical development are not rare and cause a wide spectrum of neurological diseases based on the affected region in the cerebral cortex. A significant proportion of these malformations could have a genetic basis. However, genetic studies are limited because most cases are sporadic and mendelian forms are rare. METHODS: In order to identify new genetic causes in patients presenting defects of cortical organisation, array based comparative genomic hybridisation was performed in a cohort of 100 sporadic cases with various types of cortical malformations in search for inframicroscopic chromosomal rearrangements. RESULTS: In one patient presenting with periventricular nodular heterotopias and pronounced corpus callosum hypoplasia, a small (400 kb) 17p13.3 deletion involving the YWHAE gene was identified. It is shown that YWHAE is the only brain expressed gene in the deleted region and that the other genes in the interval are unlikely to contribute to the brain malformation phenotype of this patient. CONCLUSION: Most 17p13.3 deletions reported to date are large, such as the deletions causing Miller-Dieker syndrome, and involve several genes implicated in various steps of brain development. Haploinsufficiency of the mouse orthologue of YWHAE causes a defect of neuronal migration. However, the human counterpart of this phenotype was not known. The case described here represents the smallest reported deletion involving the YWHAE gene and could represent the human counterpart of the abnormal cortical organisation phenotype presented by the Ywhae heterozygous knockout mouse.
BACKGROUND:Malformations of cortical development are not rare and cause a wide spectrum of neurological diseases based on the affected region in the cerebral cortex. A significant proportion of these malformations could have a genetic basis. However, genetic studies are limited because most cases are sporadic and mendelian forms are rare. METHODS: In order to identify new genetic causes in patients presenting defects of cortical organisation, array based comparative genomic hybridisation was performed in a cohort of 100 sporadic cases with various types of cortical malformations in search for inframicroscopic chromosomal rearrangements. RESULTS: In one patient presenting with periventricular nodular heterotopias and pronounced corpus callosum hypoplasia, a small (400 kb) 17p13.3 deletion involving the YWHAE gene was identified. It is shown that YWHAE is the only brain expressed gene in the deleted region and that the other genes in the interval are unlikely to contribute to the brain malformation phenotype of this patient. CONCLUSION: Most 17p13.3 deletions reported to date are large, such as the deletions causing Miller-Dieker syndrome, and involve several genes implicated in various steps of brain development. Haploinsufficiency of the mouse orthologue of YWHAE causes a defect of neuronal migration. However, the human counterpart of this phenotype was not known. The case described here represents the smallest reported deletion involving the YWHAE gene and could represent the human counterpart of the abnormal cortical organisation phenotype presented by the Ywhae heterozygous knockout mouse.
Authors: Marshall I Barros Fontes; Ana P Dos Santos; Fábio Rossi Torres; Iscia Lopes-Cendes; Fernando Cendes; Simone Appenzeller; Tânia Kawasaki de Araujo; Isabella Lopes Monlleó; Vera L Gil-da-Silva-Lopes Journal: Mol Syndromol Date: 2016-11-25
Authors: Cynthia J Curry; Jill A Rosenfeld; Erica Grant; Karen W Gripp; Carol Anderson; Arthur S Aylsworth; Taha Ben Saad; Victor V Chizhikov; Giedre Dybose; Christina Fagerberg; Michelle Falco; Christina Fels; Marco Fichera; Jesper Graakjaer; Donatella Greco; Jennifer Hair; Elizabeth Hopkins; Marlene Huggins; Roger Ladda; Chumei Li; John Moeschler; Malgorzata J M Nowaczyk; Jillian R Ozmore; Santina Reitano; Corrado Romano; Laura Roos; Rhonda E Schnur; Susan Sell; Pim Suwannarat; Dea Svaneby; Marta Szybowska; Mark Tarnopolsky; Raymond Tervo; Anne Chun-Hui Tsai; Megan Tucker; Stephanie Vallee; Ferrin C Wheeler; Dina J Zand; A James Barkovich; Swaroop Aradhya; Lisa G Shaffer; William B Dobyns Journal: Am J Med Genet A Date: 2013-06-27 Impact factor: 2.802