SRPX2 mutations in disorders of language cortex and cognition | Zendy

Patrice Roll | Zendy; Gabrielle Rudolf | Zendy; Sandrine Pereira | Zendy; Barbara Royer | Zendy; Ingrid E. Scheffer | Zendy; Annick Massacrier | Zendy; Mp Valenti | Zendy; N. Roeckel-Trevisol | Zendy; Sara Jamali | Zendy; Christophe Béclin | Zendy; Caroline Seegmüller | Zendy; Mn Metz-Lutz | Zendy; Arnaud Lemainque | Zendy; Marc Delépine | Zendy; Christophe Caloustian | Zendy; Anne de Saint Martin | Zendy; Nadine Bruneau | Zendy; D. Depétris | Zendy; MarieGeneviève Mattéi | Zendy; Elisabeth Flori | Zendy; Andrée RobagliaSchlupp | Zendy; Nicolas Lévy | Zendy; Ba Neubauer | Zendy; Rivka Ravid | Zendy; Christian Marescaux | Zendy; Samuel F. Berkovic | Zendy; Édouard Hirsch | Zendy; Mark Lathrop | Zendy; P. Cau | Zendy; Pierre Szepetowski | Zendy

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SRPX2 mutations in disorders of language cortex and cognition

Author(s) -

Patrice Roll,

Gabrielle Rudolf,

Sandrine Pereira,

Barbara Royer,

Ingrid E. Scheffer,

Annick Massacrier,

Mp Valenti,

N. Roeckel-Trevisol,

Sara Jamali,

Christophe Béclin,

Caroline Seegmüller,

Mn Metz-Lutz,

Arnaud Lemainque,

Marc Delépine,

Christophe Caloustian,

Anne de Saint Martin,

Nadine Bruneau,

D. Depétris,

MarieGeneviève Mattéi,

Elisabeth Flori,

Andrée RobagliaSchlupp,

Nicolas Lévy,

Ba Neubauer,

Rivka Ravid,

Christian Marescaux,

Samuel F. Berkovic,

Édouard Hirsch,

Mark Lathrop,

P. Cau,

Pierre Szepetowski

Publication year - 2006

Publication title -

human molecular genetics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.811

H-Index - 276

eISSN - 1460-2083

pISSN - 0964-6906

DOI - 10.1093/hmg/ddl035

Subject(s) - biology , foxp2 , mutation , neuroscience , human brain , mutant , cognition , genetics , gene , transcription factor

The rolandic and sylvian fissures divide the human cerebral hemispheres and the adjacent areas participate in speech processing. The relationship of rolandic (sylvian) seizure disorders with speech and cognitive impairments is well known, albeit poorly understood. We have identified the Xq22 gene SRPX2 as being responsible for rolandic seizures (RSs) associated with oral and speech dyspraxia and mental retardation (MR). SRPX2 is a secreted sushi-repeat containing protein expressed in neurons of the human adult brain, including the rolandic area. The disease-causing mutation (N327S) resulted in gain-of-glycosylation of the secreted mutant protein. A second mutation (Y72S) was identified within the first sushi domain of SRPX2 in a male with RSs and bilateral perisylvian polymicrogyria and his female relatives with mild MR or unaffected carrier status. In cultured cells, both mutations were associated with altered patterns of intracellular processing, suggesting protein misfolding. In the murine brain, Srpx2 protein expression appeared in neurons at birth. The involvement of SRPX2 in these disorders suggests an important role for SRPX2 in the perisylvian region critical for language and cognitive development.

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