Speech dyspraxia and dysarthria – the other side of GRIN2A

GRIN2A. Mutations in several genes coding for NMDA receptor subunits have recently been found in various neurodevelopmental disorders. Amongst the different genes, GRIN2A is one of the most prominent ones and mutations in this gene are found in patients with epilepsy-aphasia syndromes. So far, we have mainly looked at GRIN2A from the epilepsy side. In a recent publication in Neurology, Turner and collaborators now examine the speech phenotype in GRIN2A families. They examine two families where speech issues are a prominent phenotypic feature. It turns out that GRIN2A mutations may predispose to a distinct speech phenotype. Continue reading

ESES and the postsynapse – CNKSR2 in genetic epilepsies

Structure. Despite tremendous advances in understanding its genetic underpinnings in the last few years, electrical status epilepticus during slow-wave sleep (ESES) is a poorly understood neurodevelopmental disorder and to a certain extent the prototype of an epileptic encephalopathy. Slow-wave sleep in affected children is entirely replaced by epileptiform activity, leading to significant neurocognitive impairment with an emphasis on speech impairment. In a recent publication in Annals of Neurology, alterations in CNKSR2 are identified in families with a more severe course of ESES, highlighting the postsynapse as a possible player in ESES pathogenesis. Continue reading

GRIN2A encephalopathy, epilepsy-aphasia and rolandic spikes

The GRIN2A triple. The idiopathic focal epilepsies are a group of childhood seizure disorders ranging from mild, self-limiting rolandic epilepsy to severe epileptic encephalopathies. The EEG feature of sharp-slow waves originating from the rolandic region is the unifying feature. As the rolandic region is part of the brain regions involved in speech production, acquired aphasia, i.e. loss of speech, can be a prominent feature in some patients. A strong genetic contribution in idiopathic focal epilepsies is assumed, but the genes involved have remained largely elusive. Now, three back-to-back publications in Nature Genetics highlight a prominent role of GRIN2A, probably the most counter-intuitive epilepsy gene ever found. Continue reading

Pushing the button for the next exome sequencing round

Galvanize. Last week, the EuroEPINOMICS RES working groups made the final decisions for the selection of trios for exome sequencing at the Sanger Centre, funded jointly by the Sanger Programme on paroxysmal neurological disorders and the EuroEpinomics RES fund. We pushed the button for 102 patient-parent trios to be sequenced. And for some reason, I caught myself humming “Galvanize“, the 2005 big beat hymn by the Chemical Brothers. Continue reading