The NMDA receptor NR2B subunit contributes to epileptogenesis in human cortical dysplasia

Cortical dysplasia (CD) is often associated with pharmacoresistant epilepsy. Previous studies showed increased expression of the NMDA receptor subunit NR2B in dysplastic and epileptic human neocortex. We tested the hypothesis that differential increase of NR2B constitutes an epileptogenic mechanism in humans. Dysplastic neocortex and lateral temporal lobe regions resected for treatment of pharmacoresistant seizures were processed for electrophysiological, histological, and immunocytochemical studies. Assignment to the dysplastic (n = 8) and non-dysplastic (n = 8) groups was based on histology. Neurons in dysplastic samples differentially stained for NR2B. Western blot (n = 6) showed an immunoreactive band for NR2B in three out of four dysplastic samples. Epileptiform field potentials (EFP) were elicited in vitro by omission of magnesium from the bath. EFP in dysplastic slices were characterized by multiple afterdischarges, occurring at a significantly higher repetition rate than EFP in non-dysplastic slices. The NR2B-specific NMDA receptor inhibitor ifenprodil (10 mu M) suppressed EFP in dysplastic slices. In non-dysplastic slices, burst repetition rate did not change with ifenprodil application. In both dysplastic and non-dysplastic slices, EFP were suppressed by a non-specific NMDAR antagonist (APV) or AMPA receptor antagonist (CNQX). These results provide additional evidence that the differential expression of NR2B in dysplastic human neocortex may play a role in the expression of in-situ epileptogenesis in human CD. NR2B may constitute a target for new diagnostic and pharmacotherapeutic approaches. (c) 2005 Elsevier B.V. All rights reserved.