Rare gene deletions in genetic generalized and Rolandic epilepsies.

Genetic Generalized Epilepsy (GGE) and benign epilepsy with centro-temporal spikes or Rolandic Epilepsy (RE) are common forms of genetic epilepsies. Rare copy number variants have been recognized as important risk factors in brain disorders. We performed a systematic survey of rare deletions affecting protein-coding genes derived from exome data of patients with common forms of genetic epilepsies. We analysed exomes from 390 European patients (196 GGE and 194 RE) and 572 population controls to identify low-frequency genic deletions. We found that 75 (32 GGE and 43 RE) patients out of 390, i.e. ~19%, carried rare genic deletions. In particular, large deletions (>400 kb) represent a higher burden in both GGE and RE syndromes as compared to controls. The detected low-frequency deletions (1) share genes with brain-expressed exons that are under negative selection, (2) overlap with known autism and epilepsy-associated candidate genes, (3) are enriched for CNV intolerant genes recorded by the Exome Aggregation Consortium (ExAC) and (4) coincide with likely disruptive de novo mutations from the NPdenovo database. Employing several knowledge databases, we discuss the most prominent epilepsy candidate genes and their protein-protein networks for GGE and RE.

Progress in unraveling the genetic etiology of rolandic epilepsy.

Rolandic epilepsy (RE), or benign epilepsy of childhood with centrotemporal spikes (BECT), is the most frequent idiopathic partial epilepsy syndrome of childhood, where the "idiopathic" implies a genetic predisposition. Although RE has long been presumed to have a genetic component, clinical and genetic studies have shown a complex inheritance pattern. Furthermore, the underlying major genetic influence in RE has been challenged by recent reports of twin studies. Meanwhile, many genes or loci have been shown to be associated the RE/atypical RE (ARE) spectrum, with a higher frequency of causative variants in ARE. However, a full understanding of the genetic basis in the more common forms of the RE spectrum remains elusive.

Estudio descriptivo de las epilepsias no sintomáticas según la edad de inicio en una unidad de neuropediatría de referencia regional / A descriptive study of non-symptomatic epilepsy according to age at onset at a Neuropediatric Section of regional reference

Objetivo. Estudio descriptivo de las epilepsias no sintomáticas (idiopáticas y criptogénicas), según la edad de inicio, controladas en una unidad de neuropediatría de referencia regional durante tres años. Pacientes y métodos. Revisión de historias de niños con epilepsia no sintomática de la base de datos de neuropediatría controlados del 1 de enero de 2008 al 31 de diciembre de 2010. Resultados. De 4.595 niños atendidos en el período, se diagnosticaron de epilepsia 605 (13,17%), de las cuales 156 (25,79%) fueron idiopáticas, y 172 (28,43%), criptogénicas. La edad media de inicio del total fue de 4,78 años; 6,31 años en las idiopáticas y 5,43 años en las criptogénicas. El 26,12% del total de epilepsias se inició en el primer año. Las epilepsias idiopáticas predominan en el grupo de inicio de 6-10 años, y las criptogénicas, en el de 3-6 años. La epilepsia de ausencias y la epilepsia benigna de la infancia con paroxismos centrotemporales son los síndromes epilépticos idiopáticos más prevalentes. Conclusiones. Existen muchas diferencias de datos epidemiológicos publicados sobre epilepsia infantil por la dificultad que entraña un diagnóstico sindrómico en la edad pediátrica, debido a la variabilidad clínica y electroencefalográfica. La ausencia de una clasificación universalmente aceptada de los síndromes epilépticos dificulta comparaciones entre series. Todas las epilepsias son sintomáticas, puesto que tienen causa, sea genética o adquirida. Una clasificación útil es la etiológica, con dos grupos: un gran grupo con las etiologías establecidas o síndromes genéticos muy probables y otro de casos sin causa establecida. La edad de inicio orienta a determinadas etiologías (AU)

Aim. A descriptive study of non-symptomatic epilepsy (idiopathic and cryptogenic), according to age at onset, monitored at a Neuropediatric Section of regional reference over a period of three years. Patients and methods. A review of neuropediatric database medical records of children with non-symptomatic epilepsy supervised from Jan 1, 2008 till December 31, 2010. Results. Of the 4595 children attended during the period, 605 were diagnosed with epilepsy (13.17%): 156 (25.79%) idiopathic epilepsies and 172 (28.43%) cryptogenic epilepsies. The average age at onset of the total was 4.78 years: 6.31 years in idiopathic epilepsies and 5.43 years in cryptogenic epilepsies. 26.12% of all the epilepsies began in the first year of life. Idiopathic epilepsy predominates in the startup group of 6-10 years and cryptogenic epilepsy in 3-6 years. Absence epilepsy and benign childhood epilepsy with centro-temporal spikes are the idiopathic epileptic syndromes most prevalent. Conclusions. Many differences exist among published epidemiological data on childhood epilepsy due to the difficulty of a syndromic diagnosis in children, caused by clinical and electroencephalographic variability. The absence of a universally accepted classification of epileptic syndromes makes it difficult to compare publications. All epilepsies are symptomatic as they have a cause, whether it be genetic or acquired. A useful classification would be etiological, with two groups: one large with established etiology or very likely genetic syndromes and another with no established cause. The age at onset indicates specific etiologies (AU)

Altered attention networks in benign childhood epilepsy with centrotemporal spikes (BECTS): A resting-state fMRI study.

It is noteworthy that some children with benign childhood epilepsy with centrotemporal spikes (BECTS) show attention problems despite their favorable seizure outcome. Resting-state functional magnetic resonance imaging (fMRI) is a method widely used to detect brain network alterations in neuropsychiatric diseases. We used resting-state functional magnetic resonance imaging (fMRI) to investigate specific brain networks related to attention deficit in children with BECTS. Resting-state fMRI was performed in patients with BECTS with ADHD (n=15) and those with BECTS without ADHD (n=15) and in healthy controls (n=15). Unbiased seed-based whole-brain functional connectivity analysis was used to study the connectivity pattern of three resting-state networks, including the ventral attention network (VAN) and the dorsal attention network (DAN) and the default mode network (DMN). Patients with BECTS with ADHD displayed decreased functional connectivity in the DAN compared with other two groups, while patients with BECTS without ADHD showed increased functional connectivity in the DAN. Moreover, we found increased functional connectivity in the VAN and in the DMN in patients with BECTS with or without ADHD when comparing with controls. These results showed that the newly-diagnosed children with BECTS displayed brain activity alterations in the ventral and dorsal attention networks. The difference in the extent of impairment in the dorsal attention network of patients with BECTS with ADHD and patients with BECTS without ADHD may lead to improved understanding of the underlying neuropathophysiology and treatment of BECTS with ADHD and BECTS without ADHD.

Modify or die?--RNA modification defects in metazoans.

Chemical RNA modifications are present in all kingdoms of life and many of these post-transcriptional modifications are conserved throughout evolution. However, most of the research has been performed on single cell organisms, whereas little is known about how RNA modifications contribute to the development of metazoans. In recent years, the identification of RNA modification genes in genome wide association studies (GWAS) has sparked new interest in previously neglected genes. In this review, we summarize recent findings that connect RNA modification defects and phenotypes in higher eukaryotes. Furthermore, we discuss the implications of aberrant tRNA modification in various human diseases including metabolic defects, mitochondrial dysfunctions, neurological disorders, and cancer. As the molecular mechanisms of these diseases are being elucidated, we will gain first insights into the functions of RNA modifications in higher eukaryotes and finally understand their roles during development.

A neurodevelopmental basis for BECTS: evidence from structural MRI.

PURPOSE: BECTS (benign epilepsy with centro-temporal spikes) is one of the most common childhood-onset epilepsy syndromes. We investigated quantitative evidence for brain morphological variation associated with BECTS to provide insights into the neuroanatomical basis of this disorder. METHODS: Three independent BECTS groups were imaged at different stages: (a) near onset (n=16, mean age 9.3±1.6 years), (b) ~9 years after onset (n=9, mean age 15.8±2.3 years), and (c) ~15 years after onset (n=10, mean age 22.7±2.7 years). Age-matched controls were imaged with each group. Whole brain T1-weighted MRI was acquired. Voxel-based morphometry (groups a-c) and cortical thickness analyses (groups b and c) were undertaken within each group and for the groups combined. The relationship between cortical morphology and age was investigated. KEY FINDINGS: The voxel-based morphometry analysis indicated increased bilateral grey matter volume in the superior frontal gyrus, insula and right inferior frontal gyrus regions in BECTS. The magnitude of the increase lessened with age of the cases. Cortical thickness analysis revealed thicker cortex in BECTS along middle and inferior frontal gyri bilaterally, left insula and bilateral supramarginal gyrus in the 9-year-after-onset group, that normalised with age. The rate of cortical thickness changes with age were greater in BECTS cases than in controls. SIGNIFICANCE: Increased cortical gray matter associated with BECTS was found. The decreasing magnitude of the effect with increasing age parallels the natural history of the disorder. The areas affected are consistent with neurocognitive dysfunction in BECTS.

Epileptic and developmental disorders of the speech cortex: ligand/receptor interaction of wild-type and mutant SRPX2 with the plasminogen activator receptor uPAR.

Mutations in SRPX2 (Sushi-Repeat Protein, X-linked 2) cause rolandic epilepsy with speech impairment (RESDX syndrome) or with altered development of the speech cortex (bilateral perisylvian polymicrogyria). The physiological roles of SRPX2 remain unknown to date. One way to infer the function of SRPX2 relies on the identification of the as yet unknown SRPX2 protein partners. Using a combination of interactome approaches including yeast two-hybrid screening, co-immunoprecipitation experiments, cell surface binding and surface plasmon resonance (SPR), we show that SRPX2 is a ligand for uPAR, the urokinase-type plasminogen activator (uPA) receptor. Previous studies have shown that uPAR(-/-) knock-out mice exhibited enhanced susceptibility to epileptic seizures and had brain cortical anomalies consistent with altered neuronal migration and maturation, all features that are reminiscent to the phenotypes caused by SRPX2 mutations. SPR analysis indicated that the p.Y72S mutation associated with rolandic epilepsy and perisylvian polymicrogyria, led to a 5.8-fold gain-of-affinity of SRPX2 with uPAR. uPAR is a crucial component of the extracellular plasminogen proteolysis system; two more SRPX2 partners identified here, the cysteine protease cathepsin B (CTSB) and the metalloproteinase ADAMTS4, are also components of the extracellular proteolysis machinery and CTSB is a well-known activator of uPA. The identification of functionally related SRPX2 partners provides the first and exciting insights into the possible role of SRPX2 in the brain, and suggests that a network of SRPX2-interacting proteins classically involved in the proteolytic remodeling of the extracellular matrix and including uPAR participates in the functioning, in the development and in disorders of the speech cortex.

Ketogenic diet: electrophysiological effects on the normal human cortex.

PURPOSE: To explore the cortical electrophysiology of the ketogenic diet (KD) in the normal human. KD is effective against refractory epilepsy, but its precise mechanism is obscure. At the transmitter level, an enhancement of GABA inhibition has often been proposed. METHODS: We studied eight healthy volunteers undergoing a "classic" KD for 2 weeks. We measured several biochemical variables at baseline (T0), after 1 week (T1) and 2 weeks (T2) of KD, then 3 months after the KD conclusion (T3). Ketosis was quantified as 24-h ketonuria. At the same time, we studied the motor cortical excitability by means of transcranial magnetic stimulation (TMS). We also quantitatively evaluated the EEG signal in search of frequency shifts over the rolandic areas. RESULTS: Significant (p < 0.05) neurophysiological changes appeared at T2. These consisted of a strengthening of short-latency cortical inhibition (SICI), a TMS index which is thought to reflect GABA-A inhibition in the cortex. Then, there was an enhancement of the beta EEG band over the perirolandic region, similar to that following administration of GABA-A agonists. All changes disappeared at T3. CONCLUSIONS: A standard, short-term KD affected the cortical physiology of the normal human. The main changes were an augmented SICI and an increased perirolandic beta EEG activity, which are compatible with a lower level of neural excitation within the cortex.

SRPX2 mutations in disorders of language cortex and cognition.

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.

[The effect of interictal epileptiform discharges on cognitive function in children with idiopathic epilepsy]. / Efecto de las descargas epileptiformes interictales sobre las funciones cognitivas en niños con epilepsia idiopática.

INTRODUCTION: Transient cognitive disorders (CD) in benign rolandic epilepsy (BRE), the most common of idiopathic partial epilepsy (IPE), may be secondary to interictal epileptiform discharges (IED). OBJECTIVES: To determine incidence and risk factors for persistent TC in students with IE before, during and after antiepileptic (AE). INCLUSION CRITERIA: 6 12 years old, IPE, controlled for 2 years with AE, and follow up for 5 years. EVALUATIONS: intelligence (Wechsler III), learning (Wechsler), academic level (Woodcock Johnson) and attention/behavior (O Conners R). VARIABLES: sex, age of onset, seizure type, interval between first seizure and AE onset, EEG results and AE type. ANALYSIS: chi square. RESULTS: Fourteen children had decreased learning and attention span with impulsivity, hyperactivity, low tolerance and agressivity during remission; 12 (85,71%) with temporal lobe epilepsy: 6 (50%) with IED in the left dominant hemisphere, 2 (16,67%) with IED in the right temporal lobe in left dominant hemisphere children, 2 (16,67%) in both temporal lobes in left dominant hemisphere children and 2 (14,29%) with ERB and IED. MRI were normal. CONCLUSIONS: Children with idiopathic temporal lobe epilepsy and IED in the left dominant hemisphere are at higher risk for CD than children with other types of IPE. To control the seizures and to abolish the IED are recommended in an attempt to prevent these cognitive disorders

Isotope tracer-techniques in rolandic epilepsy and its variants.

For ethical and practical reasons there are few studies on brain metabolism in rolandic epilepsy and it's variants. Most studies are performed in Landau-Kleffner syndrome or epilepsy with continuous spikes and waves during slow wave sleep (CSWS) which are considered to be included within the spectrum of rolandic epilepsy. The results of studies using isotope tracer-techniques in rolandic epilepsy and its variants are summarized.