Resolution of epileptic encephalopathy following treatment with transdermal nicotine

We report resolution of an epileptic encephalopathy by administration of transdermal nicotine patches in an adolescent with severe nonlesional refractory frontal lobe epilepsy. The 18.5‐year‐old female patient had refractory epilepsy from the age of 11. Recurrent electroencephalography (EEG) recordings showed mostly generalized activity, albeit with right frontal predominance. Almost all antiepileptic medications failed to provide benefit. She developed an encephalopathic state with cognitive decline. The nonlesional frontal lobe epilepsy and a family history of a cousin with nocturnal epilepsy with frontal origin suggested genetic etiology. Transdermal nicotine patches brought complete resolution of the seizures, normalization of the EEG, and a significant improvement in her thinking process and speech organization. Sequencing of the CHRNB2 and CHRNA4 genes did not detect a mutation. Transdermal nicotine patches should be considered in severe pharmacoresistant frontal lobe epilepsy.     

Autosomal dominant nocturnal frontal lobe epilepsy with a mutation in the CHRNB2 gene

Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE; MIM 600513) has been associated with mutations in the genes coding for the alfa-4 (CHRNA4), beta-2 (CHRNB2), and alpha-2 (CHRNA2) subunits of the neuronal nicotinic acetylcholine receptor (nAChR) and for the corticotropin-releasing hormone (CRH). A four-generation ADNFLE family with six affected members was identified. All affected members presented the clinical characteristics of ADNFLE. Interictal awake and sleep EEG recordings showed no epileptiform abnormalities. Ictal video-EEG recordings showed focal seizures with frontal lobe semiology. Mutation analysis of the CHRNB2 gene revealed a c.859G>A transition (Val287Met) within the second transmembrane domain, identical to that previously described in a Scottish ADNFLE family. To our knowledge, this is the third family reported presenting a mutation in CHRNB2. The clinical phenotype appears similar to that described with mutations in CHRNA4, suggesting that mutations in these two subunits lead to similar functional alterations of the nAChR.     

Homozygous c.649dupC mutation in PRRT2 worsens the BFIS/PKD phenotype with mental retardation,episodic ataxia,and absences

Heterozygous mutations of PRRT2, which encodes proline‐rich transmembrane protein 2, are associated with heterogeneous phenotypes including benign familial infantile seizures (BFIS), or familial paroxysmal kinesigenic dystonia (PKD). We report a consanguineous Italian family with BFIS/PKD phenotype that contained 14 living members with 6 affected individuals (four men, ranging in age from 6–44 years). We identified the reported c.649dupC (p.Arg217ProfsX8) mutation of PRRT2 gene that cosegregated with the disease and was not observed in 100 controls of matched ancestry. Four patients with BFIS phenotype were heterozygous for this mutation, including the consanguineous parents of the two affected brothers with more severe phenotypes of BFIS/PKD—mental retardation, episodic ataxia, and absences—who were the only individuals to carry a homozygous c.649dupC mutation. This family provides strong evidence that homozygous PRRT2 mutations give rise to more severe clinical disease of mental retardation, episodic ataxia, and absences, and, thus, enlarges the clinical spectrum related to PRRT2 mutations. Moreover, it suggests an additive effect of double dose of the genetic mutation and underscores the complexity of the phenotypic consequences of mutations in this gene.     

Nocturnal frontal lobe epilepsy caused by a mutation in the GATOR1 complex gene NPRL3

Mutations in NPRL3, one of three genes that encode proteins of the mTORC1‐regulating GATOR1 complex, have recently been reported to cause cortical dysplasia with focal epilepsy. We have now analyzed a multiplex epilepsy family by whole exome sequencing and identified a frameshift mutation (NM_001077350.2; c.1522delG; p.E508Rfs*46) within exon 13 of NPRL3. This truncating mutation causes an epilepsy phenotype characterized by early childhood onset of mainly nocturnal frontal lobe epilepsy. The penetrance in our family was low (three affected out of six mutation carriers), compared to families with either ion channel‐ or DEPDC5‐associated familial nocturnal frontal lobe epilepsy. The absence of apparent structural brain abnormalities suggests that mutations in NPRL3 are not necessarily associated with focal cortical dysplasia but might be able to cause epilepsy by different, yet unknown pathomechanisms.     

Exclusion of linkage of nine neuronal nicotinic acetylcholine receptor subunit genes expressed in brain in autosomal dominant nocturnal frontal lobe epilepsy in four unrelated families

Members of the ligand-gated neuronal nicotinic acetylcholine receptor (nAChR) gene family (CHRNA4 and CHRNB2, coding for the α4 and β2 subunits, respectively) are involved in autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE). However, ADNFLE is genetically heterogeneous and mutations in CHRNA4 and CHRNB2 account for only a minority of ADNFLE cases. Additional nAChR subunits expressed in the brain are candidates for this epilepsy. The involvement of all genes coding for brain-expressed nAChR subunits, with known chromosome localization (CHRNB2, 1q21; CHRNA2, 8p21; CHRNA6, CHRNB3, 8p11.2; CHRNA7, 15q14; CHRNA5/A3/B4, 15q24 and CHRNA4, 20q13.2) was investigated in four unrelated ADNFLE Italian families for at least three generations. Families were selected on the basis of anamnestic and videopolysomnographic analyses. Individuals were typed for polymorphic markers located in the above mentioned chromosome regions. Linkage and mutation analyses were performed. In none of the families was linkage between ADNFLE and the analysed chromosome regions detected. These findings support the hypothesis that genes different from those coding for α2-7 and β2-4 neuronal nAChR subunits could be responsible for ADNFLE. Received: 17 July 2001 Received in revised form: 21 January 2002 Accepted: 29 January 2002     

The identification of a novel mutation of nicotinic acetylcholine receptor gene CHRNB2 in a Chinese patient: Its possible implication in non-familial nocturnal frontal lobe epilepsy

Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is partly caused by mutations in the nicotinic acetylcholine receptor (nAChR) genes CHRNA4, CHRNB2, and CHRNA2. Cases of non-familial nocturnal frontal lobe epilepsy (NFLE) are more common than the familial type and the phenotypes of the two are similar. CHRNA4 mutations have been found in sporadic NFLE, but no mutation in CHRNB2 or CHRNA2 have been reported. To analyze the genetic features of sporadic NFLE, we designed mutation screening of exon 5 of CHRNA4, exon 5 of CHRNB2, and exon 6 of CHRNA2, mutations in which are associated with ADFLE. We screened a group of 105 Chinese sporadic NFLE cases and identified a novel CHRNB2 mutation, V337G, in an evolutionary conserved region of the intracellular loop between transmembrane domains M3 and M4 in one patient. This mutation was not observed in the control group of 200 subjects. Bioinformatics analysis indicated that the mutation altered the hydrophobicity and secondary structure of the protein. To the best of our knowledge, this study established for the first time that CHRNB2 is potentially associated with non-familial NFLE patient. No mutations in CHRNA4 or CHRNA2 were revealed by our screening method.     

夜发性额叶癫痫三家系临床和遗传学特征

目的 分析夜发性额叶癫痫3个家系的临床、脑电图和遗传学特征.方法 在3个夜发性额叶癫痫家系患者及部分亲属中收集临床、脑电图及神经影像学等资料,并采用测序方法筛查烟碱型乙酰胆碱受体(nAChR)α4、β2和α2亚单位编码基因(CHRNA4、CHRNB2和CHRNA2).结果 3个家系中有6例患者(其中男5例),平均年龄(20.5±11.5)岁,平均发病年龄(7.3±5.5)岁,临床表现为夜发性额叶发作,具体发作类型包括姿势性发作2例,躯体自动症发作4例,最多每夜发作6次.发作间期、发作期视频脑电图2例患者表现为正常或动作伪差,2例表现为前部导联慢波节律,3例出现前部导联棘波、棘慢波及尖波.神经系统及神经影像检查未见异常.抗癫痫药物治疗反应良好.CHRNA4、CHRNB2和CHRNA2部分序列(包含跨膜区1～3)筛查未见突变.结论 夜发性额叶癫痫是一种遗传异质性癫痫综合征.     

Autosomal dominant nocturnal frontal lobe epilepsy in a Spanish family with a Ser252Phe mutation in the CHRNA4 gene.

BACKGROUND: A large family with autosomal dominant nocturnal frontal lobe epilepsy from the south of Spain was studied. The clinical appearance of the disease in this family, which included 28 members, of whom 11 were affected and 2 were obligate carriers, was identical to that previously described in an Australian family and a Norwegian family, in which mutations in exon 5 of the CHRNA4 gene were found. METHODS: Following DNA extraction, the family was genotyped with 4 fluorescent markers flanking the locus to the CHRNA4 gene on chromosome 20q13.3, and lod score computations were performed. The exon 5 of the CHRNA4 gene was amplified between nucleotides 535 and 825 and polymerase chain reaction products were purified and sequenced directly. RESULTS: The same missense mutation as that found in the Australian family, C-->T, which causes the replacement of a serine with phenylalanine in amino acid 252 in exon 5, was detected. This mutation segregated with the disorder in all 11 affected members, in the 2 obligate carriers, and in 1 asymptomatic sibling, and was not found in 1 spouse and 1 daughter. Neither of the 2 polymorphisms found in a series of families with epilepsy were found in our sample [corrected]. CONCLUSIONS: These data confirm the clinical homogeneity in the phenotypic expression of autosomal dominant nocturnal frontal lobe epilepsy caused by mutation in the CHRNA4 gene, and the pathogenic role of the Ser252Phe mutation in this disorder.     

A novel mutation of CHRNA4 responsible for autosomal dominant nocturnal frontal lobe epilepsy

OBJECTIVE: To identify the mutation responsible for autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) in a nonwhite family. BACKGROUND: ADNFLE is newly recognized as an entity of idiopathic partial epilepsy. Recently, two different mutations of the neuronal nicotinic acetylcholine receptor alpha4 subunit (CHRNA4) gene were identified in a white family as a cause of ADNFLE. METHODS: Four affected and three unaffected individuals in three generations of a Japanese family with ADNFLE, and 100 unrelated healthy Japanese volunteers were studied. Clinical features and EEG findings in affected individuals were consistent with those of ADNFLE reported in white families with ADNFLE. Mutations within the CHRNA4 gene were screened for using single-strand conformation polymorphism analysis (SSCA) and were determined by direct sequencing. The mutation identified was sought in volunteers by the amplification refractory mutation system. RESULTS: A C-to-T exchange (C755T) was found in exon 5 of the CHRNA4 gene on one allele of affected individuals. C755T segregated in affected individuals and was not found in 200 alleles obtained from the volunteers. C755T replaced serine 252 (Ser252) in the second membrane-spanning domain (M2) of CHRNA4 with a leucine. Ser252 is conserved characteristically in the alpha-subunit of acetylcholine receptor and is considered to play an important role in channel function. CONCLUSION: C755T is a novel missense mutation of the CHRNA4 gene causing autosomal dominant nocturnal frontal lobe epilepsy in this Japanese family.     

Further evidence of genetic heterogeneity in families with autosomal dominant nocturnal frontal lobe epilepsy

PURPOSE: Mutations in the genes encoding the alfa(2), alfa(4) and beta(2) subunits of the neuronal nicotinic acetylcholine receptor (nAChR) play a causative role in autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE). Moreover, variations in the promoter of the corticotropic-releasing hormone gene (CRH) were also associated with ADNFLE. Here, we investigated whether nine brain-expressed genes (CHRNA2, CHRNA3, CHRNA4, CHRNA5, CHRNA6, CHRNA7, CHRNB2, CHRNB3, CHRNB4), encoding distinct nAChR subunits, and CRH are associated with the disease in three distinct ADNFLE families from Southern Italy. METHODS: There were 14 living affected individuals (9 women), ranging in age from 14 to 57 years, pertaining to three unrelated families. Age at onset of seizures clustered around 9 years of age (range from 7 and 16 years, mean: 9.1 years+/-3.8). All affected individuals manifested nocturnal partial seizures of frontal lobe origin, which were well controlled by medications. Exon 5 of CHRNA4 and CHRNB2 genes, harboring all the known mutations, was sequenced in the probands. Then, we performed a linkage study on 13 affected and 26 non-affected individuals belonging to the three families with microsatellite markers and an intragenic polymorphisms encompassing the chromosome localization of the nAChR subunit genes and of the CRH gene. RESULTS: Mutational and linkage analyses allowed us to exclude the involvement of all known nAChR subunit genes and of the CRH gene in ADNFLE in our families. CONCLUSION: Our results further illustrate the considerable genetic heterogeneity for such a syndrome, despite the quite homogeneous clinical picture. It is therefore reasonable to hypothesize that at least another gene not belonging to the nAChR gene family, in addition to CRH, is involved in the pathogenesis of ADNFLE.     

A de novo mutation in sporadic nocturnal frontal lobe epilepsy

Autosomal dominant nocturnal frontal lobe epilepsy is sometimes due to mutations in CHRNA4. The commoner presentation of sporadic nocturnal frontal lobe epilepsy has not been associated with genetic defects. A 30-year-old woman diagnosed as having sporadic nocturnal frontal lobe epilepsy was found to have a de novo Ser252Leu CHRNA4 mutation. A pattern is emerging of site-specific mutation within the second transmembrane domain of CHRNA4 in association with autosomal dominant nocturnal frontal lobe epilepsy and sporadic nocturnal frontal lobe epilepsy in families with different ethnic backgrounds.     

A BFIS-like syndrome with late onset and febrile seizures: suggestive linkage to chromosome 16p11.2-16q12.1

Benign familial infantile seizures (BFIS) is a dominant idiopathic epilepsy with partial and secondarily generalized seizures with age of onsetr between 3 and 12 months. Here we describe a four-generation family with some characteristic features of BFIS but with unusual clinical signs, in eight affected members with an unusual clinical phenotype. Onset was consistently between 14 and 20 months of age with clusters of complex-partial or generalized tonic-clonic seizures and a high rate of febrile seizures, which have not been described for BFIS previously. All affected members showed multifocal interictal epileptiform discharges in the EEG. The known loci for benign familial neonatal/infantile seizures (BFNS/BFNIS), generalized epilepsy with febrile seizures plus (GEFS+) and the BFIS locus on chromosome 19q were excluded. Further genetic analysis showed suggestive linkage to the major BFIS locus on chromosome 16 between markers D16S690 and D16S3136. This ;;BFIS-like' syndrome may enlarge the phenotypic spectrum of diseases linked to the chromosome 16 region.     

A new Chrna4 mutation with low penetrance in nocturnal frontal lobe epilepsy

PURPOSE: To identify and characterize the mutation(s) causing nocturnal frontal lobe epilepsy in a German extended family. METHODS: Neuronal nicotinic acetylcholine receptor (nAChR) subunit genes were screened by direct sequencing. Once a CHRNA4 mutation was identified, its biophysical and pharmacologic properties were characterized by expression experiments in Xenopus oocytes. RESULTS: We report a new CHRNA4 mutation, causing a alpha4-T265I amino acid exchange at the extracellular end of the second transmembrane domain (TM). Functional studies of alpha4-T265I revealed an increased ACh sensitivity of the mutated receptors. alpha4-T265I is associated with an unusual low penetrance of the epilepsy phenotype. Sequencing of the TM1-TM3 parts of the 1 known nAChR subunits did not support a two-locus model involving a second nAChR sequence variation. CONCLUSIONS: nAChR mutations found in familial epilepsy are not always associated with an autosomal dominant mode of inheritance. alpha4-T265I is the first nAChR allele showing a markedly reduced penetrance consistent with a major gene effect. The low penetrance of the mutation is probably caused by unknown genetic or environmental factors or both.     

Electroclinical picture of autosomal dominant nocturnal frontal lobe epilepsy in a Japanese family

PURPOSE: Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is the first described partial epilepsy syndrome known to be due to a single gene mutation. We found a first Japanese ADNFLE family with a novel mutation of the neuronal nicotinic acetylcholine receptor (nAChR) alpha4 subunit (CHRNA4) gene. The aim of this report is precisely to describe the electroclinical manifestations of ADNFLE in this family and to compare these findings with those of other families reported previously in the literature. METHODS: Three affected family members were investigated electroclinically by close clinical observation, interictal EEG, video-EEG monitoring, magnetic resonance imaging, and single-photon-emission tomography. Information about other affected family members was obtained from either the spouse or the parents. Mutations within the CHRNA4 gene were examined in seven family members. RESULTS: The clinical manifestations and diagnostic findings in the members of this family were consistent with ADNFLE. However, there were intrafamilial and interfamilial variations in clinical features. The seizures of the patients were brief tonic seizures, with hyperventilation in children and secondarily generalized tonic-clonic convulsions in adults. The onset of the children's seizures began in infancy and early childhood. The children's seizures were sometimes provoked by movement and sound stimulation, and did not respond to antiepileptic drugs. On the other hand, the adults' seizures disappeared spontaneously or were easily controlled with carbamazepine. Three children showed hyperactivity, and two children had mild mental retardation. All patients had impaired consciousness during their seizures and no auras. A novel missense mutation (c755C>T) in exon 5 of the CHRNA4 gene was found in four affected family members. CONCLUSIONS: The electroclinical pictures of a Japanese family with ADNFLE were basically the same as those of other families reported, but with slight differences. ADNFLE is probably not uncommon, and it is very likely that there are unidentified patients with this inherited disorder in Japan.     

Autosomal Dominant Nocturnal Frontal Lobe Epilepsy: An Electroclinical Study of a Norwegian Family with Ten Affected Members

Summary: Purpose: The aim of the study was to describe in detail the electroclinical findings associated with a mutation in the acetylcholine receptor in a Norwegian family with autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE). Furthermore, we compared the clinical features associated with this mutation with those of an Australian family with a different mutation at the same locus, as well as with those of eight Italian families with ADNFLE and without a verified mutation in this gene. Methods: We obtained medical records from all of the 10 known affected members of the Norwegian family. A personal interview and a clinical neurologic examination were carried out in six of them. Interictal and ictal scalp EEG recordings were obtained in eight and three, respectively, computed tomography/magnetic resonance imaging (CT/MRI) in five, and blood samples for genetic analysis in seven individuals. The clinical features after an insertion of a leucine residue in the α4 subunit of the neuronal nicotinic acetylcholine receptor are examined. Furthermore, the clinical features that accompany this insertion and the clinical features associated with a missense mutation (Ser248Phe) in the same gene were compared. Results: All the affected individuals had a seizure semiology consistent with frontal lobe seizures. Their seizures started in childhood (mean age, 8 years) and were often misinterpreted as benign nocturnal parasomnias, nocturnal paroxysmal dystonia, or a psychiatric disorder. The affected family members were of normal intellect and showed no abnormalities at neurologic and neuroradiologic examinations. Interictal scalp EEG registrations were mostly normal, ictal scalp EEG registrations in three individuals revealed left frontal low-voltage epileptiform discharges in two, and only shallow arousal preceding the attack in one. Although the seizure susceptibility varied among the affected individuals, the epilepsy course was mostly benign. Conclusions: Patients with ADNFLE, either with the 776ins3 mutation or the Ser248Phe mutation, and those without any recognized mutation in the acetylcholine receptor, have strikingly homogeneous phenotypes, and it seems difficult to separate them on clinical grounds.     

Mutations in KCNT1 cause a spectrum of focal epilepsies

Autosomal dominant mutations in the sodium‐gated potassium channel subunit gene KCNT1 have been associated with two distinct seizure syndromes, nocturnal frontal lobe epilepsy (NFLE) and malignant migrating focal seizures of infancy (MMFSI). To further explore the phenotypic spectrum associated with KCNT1, we examined individuals affected with focal epilepsy or an epileptic encephalopathy for mutations in the gene. We identified KCNT1 mutations in 12 previously unreported patients with focal epilepsy, multifocal epilepsy, cardiac arrhythmia, and in a family with sudden unexpected death in epilepsy (SUDEP), in addition to patients with NFLE and MMFSI. In contrast to the 100% penetrance so far reported for KCNT1 mutations, we observed incomplete penetrance. It is notable that we report that the one KCNT1 mutation, p.Arg398Gln, can lead to either of the two distinct phenotypes, ADNFLE or MMFSI, even within the same family. This indicates that genotype–phenotype relationships for KCNT1 mutations are not straightforward. We demonstrate that KCNT1 mutations are highly pleiotropic and are associated with phenotypes other than ADNFLE and MMFSI. KCNT1 mutations are now associated with Ohtahara syndrome, MMFSI, and nocturnal focal epilepsy. They may also be associated with multifocal epilepsy and cardiac disturbances.     

Impact of our understanding of the genetic aetiology of epilepsy

A genetic contribution to aetiology is estimated to be present in up to 40% of patients with epilepsy. It is useful to categorise genetic epilepsies according to the mechanisms of inheritance into Mendelian disorders, non-mendelian or ‘complex’ disorders, and chromosomal disorders. Over 200 Mendelian diseases include epilepsy as part of the phenotype, and the genes for a number of these have been identified recently. These include autosomal recessive progressive myoclonic epilepsies such as Unverricht-Lundborg disease, Lafora disease and the neuronal ceroid lipofuscinoses, and three autosomal dominant idiopathic epilepsies. The last named have been shown to arise from mutations in ion channel genes. Autosomal dominant nocturnal frontal lobe epilepsy is caused by mutations in CHRNA4, benign familial neonatal convulsions by mutations in KCNQ2 and KCNQ3, and generalised epilepsy with febrile seizures plus by mutations in SCN1B. ‘Complex’, familial epilepsies are more difficult to analyse, but evidence has been obtained for loci predisposing to juvenile myoclonic epilepsy on chromosome 6p and 15q. Lastly, the genes underlying several spike-wave epilepsies in mice have been cloned, and three of these encode sub-units of voltage-gated calcium channels. Received: 29 September 1999/Accepted: 7 December 1999     

A new locus for autosomal dominant nocturnal frontal lobe epilepsy maps to chromosome 1

BACKGROUND: Autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is caused by mutations in the alpha4 subunit of the neuronal nicotinic acetylcholine receptor (CHRNA4) gene, mapping on chromosome 20q13.2. A second ADNFLE locus was mapped on chromosome 15q24. OBJECTIVE: To report a new third ADNFLE locus on chromosome 1 in a large Italian family. METHODS: The authors performed a clinical and genetic study in a large, three-generation ADNFLE family from southern Italy, including eight affected individuals and three obligate carriers. RESULTS: The age at onset of seizures was around 9 years of age and all affected individuals manifested nocturnal partial seizures of frontal lobe origin. Interictal awake and sleep EEG recordings showed no definite epileptiform abnormalities in most patients. Ictal video-EEG showed that the attacks were partial seizures with a frontal lobe semiology. Intellectual and neurologic examinations, and brain CT or MRI results were always normal. Carbamazepine was effective in all treated patients. Exclusion mapping of the known loci linked to ADNFLE-ENFL1, and ENFL2, on chromosomes 20q13.2 and 15q24-was performed on the pedigree before starting the genome-wide linkage analysis. The whole genome scan mapping allowed the identification of a new ADNFLE locus spanning the pericentromeric region of chromosome 1. CONCLUSIONS: The authors provided evidence for a third locus associated to autosomal dominant nocturnal frontal lobe epilepsy on chromosome 1. Among the known genes mapping within this critical region, the ss2 subunit of the nicotinic receptor (CHRNB2) represents the most obvious candidate.     

A Korean kindred with autosomal dominant nocturnal frontal lobe epilepsy and mental retardation

BACKGROUND: A Korean family had distinctive clinical and neuroimaging features and carried the same genetic mutation that was found in a previously described Japanese kindred with autosomal dominant nocturnal frontal lobe epilepsy. OBJECTIVE: To describe the first Korean family with autosomal dominant nocturnal frontal lobe epilepsy. METHODS: Members of a large family, including 9 affected individuals from 3 generations, underwent a comprehensive genetic, clinical, electroencephalographic, neuropsychological, and neuroimaging evaluation. Affected members were tested for possible mutations in transmembrane regions 1 through 3 of the neuronal nicotinic acetylcholine receptor alpha4 subunit (CHRNA4) by direct sequencing and subsequent restriction analysis. RESULTS: Seizures began in childhood, presenting as nocturnal episodes of staring, confusion, shouting, perioral movements, unintelligible speech, and hand waving. Some patients had ictal or interictal epileptiform activity in the temporal and/or frontocentral areas. Neurological examination and brain magnetic resonance imaging results showed no abnormalities, except that all patients available for testing had mild to moderate mental retardation. Fluorodeoxyglucose F 18 with positron emission tomography showed mild decreased glucose uptake in the superior and middle frontal regions, more so on the left than on the right. Patient response to carbamazepine was poor. All affected members were heterozygous for the CHRNA4 Ser252Leu mutation. CONCLUSIONS: Disorders associated with mutations in the transmembrane region 2 of CHRNA4 are genetically and phenotypically heterogeneous. Distinctive features of this kindred include (1) mental retardation in all affected members available for testing, (2) abnormal brain findings on fluorodeoxyglucose F 18 with positron emission tomography, (3) poor response to carbamazepine, and (4) full penetrance.     

Independent occurrence of the CHRNA4 Ser248Phe mutation in a Norwegian family with nocturnal frontal lobe epilepsy

PURPOSE: To describe the clinical features of a family from Northern Norway in which autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) is associated with a Ser248Phe amino acid exchange in the second transmembrane domain of the neuronal nicotinic acetylcholine receptor alpha4 subunit (CHRNA4). We also tested for evidence of a de novo mutation or founder effect by comparing haplotypes with the original Australian family where the Ser248Phe mutation was first described. METHODS: Clinical details were obtained from 19 family members. Personal interviews and genetic analysis were carried out in 17. Parts of the coding region of CHRNA4 were sequenced, and two known polymorphisms (bp555/FokI, bp594/CfoI) were typed by restriction analysis. RESULTS: Eleven individuals had ADNFLE. The haplotypes of the mutation-carrying alleles of affected individuals from the Northern Norwegian and the Australian ADNFLE family are different. The phenotypic expressions are remarkably similar. CONCLUSIONS: The Ser248Phe mutation occurred independently in both families. Given the rarity of the disease, this suggests that not only the position of a mutation in the coding sequence but also the type of an amino acid exchange is important for the etiology of ADNFLE. The phenotypic similarity of these two families with different genetic backgrounds suggests that the Ser248Phe mutation largely determines the phenotype, with relatively little influence of other background genes.