Variant Intestinal-Cell Kinase in Juvenile Myoclonic Epilepsy.

BACKGROUND: In juvenile myoclonic epilepsy, data are limited on the genetic basis of networks promoting convulsions with diffuse polyspikes on electroencephalography (EEG) and the subtle microscopic brain dysplasia called microdysgenesis. METHODS: Using Sanger sequencing, we sequenced the exomes of six members of a large family affected with juvenile myoclonic epilepsy and confirmed cosegregation in all 37 family members. We screened an additional 310 patients with this disorder for variants on DNA melting-curve analysis and targeted real-time DNA sequencing of the gene encoding intestinal-cell kinase ( ICK). We calculated Bayesian logarithm of the odds (LOD) scores for cosegregating variants, odds ratios in case-control associations, and allele frequencies in the Genome Aggregation Database. We performed functional tests of the effects of variants on mitosis, apoptosis, and radial neuroblast migration in vitro and conducted video-EEG studies in mice lacking a copy of Ick. RESULTS: A variant, K305T (c.914A→C), cosegregated with epilepsy or polyspikes on EEG in 12 members of the family affected with juvenile myoclonic epilepsy. We identified 21 pathogenic ICK variants in 22 of 310 additional patients (7%). Four strongly linked variants (K220E, K305T, A615T, and R632X) impaired mitosis, cell-cycle exit, and radial neuroblast migration while promoting apoptosis. Tonic-clonic convulsions and polyspikes on EEG resembling seizures in human juvenile myoclonic epilepsy occurred more often in knockout heterozygous mice than in wild-type mice (P=0.02) during light sleep with isoflurane anesthesia. CONCLUSIONS: Our data provide evidence that heterozygous variants in ICK caused juvenile myoclonic epilepsy in 7% of the patients included in our analysis. Variant ICK affects cell processes that help explain microdysgenesis and polyspike networks observed on EEG in juvenile myoclonic epilepsy. (Funded by the National Institutes of Health and others.).

Systematic review of the screening, diagnosis, and management of ADHD in children with epilepsy. Consensus paper of the Task Force on Comorbidities of the ILAE Pediatric Commission.

Attention-deficit/hyperactivity disorder (ADHD) is a common and challenging comorbidity affecting many children with epilepsy. A working group under the International League Against Epilepsy (ILAE) Pediatric Commission identified key questions on the identification and management of ADHD in children with epilepsy. Systematic reviews of the evidence to support approaches to these questions were collated and graded using criteria from the American Academy of Neurology Practice Parameter. Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) requirements were followed, with PROSPERO registration (CRD42018094617). No increased risk of ADHD in boys with epilepsy compared to girls with epilepsy was found (Level A). Valproate use in pregnancy is associated with inattentiveness and hyperactivity in offspring (1 class I study), and children with intellectual and developmental disabilities are at increased risk of ADHD (Level A). Impact of early seizure onset on development of ADHD was unclear (Level U), but more evident with poor seizure control (Level B). ADHD screening should be performed from 6 years of age, or at diagnosis, and repeated annually (Level U) and reevaluated after change of antiepileptic drug (AED) (Level U). Diagnosis should involve health practitioners with expert training in ADHD (Level U). Use of the Strength and Difficulties Questionnaire screening tool is supported (Level B). Formal cognitive testing is strongly recommended in children with epilepsy who are struggling at school (Level U). Behavioral problems are more likely with polytherapy than monotherapy (Level C). Valproate can exacerbate attentional issues in children with childhood absence epilepsy (Level A). Methylphenidate is tolerated and effective in children with epilepsy (Level B). Limited evidence supports that atomoxetine is tolerated (Level C). Multidisciplinary involvement in transition and adult ADHD clinics is essential (Level U). In conclusion, although recommendations could be proposed for some of the study questions, this systematic review highlighted the need for more comprehensive and targeted large-population prospective studies.

Deep-intronic variant of fukutin is the most prevalent point mutation of Fukuyama congenital muscular dystrophy in Japan.

Fukuyama congenital muscular dystrophy (FCMD), which is caused by mutations in the fukutin gene, is the second most common form of childhood muscular dystrophy in Japan. The founder haplotype is the most prevalent in the chromosomes of Japanese FCMD patients, and corresponds to an SVA retrotransposal insertion in the 3'-untranslated region of fukutin. Although other mutations have been reported, the mutation corresponding to the second most prevalent haplotype in Japanese FCMD patients remained unknown. Recently a deep-intronic point mutation c.647+2084G>T was identified in Korean patients with congenital muscular dystrophy. Here, we performed mutational analysis of 10 patients with the second most prevalent haplotype and found that all of them were compound-heterozygous for the SVA insertion and this c.647+2084G>T mutation. The fukutin mRNA of these patients contained a pseudoexon between exon 5 and exon 6, which was consistent with the previous Korean study. As expected, the mutated fukutin protein was smaller than the normal protein, reflecting the truncation of fukutin due to a premature stop codon. Immunostaining analysis showed a decrease in the signal for the glycosylated form of α-dystroglycan. These findings indicated that this mutation is the second most prevalent loss-of-function mutation in Japanese FCMD patients.

Mild developmental delay and obesity in two patients with mosaic 1p36 deletion syndrome.

We identified mosaic 1p36 deletions in two patients with developmental delay, distinctive features, and obesity, who can walk alone and communicate with others. Thus, their neurological defects are milder than those in typical patients with 1p36 deletion syndrome because most patients with 1p36 deletion cannot acquire expressive language. Chromosomal microarray testing revealed 3.0 and 4.5 Mb aberrations in the subtelomeric region of the short arm of chromosome 1. Mean signal ratios of the identified aberrations were -0.4 and -0.5, indicating mosaicism, which was confirmed by fluorescence in situ hybridization analysis with a mosaic ratio of 70% and 77%, respectively. Previous studies demonstrated that deletion of the distal 2-3 Mb region would be responsible for hyperphagia and obesity seen in patients. On the other hand, the severity of the neurological defect often correlates with the size of the terminal deletion of 1p36, and patients with larger deletions of 1p36 would usually show severely impaired developmental milestones and be immobile and aphasic. In such cases, hyperphagia and obesity could be clinically masked. In this study, two patients with mosaic deletions of 1p36 showed obesity as a consequence of hyperphagia. This study suggests that patients with 1p36 deletion would be at risk for hyperphagia and obesity when they have both risk factors, that is, (1) deletions including the 2-3 Mb critical region and (2) milder phenotypes that allow them to reach food on their own and to overeat.

Cefazolin therapy for methicillin-susceptible Staphylococcus aureus bacteremia in Japan.

This is a retrospective cohort study of patients who were treated with cefazolin for methicillin-susceptible Staphylococcus aureus bacteremia, at Tokyo Women's Medical University Hospital between January 2006 and December 2010. During the study period, 84/140 (60%) patients received cefazolin (mean age, 54 years; range, 0-94 years, male patients 64%). Of these, 60/84 (71%) cases were hospital acquired infections, 55/84 (65%) had heart disease, and 19/84 (23%) had moderate to severe heart failure (New York Heart Association class III/IV). The treatment failure rate at 12 weeks was 35% (n = 29). All-cause mortality were 15% (n = 13) after 12 weeks and 21% (n = 18) after a year. Secondary endocarditis and neurological events were observed in 10% (n = 8) and 2% (n = 2). Moderate to severe heart failure and retained intravascular devices were associated with treatment failure at 12 weeks by multivariate analysis (P < 0.01, P = 0.018). Our results suggest that hospital-acquired methicillin-susceptible S. aureus bacteremia can cause severe complications in patients with moderate to severe heart failure who retain their intravascular devices. Both effective antimicrobial therapy and removal of infected foci are essential for S. aureus bacteremia treatments.

Mouse with Nav1.1 haploinsufficiency, a model for Dravet syndrome, exhibits lowered sociability and learning impairment.

Dravet syndrome is an intractable epileptic encephalopathy characterized by early onset epileptic seizures followed by cognitive decline, hyperactivity, autistic behaviors and ataxia. Most Dravet syndrome patients possess heterozygous mutations of SCN1A gene encoding voltage-gated sodium channel αI subunit (Nav1.1). We have previously reported that mice heterozygous for a nonsense mutation in Scn1a developed early onset epileptic seizures. However, the learning ability and sociability of the mice remained to be investigated. In the present study, we subjected heterozygous Scn1a mice to a comprehensive behavioral test battery. We found that while heterozygous Scn1a mice had lowered spontaneous motor activity in home cage, they were hyperactive in novel environments. Moreover, the mice had low sociability and poor spatial learning ability that correspond to the autistic behaviors and cognitive decline seen in Dravet syndrome patients. These results suggest that Nav1.1 haploinsufficiency intrinsically contributes to not only epileptic seizures but also lowered sociability and learning impairment in heterozygous Scn1a mutant mice, as it should also be the case in patients with Dravet syndrome.

A cryptic microdeletion including MBD5 occurring within the breakpoint of a reciprocal translocation between chromosomes 2 and 5 in a patient with developmental delay and obesity.

The 2q23.1 deletion syndrome has been recently recognized as a neurodevelopmental disorder associated with intellectual disability, epilepsy, and autism spectrum disorder. Recently, methyl-CpG-binding domain 5 gene (MBD5), located in the 2q23.1 region, has been considered as a single causative gene of this syndrome. We report on a female patient with a de novo reciprocal translocation between chromosomes 2 and 5. Chromosomal microarray testing revealed a cryptic 896 kb deletion that included MBD5. Although clinical manifestations of this patient are compatible with those of patients with 2q23.1 deletion syndrome, a focal pachygyria revealed by brain magnetic resonance imaging has never been observed in the previously reported cases. Obesity caused by hyperphagia was observed in our patient and 28% of the previously reported patients with the 2q23.1 deletion syndrome. For better medical management, appropriate dietary guidance against hyperphagia should be given to the patients' family.

Clinical manifestations of Xq28 functional disomy involving MECP2 in one female and two male patients.

Subtelomeric imbalances are a frequent cause of cytogenetic abnormalities in patients with unexplained intellectual disability. Functional disomy of Xq28 involving the methyl-CpG-binding protein 2 gene (MECP2) has been observed mostly in subtelomeric duplications. We identified three patients with functional disomy of Xq28. A female patient showed an unbalanced translocation between 12q24.33 and Xq28. Two male patients showed an unbalanced translocation between Xq27.1- Yq11.22 and a recombinant X-chromosome containing duplicated material from Xq27.1 on Xp telomere, respectively. All three patients exhibited severe developmental delay, hypotonia, seizures, and distinctive facial features, including flat nasal bridge and hypertelorism. Additionally, brain magnetic resonance imaging (MRI) showed characteristic findings in each patient, including frontal dominant brain atrophy and hypoplasia of the corpus callosum, which are common findings in patients with functional disomies of Xq28 and interstitial duplications of Xq28, including MECP2. Brain MRI revealed a cystic lesion in the periventricular white matter in a patient, similar to our previous experience in patients with MECP2 duplication syndrome. Thus, white matter abnormalities may frequently be seen in cases of patients with additional MECP2 copies. © 2013 Wiley Periodicals, Inc.

Microdeletions of 5.5 Mb (4q13.2-q13.3) and 4.1 Mb (7p15.3-p21.1) associated with a saethre-chotzen-like phenotype, severe intellectual disability, and autism.

We observed a patient with a Saethre-Chotzen-like phenotype with severe neurological features. Saethre-Chotzen syndrome (acrocephalosyndactyly type III; SCS; OMIM #101400) is an autosomal dominant craniosynostosis syndrome characterized by craniofacial and mild limb abnormalities. The phenotypic features of chromosomal microdeletions involving the 7p21.1, where the twist homolog 1 gene (TWIST1) responsible for SCS is located, are recognized as a contiguous gene deletion syndrome with SCS and other phenotypic manifestations. In this study, we identified microdeletions in 4q13.2 and 7p21.1 in a patient with SCS and severe neurological features including developmental delay and autistic behavior. In comparison to other SCS patients with intragenic mutations or small deletions in 7p21.1, neurological features seen in this patient were extremely severe, likely modified by a concurrent deletion of 4q13.2. Both microdeletions were de novo and paternal in origin. Further information on such concurrent chromosomal deletions should be accumulated for better understanding of the mechanism.

Microdeletions of 3p21.31 characterized by developmental delay, distinctive features, elevated serum creatine kinase levels, and white matter involvement.

Interstitial deletions of chromosome 3 are rare, and only one patient with a microdeletion of 3p21.31 has been reported to date. We identified two additional cases of patients with microdeletions of 3p21.31. The characteristic clinical features of developmental delay and distinctive facial features (including arched eyebrows, hypertelorism, epicanthus, and micrognathia) were seen both in the previously reported patient and in the two newly identified patients. In these two new cases, additional features, including elevated serum creatine kinase levels and characteristic neuroradiological features with white matter involvement, were seen. These features had not been described in the previous case in which the patient was examined during infancy, suggesting an age-dependent mechanism. The shortest region of overlap among the three deletions narrowed down the candidate genes that may be responsible for the common neurological features to the bassoon (presynaptic cytomatrix protein) gene (BSN), which has an important function in neuronal synapses. In this study, we confirmed common phenotypic features in the patients with microdeletions of 3p21.31 and identified additional features that have not been reported previously. Because the constellation of such characteristic features is quite unique, clinical manifestations of the patients with microdeletions of 3p21.31 would be clinically recognizable as a contiguous gene deletion syndrome.

Mutations in EFHC1 cause juvenile myoclonic epilepsy.

Juvenile myoclonic epilepsy (JME) is the most frequent cause of hereditary grand mal seizures. We previously mapped and narrowed a region associated with JME on chromosome 6p12-p11 (EJM1). Here, we describe a new gene in this region, EFHC1, which encodes a protein with an EF-hand motif. Mutation analyses identified five missense mutations in EFHC1 that cosegregated with epilepsy or EEG polyspike wave in affected members of six unrelated families with JME and did not occur in 382 control individuals. Overexpression of EFHC1 in mouse hippocampal primary culture neurons induced apoptosis that was significantly lowered by the mutations. Apoptosis was specifically suppressed by SNX-482, an antagonist of R-type voltage-dependent Ca(2+) channel (Ca(v)2.3). EFHC1 and Ca(v)2.3 immunomaterials overlapped in mouse brain, and EFHC1 coimmunoprecipitated with the Ca(v)2.3 C terminus. In patch-clamp analysis, EFHC1 specifically increased R-type Ca(2+) currents that were reversed by the mutations associated with JME.

[Pre-evening meal administration of tacrolimus improved refractory ocular symptoms in two young children with latent general myasthenia gravis].

We report two patients with latent general myasthenia gravis (MG) with refractory ocular symptoms who were successfully treated with pre-evening meal administration of tacrolimus. Patient 1 was a 4-year-old girl with persistent ocular symptoms despite high-dose steroid therapy and thymectomy. Oral tacrolimus was initiated at the age of 3 years, which was resulted in complete resolution of symptoms. After one year, hemilateral ptosis recurred. The plasma consentration of tacrolimus was very low, probably due to sudden weight gain. Increasing the dose and a change from post- to pre-evening meal administration of tacrolimus enabled maintenance of its concentration and complete control of ocular symptoms. Patient 2 was a 2-year-old boy whose symptoms were refractory to steroid therapy after his first relapse. Since post-meal administration of tacrolimus provided partial benefit, the closing schedule was changed to pre-evening meal administration, with good results. Neither patient had adverse effects of tacrolimus. It is difficult to maintain an effective tacrolimus concentration in children due to marked growth and rapid metabolic rates. Pre-evening meal administration of tacrolimus is an easy, safe and useful method of treatment in MG young children.

Arginase deficiency with parotid gland swelling and hyperamylasemia: A case report.

Arginase deficiency is a progressive neurological disorder characterized by episodic hyperammonemia crises. Our patient had been diagnosed with cerebral palsy (spastic paraplegia) in childhood and received rehabilitation. She had suffered parotid swelling since the age of 5 years, prior to liver dysfunction becoming apparent, and then developed hyperamylasemia at 8 years of age. At age 25 years, she presented with hyperammonemia and elevations of aspartate aminotransferase and alanine aminotransferase. At age 27 years, she was diagnosed with arginase deficiency due to hyperargininemia and absent arginase activity in erythrocytes. Liver cirrhosis was also present. She was hospitalized several times for management of episodic hyperammonemia due to recurrent viral infections, an unbalanced diet, and poor compliance with medications.

Post-transcriptional regulation of fukutin in an astrocytoma cell line.

Fukutin is the gene responsible for Fukuyama-type congenital muscular dystrophy (FCMD), an autosomal recessive disease associated with central nervous system (CNS) and eye anomalies. Fukutin is involved in basement membrane formation via the glycosylation of α-dystroglycan (α-DG), and hypoglycosylation of α-DG provokes the muscular, CNS and eye lesions of FCMD. Astrocytes play an important role in the pathogenesis of the CNS lesions, but the post-transcriptional regulation of fukutin mRNA has not been elucidated. In this study, we investigated the characteristics of fukutin mRNA using an astrocytoma cell line that expresses fukutin and glycosylated α-DG. The glycosylation of α-DG was considered to be increased by over-expression of fukutin and decreased by knockdown of fukutin. Knockdown of Musashi-1, one of the RNA-binding proteins involved in the regulation of neuronal differentiation, induced a decrease in fukutin mRNA. Immunoprecipitation and ELISA-based RNA-binding assay demonstrated possible binding between fukutin mRNA and Musashi-1 protein. A relationship between fukutin mRNA and vimentin protein was also proposed. In situ hybridization for fukutin mRNA showed a positive cytoplasmic reaction including cytoplasmic processes. From these results, fukutin mRNA is suggested to be a localized mRNA up-regulated by Musashi-1 and to be a component of a mRNA-protein complex which includes Musashi-1 and (presumably) vimentin proteins.

Atomoxetine improves communication in a girl with semantic-pragmatic disorder.

This report describes the case of an ADHD girl (hereafter referred to as K) with semantic-pragmatic disorder, she was treated with atomoxetine. K was a 9-year-old girl. She had difficulty understanding words or sentences, finding words, and producing sentences. K also displayed symptoms of severe inattentiveness. K was diagnosed with DSM-IV-defined(1) ADHD, predominantly the inattentive type. Her communication impairment was considered symptomatic of semantic-pragmatic disorder. K was started on atomoxetine, the dose was increased to 50 mg/day (dosage based on weight: 1.8 mg/kg). Her communication activities were improved a few weeks after atomoxetine 50 mg/day was administered. She was unable to organize information pertaining to words, and so could not use words in expressive language. These problems were mitigated through the administration of atomoxetine. Further prospective studies are needed to better understand the therapeutic effects of atomoxetine in patients with semantic-pragmatic disorder.

[A case of spinal muscular atrophy type 0 in Japan].

The patient was a 2-month-old female infant born at 41 weeks and 2 days of gestation presenting multiple arthrogryposis, severe muscle hypotonia and respiratory distress with difficulty in feeding. She suffered from repeated complications with aspiration pneumonia. On admission to our hospital, she exhibited fasciculation and absence of deep tendon reflexes. Examination of the motor nerve conduction velocity (MCV) revealed no muscle contraction. Deletions of the SMN and NAIP genes were noted. Based on severe clinical course and disease development in utero, she was given a diagnosis of spinal muscular atrophy (SMA) type 0 (very severe type). Arthrogryposis and disappearance of MCV are exclusion criteria for SMA. However, the clinical course of the infant was very severe and included such exclusion items. Consequently, when an infant presents muscle hypotonia and respiratory distress, SMA must be considered as one of the differential diagnoses, even though arthrogryposis is an exclusion criterion for SMA. We discuss this case in relation to the few extant reports on SMA type 0 in Japanese infants in the literature.

[A child with paroxysmal exertion-induced dyskinesia].

We experienced a 12-year-old boy with paroxysmal exertion (exercise)-induced dyskinesia (PED). His attacks, characterized by painless paralytic stiffness of the extremities during running or playing, developed at 4 years of age. He was initially diagnosed as having epilepsy based on epileptic discharges on interictal EEG. Although several anti-epileptic drugs were not effective, clorazepate was found to be very useful for complete control of attacks for 3 years. His attacks recurred at 8 years of age and appeared to be aggravated by psychological stress, fatigue and lack of sleep. His attacks were confirmed to be non-epileptic paroxysmal hypokinesia with rigid tetraplegia, by ictal video EEG recording, and he was diagnosed as having PED. They did not respond to various anti-epileptic drugs and L-dopa/carbidopa. His attacks were reduced to some extent by administration of hydroxyzine. PED is a very rare condition and similar to paroxysmal kinesigenic dyskinesia (PKD). There is a strong possibility that patients with PED have been misdiagnosed as PKD.

CUX2 deficiency causes facilitation of excitatory synaptic transmission onto hippocampus and increased seizure susceptibility to kainate.

CUX2 gene encodes a transcription factor that controls neuronal proliferation, dendrite branching and synapse formation, locating at the epilepsy-associated chromosomal region 12q24 that we previously identified by a genome-wide association study (GWAS) in Japanese population. A CUX2 recurrent de novo variant p.E590K has been described in patients with rare epileptic encephalopathies and the gene is a candidate for the locus, however the mutation may not be enough to generate the genome-wide significance in the GWAS and whether CUX2 variants appear in other types of epilepsies and physiopathological mechanisms are remained to be investigated. Here in this study, we conducted targeted sequencings of CUX2, a paralog CUX1 and its short isoform CASP harboring a unique C-terminus on 271 Japanese patients with a variety of epilepsies, and found that multiple CUX2 missense variants, other than the p.E590K, and some CASP variants including a deletion, predominantly appeared in patients with temporal lobe epilepsy (TLE). The CUX2 variants showed abnormal localization in human cell culture analysis. While wild-type CUX2 enhances dendritic arborization in fly neurons, the effect was compromised by some of the variants. Cux2- and Casp-specific knockout mice both showed high susceptibility to kainate, increased excitatory cell number in the entorhinal cortex, and significant enhancement in glutamatergic synaptic transmission to the hippocampus. CASP and CUX2 proteins physiologically bound to each other and co-expressed in excitatory neurons in brain regions including the entorhinal cortex. These results suggest that CUX2 and CASP variants contribute to the TLE pathology through a facilitation of excitatory synaptic transmission from entorhinal cortex to hippocampus.

Newborn screening for Pompe disease in Japan.

Pompe disease is caused by a deficiency of acid alpha-glucosidase (GAA) that results in glycogen accumulation, primarily in muscle. Newborn screening (NBS) for Pompe disease has been initiated in Taiwan and is reportedly successful. However, the comparatively high frequency of pseudodeficiency allele makes NBS for Pompe disease complicated in Taiwan. To investigate the feasibility of NBS for Pompe disease in Japan, we obtained dried blood spots (DBSs) from 496 healthy Japanese controls, 29 Japanese patients with Pompe disease, and five obligate carriers, and assayed GAA activity under the following conditions: (1) total GAA measured at pH 3.8, (2) GAA measured at pH 3.8 in the presence of acarbose, and (3) neutral glucosidase activity (NAG) measured at pH 7.0 without acarbose. The % inhibition and NAG/GAA ratio were calculated. For screening, samples with GAA<8% of the normal mean, % inhibition>60%, and NAG/GAA ratio>30 were considered to be positive. Two false positive cases (0.3%) were found, one was a healthy homozygote of pseudodeficiency allele (c.1726G>A). The low false-positive rate suggests that NBS for Pompe disease is feasible in Japan.