Naoko Ishihara

Clinical and molecular analysis of Mowat-Wilson syndrome associated with ZFHX1B mutations and deletions at 2q22–q24.1

Hirschsprung disease (HSCR), a clinically complex syndrome often associated with a combination of mental retardation, microcephaly, and characteristic facial features, is genetically heterogeneous.1–10 Recently, mutations in ZFHX1B , which encodes Smad-interacting protein 1 (SIP1), were identified by our group11 and Cacheux et al 12 in patients with t(2;13)(q22;q22) and t(2;11)(q22.2;q21), respectively. These patients had clinical profiles consistent with a dominant form of the disease (Mowat-Wilson syndrome: MIM 235730).9,13 These and subsequent articles have demonstrated a link between patients with nonsense and frameshift mutations of the gene and the presence in these patients of the following clinical findings: profound mental retardation, delayed motor development, and specific facial features, including hypertelorism, a broad nasal bridge, strabismus, a pointed chin, prognathism, a nose with a prominent columella, and posteriorly rotated ears. Often associated with these features were microcephaly, epilepsy, congenital heart disease, HSCR, and midline defects such as agenesis or hypoplasia of the corpus callosum and hypospadias.13–19 This variety of clinical features is observed not only in patients with nonsense and frameshift mutations but also in patients harbouring deletions involving ZFHX1B at 2q22,9,11,15,20 including a previously reported isolated case.6 Thus, ZFHX1B clearly plays a critical role in the manifestation of clinical features of Mowat-Wilson syndrome. However, several points remain to be elucidated: (1) How broad are the clinical features in patients with ZFHX1B mutations and deletions? (2) What are the underlying molecular mechanisms by which the deletion of ZFHX1B at 2q22 affects the clinical phenotype? (3) What kind of clinical features might appear if the deletions were extended to include 2q23–q24.1? To address these questions, we have characterized the clinical features and underlying molecular basis of 27 cases with mutations or deletions in ZFHX1B , including 12 previously reported cases comprising …

A wide spectrum of clinical and brain MRI findings in patients with SLC19A3 mutations

BackgroundSLC19A3 (solute carrier family 19, member 3) is a thiamin transporter with 12 transmembrane domains. Homozygous or compound heterozygous mutations in SLC19A3 cause two distinct clinical phenotypes, biotin-responsive basal ganglia disease and Wernickes-like encephalopathy. Biotin and/or thiamin are effective therapies for both diseases.MethodsWe conducted on the detailed clinical, brain MRI and molecular genetic analysis of four Japanese patients in a Japanese pedigree who presented with epileptic spasms in early infancy, severe psychomotor retardation, and characteristic brain MRI findings of progressive brain atrophy and bilateral thalami and basal ganglia lesions.ResultsGenome-wide linkage analysis revealed a disease locus at chromosome 2q35-37, which enabled identification of the causative mutation in the gene SLC19A3. A pathogenic homozygous mutation (c.958G > C, [p.E320Q]) in SLC19A3 was identified in all four patients and their parents were heterozygous for the mutation. Administration of a high dose of biotin for one year improved neither the neurological symptoms nor the brain MRI findings in one patient.ConclusionOur cases broaden the phenotypic spectrum of disorders associated with SLC19A3 mutations and highlight the potential benefit of biotin and/or thiamin treatments and the need to assess the clinical efficacy of these treatments.

The Spectrum of ZEB2 Mutations Causing the Mowat-Wilson Syndrome in Japanese Populations

Mowat–Wilson syndrome (MWS) is a multiple congenital anomaly syndrome characterized by moderate or severe intellectual disability, a characteristic facial appearance, microcephaly, epilepsy, agenesis or hypoplasia of the corpus callosum, congenital heart defects, Hirschsprung disease, and urogenital/renal anomalies. It is caused by de novo heterozygous loss of function mutations including nonsense mutations, frameshift mutations, and deletions in ZEB2 at 2q22. ZEB2 encodes the zinc finger E‐box binding homeobox 2 protein consisting of 1,214 amino acids. Herein, we report 13 nonsense and 27 frameshift mutations from 40 newly identified MWS patients in Japan. Although the clinical findings of all the Japanese MWS patients with nonsense and frameshift mutations were quite similar to the previous review reports of MWS caused by nonsense mutations, frameshift mutations and deletions of ZEB2, the frequencies of microcephaly, Hirschsprung disease, and urogenital/renal anomalies were small. Patients harbored mutations spanning the region between the amino acids 55 and 1,204 in wild‐type ZEB2. There was no obvious genotype–phenotype correlation among the patients. A transfection study demonstrated that the cellular level of the longest form of the mutant ZEB2 protein harboring the p.D1204Rfs*29 mutation was remarkably low. The results showed that the 3′‐end frameshift mutation of ZEB2 causes MWS due to ZEB2 instability.

TUBA1A mutation can cause a hydranencephaly-like severe form of cortical dysgenesis.

TUBA1A mutations cause a wide spectrum of lissencephaly and brain malformations. Here, we report two patients with severe cortical dysgeneses, one with an extremely thin cerebral parenchyma apparently looking like hydranencephaly and the other with lissencephaly accompanied by marked hydrocephalus, both harbouring novel de novo missense mutations of TUBA1A. To elucidate how the various TUBA1A mutations affect the severity of the phenotype, we examined the capacity of the mutant protein to incorporate into the endogenous microtubule network in transfected COS7 cells by measuring line density using line extraction in an immunofluorescence study. The mutants responsible for severe phenotypes were found to incorporate extensively into the network. To determine how each mutant alters the microtubule stability, we examined cold-induced microtubule depolymerisation in fibroblasts. The depolymerisation of patients’ fibroblasts occurred earlier than that of control fibroblasts, suggesting that microtubules bearing mutated tubulins are unstable. Both mutations are predicted to participate in lateral interactions of microtubules. Our data suggest that the TUBA1A mutations disrupting lateral interactions have pronounced dominant-negative effects on microtubule dynamics that are associated with the severe end of the lissencephaly spectrum.

Seizure characteristics of epilepsy in childhood after acute encephalopathy with biphasic seizures and late reduced diffusion

The aim of this study was to clarify characteristics of post‐encephalopathic epilepsy (PEE) in children after acute encephalopathy with biphasic seizures and late reduced diffusion (AESD), paying particular attention to precise diagnosis of seizure types.

The effects of co-medications on lamotrigine clearance in Japanese children with epilepsy

PURPOSE Although it has been reported that some antiepileptic drugs have inducing or inhibiting effects on lamotrigine (LTG) clearance, whether they have the same effects in Asian epilepsy patients as in those in other countries has not been clarified, especially in children. The aim of this study was to determine the effects of co-medications on LTG clearance in Japanese children with epilepsy. METHODS A total of 342 routine serum concentration measurements of LTG in 102 Japanese epilepsy patients under 20years of age were reviewed. The dose-corrected concentration (DCC) of LTG was calculated as [concentration]/[dose/(body weight)], and the DCC of LTG was compared by co-medication. The difference in the DCC of LTG was compared between patients with and without valproic acid (VPA) and between those with and without drugs inducing glucuronic acid conjugation (phenytoin (PHT), carbamazepine (CBZ), and phenobarbital (PB)). RESULTS The DCC of LTG was significantly higher in patients on VPA and significantly lower in patients on drugs inducing glucuronic acid conjugation than in patients on LTG monotherapy. The DCC of LTG was significantly higher in patients on CBZ than in patients on PHT or PB. There was no correlation between the DCC of LTG and the concentration of VPA or metabolic inducers within the therapeutic range. Other antiepileptic drugs including clobazam, clonazepam, zonisamide, and levetiracetam had little effect on LTG concentration. CONCLUSION LTG concentration changes dramatically with concomitant antiepileptic drugs in Japanese children, as previously reported from other countries, and special attention is required. Although the dose of LTG should be adjusted when starting or discontinuing VPA or metabolic inducers, no adjustment is needed when changing the dose of VPA or metabolic inducers in the therapeutic range.

PET in Infancy Predicts Long-Term Outcome during Adolescence in Cryptogenic West Syndrome

BACKGROUND AND PURPOSE: Developmental and seizure outcomes in patients with cryptogenic West syndrome are variable. Our aim was to clarify the relationship between FDG-PET findings in infancy and long-term seizure and developmental outcome in cryptogenic West syndrome. MATERIALS AND METHODS: From 1991 to 1999, we prospectively performed FDG-PET from the onset of cryptogenic West syndrome in 27 patients. PET was performed at onset and at 10 months of age. In 2012, we evaluated the educational status, psychomotor development, and seizure outcome in 23 of the 27 patients (13–22 years of age). The correlation between PET findings and outcome was evaluated. RESULTS: At onset, PET showed hypometabolism in 13 patients (57%). The second PET after the initial treatment revealed cortical hypometabolism in 7 patients (30%). While hypometabolism at onset disappeared on the second PET in 9 patients, it was newly revealed in 3 patients on the second PET. In 2012, seven patients had persistent or recurrent seizures. Eight patients had intellectual impairment. The first PET did not correlate with seizure or developmental outcome. Five of 7 patients (71%) with hypometabolism seen on the second PET had persistent or recurrent seizures, while 14 of 16 (88%) patients with normal findings on the second PET were free of seizures. Five of 7 patients (71%) showing hypometabolism on the second PET had intellectual impairment. Thirteen of 16 (81%) patients with normal findings on the second PET showed normal intelligence. A significant correlation was found between the second PET and long-term seizure (P = .01) or developmental outcome (P = .03). CONCLUSIONS: Cortical hypometabolism is not permanent; it changes with clinical symptoms. Hypometabolism after initial treatment predicts long-term seizures and poor developmental outcome.

White Matter Abnormality Correlates with Developmental and Seizure Outcomes in West Syndrome of Unknown Etiology.

BACKGROUND AND PURPOSE: West syndrome is an epileptic encephalopathy characterized by epileptic spasms, a specific pattern on electroencephalography of hypsarrhythmia, and developmental regression. Our aim was to assess white matter abnormalities in West syndrome of unknown etiology. We hypothesized that diffusion tensor imaging reveals white matter abnormalities, especially in patients with poor seizure and developmental outcomes. MATERIALS AND METHODS: We enrolled 23 patients with new-onset West syndrome of unknown etiology. DTI was performed at 12 and 24 months of age. Fractional anisotropy images were compared with those of controls by using tract-based spatial statistics. We compared axial, radial, and mean diffusivity between patients and controls in the fractional anisotropy skeleton. We determined correlations of these parameters with developmental quotient, electroencephalography, and seizure outcomes. We also compared DTI with hypometabolism on fluorodeoxyglucose positron-emission tomography. RESULTS: At 12 months of age, patients showed widespread fractional anisotropy reductions and higher radial diffusivity in the fractional anisotropy skeleton with a significant difference on tract-based spatial statistics. The developmental quotient at 12 months of age correlated positively with fractional anisotropy and negatively with radial and mean diffusivity. Patients with seizure and abnormal findings on electroencephalography after initial treatments had lower fractional anisotropy and higher radial diffusivity. At 24 months, although tract-based spatial statistics did not show significant differences between patients and controls, tract-based spatial statistics in the 10 patients with a developmental quotient of <70 had significant fractional anisotropy reduction. In patients with unilateral temporal lobe hypometabolism on PET, tract-based spatial statistics showed greater fractional anisotropy reduction in the temporal lobe ipsilateral to the side of PET hypometabolism. CONCLUSIONS: Diffuse abnormal findings on DTI at 12 months of age suggest delayed myelination as a key factor underlying abnormal findings on DTI. Conversely, asymmetric abnormal findings on DTI at 24 months may reflect underlying focal pathologies.

Cytotoxic edema at onset in West syndrome of unknown etiology: A longitudinal diffusion tensor imaging study

To clarify longitudinal changes in white matter microstructures from the onset of disease in patients with West syndrome (WS) of unknown etiology.

Autopsy findings of a patient with acute encephalitis and refractory, repetitive partial seizures

Chikako Ogawa *, Jun Natsume , Hiroyuki Yamamoto , Naoko Ishihara , Atsushi Tashiro , Hiroyuki Kidokoro , Tamiko Negoro , Mari Yoshida , Kazuyoshi Watanabe a Department of Pediatrics, Nagoya University Graduate School of Medicine, Nagoya, Japan Department of Pediatrics, Social Insurance Chukyo Hospital, Nagoya, Japan Department of Neuropathology, Institute for Medical Science of Aging, Aichi Medical University, Nagakute, Japan