Your search keyword '"Saitsu H"' showing total 18 results

1. A novel heterozygous TMEM63A variant in a familial case with early onset nystagmus, severe hypomyelination, and a favorable adult prognosis.

Author

Yoneno S, Yamamoto K, Tabata K, Shimizu-Motohashi Y, Tomita A, Hayashi T, Maki H, Sato N, Inoue K, Saitsu H, and Komaki H

Subjects

Adult, Female, Humans, Infant, Brain diagnostic imaging, Brain pathology, Hereditary Central Nervous System Demyelinating Diseases genetics, Hereditary Central Nervous System Demyelinating Diseases pathology, Hereditary Central Nervous System Demyelinating Diseases diagnosis, Hereditary Central Nervous System Demyelinating Diseases diagnostic imaging, Magnetic Resonance Imaging, Mutation genetics, Nystagmus, Pathologic genetics, Nystagmus, Pathologic diagnosis, Prognosis, Heterozygote, Membrane Proteins genetics, Pedigree

Abstract

Heterozygous transmembrane protein 63A (TMEM63A) variants cause transient infantile hypomyelinating leukodystrophy-19, which features remarkable natural resolution of clinical and imaging findings during childhood. Previous reports have mainly described de novo variants lacking detailed familial cases. Herein, we describe the clinical course of familial cases with a TMEM63A variant. A 5-month-old girl presented with nystagmus, global hypotonia, and difficulty swallowing since birth. Brain magnetic resonance imaging at 1.5 and 5 months revealed diffuse hypomyelination. Her mother, maternal aunt, and grandfather had nystagmus and motor developmental delays in infancy, which resolved spontaneously during childhood. Compared with these cases, the proband's motor developmental delay was profound, and she was the only one with feeding difficulties, necessitating nasogastric tube feeding. Genetic testing revealed a heterozygous TMEM63A variant (NM_014698.3:c.1658G>A, p.(Gly553Asp)) in the proband and her family. This is the first three-generation familial report of a TMEM63A variant that provides insight into its history and heterogeneity., (© 2024. The Author(s), under exclusive licence to The Japan Society of Human Genetics.)

Published

2024

2. CLCN2-related leukoencephalopathy with novel compound heterozygous variants followed with magnetic resonance imaging over 17 years: a case report.

Author

Ohira M, Saitsu H, Nakashima M, Sato N, Inoue K, and Takao M

Subjects

Humans, Female, Adult, Heterozygote, Leukoencephalopathies genetics, Leukoencephalopathies diagnostic imaging, CLC-2 Chloride Channels, Chloride Channels genetics, Magnetic Resonance Imaging methods

Abstract

Background: CLCN2-related leukoencephalopathy (CC2L) is a rare autosomal recessive disorder caused by biallelic variants of CLCN2, which encodes chloride channel 2. Although CC2L is associated with distinct radiological features, it presents with a wide range of clinical features., Case Presentation: A 34-year-old woman presented to our hospital with a sudden onset of vertigo with headache. The patient reported intermittent headaches and tingling in both arms since the age of 31 years. On the first visit, the patient was alert and neurologically intact, except for slight hyperreflexia of the limbs without laterality. Head magnetic resonance imaging (MRI) showed high-intensity signals on axial T2-weighted fluid-attenuated inversion recovery and diffusion-weighted images bilaterally in the posterior limbs of the internal capsules, cerebral peduncles, superior and middle cerebellar peduncles, decussation of superior cerebellar peduncles, and central tegmental tract. All the patient's symptoms were resolved or eased following supportive care. The patient stopped attending our hospital at the age of 46 years. At 51 years of age, the patient revisited our hospital because of the recurrence of vertigo, headache, and nausea. She did not present with any abnormalities by neurological examination. Head MRI showed widespread high-intensity signals similar to those 17 years ago. Genetic testing revealed compound heterozygous variants in CLCN2 (NM_004366.6): a novel variant c.1828 C > T, p.(Arg 610*) from her father and c.61dup, p.(Leu21Profs*27) from her mother. The patient was finally diagnosed with CC2L. She received supportive treatment, which made her symptoms manageable., Conclusions: This is a detailed report of a patient with adult-onset CC2L who was successfully diagnosed and followed up with head MRI. This report provides new insights into CC2L and highlights its persistent, distinct, and stable characteristics observed in head MRI over one decade and the difficulty in forming a diagnosis without MRI when patients have minimal and common symptoms, such as in the present case., (© 2024. The Author(s).)

Published

2024

3. Identifying pathogenic variants in rare pediatric neurological diseases using exome sequencing.

Author

Komatsu K, Kato M, Kubota K, Fukumura S, Yamada K, Hori I, Shimizu K, Miyamoto S, Yamoto K, Hiraide T, Watanabe K, Aoki S, Furukawa S, Hayashi T, Isogai M, Harasaki T, Nakashima M, and Saitsu H

Subjects

Humans, Child, Gene Frequency, Rare Diseases genetics, Rare Diseases diagnosis, Retrospective Studies, Polymorphism, Single Nucleotide, INDEL Mutation, Databases, Genetic, Exome genetics, Molecular Sequence Annotation, Genetic Predisposition to Disease, Male, Phenotype, Female, Nervous System Diseases genetics, Nervous System Diseases diagnosis, Exome Sequencing methods

Abstract

Variant annotations are crucial for efficient identification of pathogenic variants. In this study, we retrospectively analyzed the utility of four annotation tools (allele frequency, ClinVar, SpliceAI, and Phenomatcher) in identifying 271 pathogenic single nucleotide and small insertion/deletion variants (SNVs/small indels). Although variant filtering based on allele frequency is essential for narrowing down on candidate variants, we found that 13 de novo pathogenic variants in autosomal dominant or X-linked dominant genes are registered in gnomADv4.0 or 54KJPN, with an allele frequency of less than 0.001%, suggesting that very rare variants in large cohort data can be pathogenic de novo variants. Notably, 38.4% candidate SNVs/small indels are registered in the ClinVar database as pathogenic or likely pathogenic, which highlights the significance of this database. SpliceAI can detect candidate variants affecting RNA splicing, leading to the identification of four variants located 11 to 50 bp away from the exon-intron boundary. Prioritization of candidate genes by proband phenotype using the PhenoMatcher module revealed that approximately 95% of the candidate genes had a maximum PhenoMatch score ≥ 0.6, suggesting the utility of phenotype-based variant prioritization. Our results suggest that a combination of multiple annotation tools and appropriate evaluation can improve the diagnosis of rare diseases., (© 2024. The Author(s).)

Published

2024

4. Long-term clinical observation of patients with heterozygous KIF1A variants.

Author

Kawashima A, Kodama K, Okubo Y, Endo W, Inui T, Ikeda M, Katata Y, Togashi N, Ohba C, Imagawa E, Iwama K, Mizuguchi T, Kitami M, Aihara Y, Takayama J, Tamiya G, Kikuchi A, Kure S, Saitsu H, Matsumoto N, and Haginoya K

Subjects

Humans, Female, Male, Child, Adult, Adolescent, Child, Preschool, Phenotype, Retrospective Studies, Mutation genetics, Young Adult, Follow-Up Studies, Kinesins genetics, Heterozygote

Abstract

KIF1A-related disorders (KRDs) encompass recessive and dominant variants with wide clinical variability. Recent genetic investigations have expanded the clinical phenotypes of heterozygous KIF1A variants. However, there have been a few long-term observational studies of patients with heterozygous KIF1A variants. A retrospective chart review of consecutive patients diagnosed with spastic paraplegia at Miyagi Children's Hospital from 2016 to 2020 identified six patients with heterozygous KIF1A variants. To understand the long-term changes in clinical symptoms, we examined these patients in terms of their characteristics, clinical symptoms, results of electrophysiological and neuroimaging studies, and genetic testing. The median follow-up period was 30 years (4-44 years). This long-term observational study showed that early developmental delay and equinus gait, or unsteady gait, are the first signs of disease onset, appearing with the commencement of independent walking. In addition, later age-related progression was observed in spastic paraplegia, and the appearance of axonal neuropathy and reduced visual acuity were characteristic features of the late disease phenotype. Brain imaging showed age-related progression of cerebellar atrophy and the appearance of hyperintensity of optic radiation on T2WI and FLAIR imaging. Long-term follow-up revealed a pattern of steady progression and a variety of clinical symptoms, including spastic paraplegia, peripheral neuropathy, reduced visual acuity, and some degree of cerebellar ataxia. Clinical variability between patients was observed to some extent, and therefore, further studies are required to determine the phenotype-genotype correlation., (© 2024 Wiley Periodicals LLC.)

Published

2024

5. The non-canonical bivalent gene Wfdc15a controls spermatogenic protease and immune homeostasis.

Author

Tomizawa SI, Fellows R, Ono M, Kuroha K, Dočkal I, Kobayashi Y, Minamizawa K, Natsume K, Nakajima K, Hoshi I, Matsuda S, Seki M, Suzuki Y, Aoto K, Saitsu H, and Ohbo K

Subjects

Male, Animals, Mice, Testis metabolism, Histones metabolism, Peptide Hydrolases metabolism, Peptide Hydrolases genetics, Epigenesis, Genetic, Infertility, Male genetics, Mice, Inbred C57BL, Meiosis genetics, Adult Germline Stem Cells metabolism, Mice, Knockout, Immunity, Innate genetics, Spermatogonia metabolism, Spermatogenesis genetics, Homeostasis, Spermatids metabolism

Abstract

Male infertility can be caused by chromosomal abnormalities, mutations and epigenetic defects. Epigenetic modifiers pre-program hundreds of spermatogenic genes in spermatogonial stem cells (SSCs) for expression later in spermatids, but it remains mostly unclear whether and how those genes are involved in fertility. Here, we report that Wfdc15a, a WFDC family protease inhibitor pre-programmed by KMT2B, is essential for spermatogenesis. We found that Wfdc15a is a non-canonical bivalent gene carrying both H3K4me3 and facultative H3K9me3 in SSCs, but is later activated along with the loss of H3K9me3 and acquisition of H3K27ac during meiosis. We show that WFDC15A deficiency causes defective spermiogenesis at the beginning of spermatid elongation. Notably, depletion of WFDC15A causes substantial disturbance of the testicular protease-antiprotease network and leads to an orchitis-like inflammatory response associated with TNFα expression in round spermatids. Together, our results reveal a unique epigenetic program regulating innate immunity crucial for fertility., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)

Published

2024

6. A family with neuronal intranuclear inclusion disease with focal segmental glomerulosclerosis.

Author

Watanabe K, Bunai T, Sakamoto M, Ishigaki S, Iwakura T, Ohashi N, Wakatsuki R, Takenouchi A, Iwaizumi M, Hotta Y, Saida K, Koshimizu E, Miyatake S, Saitsu H, Matsumoto N, and Nakamura T

Subjects

Humans, Male, Female, Adult, Receptor, Notch2 genetics, Middle Aged, Glomerulosclerosis, Focal Segmental genetics, Glomerulosclerosis, Focal Segmental pathology, Intranuclear Inclusion Bodies pathology, Intranuclear Inclusion Bodies genetics, Neurodegenerative Diseases genetics, Neurodegenerative Diseases diagnostic imaging, Neurodegenerative Diseases pathology, Pedigree

Abstract

Background: Neuronal intranuclear inclusion disease (NIID) is a rare neurodegenerative disease caused by the expansion of GGC repeats in the 5'-untranslated region (5'-UTR) of NOTCH2NLC. Although increasing evidence suggests that NIID affects various organs, its association with renal involvement remains unclear. We studied the genetic background of a family with NIID, in which four of five members presented with proteinuria as the initial manifestation. The renal pathology of three patients was diagnosed as focal segmental glomerulosclerosis (FSGS) at a previous hospital. These patients also presented with tremors, retinal degeneration, and episodic neurological events. Finally, one patient exhibited reversible bilateral thalamic high-intensity signal changes on diffusion-weighted imaging during episodic neurological events., Methods: Exome sequencing (ES) and nanopore long-read whole-genome sequencing (LR-WGS) were performed on the index case, followed by nanopore target sequencing using Cas9-mediated PCR-free enrichment and methylation analysis., Results: ES revealed no candidate variants; however, nanopore LR-WGS in the index case revealed expansion of short tandem repeats (STR) in NOTCH2NLC. Subsequent nanopore target sequencing using Cas9-mediated PCR-free enrichment showed STR expansion of NOTCH2NLC in an affected sibling and asymptomatic father. Methylation analysis using nanopore data revealed hypermethylation of the expanded allele in the asymptomatic father and partial hypermethylation in a mildly symptomatic sibling, whereas the expanded allele was hypomethylated in the index case., Conclusions: This investigation expands the clinical spectrum of NIID, suggesting that STR expansion of NOTCH2NLC is a cause of renal diseases, including FSGS., (© 2024. Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024

7. Exploring unsolved cases of lissencephaly spectrum: integrating exome and genome sequencing for higher diagnostic yield.

Author

Furukawa S, Kato M, Ishiyama A, Kumada T, Yoshida T, Takeshita E, Chong PF, Yamanouchi H, Kotake Y, Kyoda T, Nomura T, Miyata Y, Nakashima M, and Saitsu H

Abstract

Lissencephaly is a rare brain malformation characterized by abnormal neuronal migration during cortical development. In this study, we performed a comprehensive genetic analysis using next-generation sequencing in 12 unsolved Japanese lissencephaly patients, in whom PAFAH1B1, DCX, TUBA1A, and ARX variants were excluded using the Sanger method. Exome sequencing (ES) was conducted on these 12 patients, identifying pathogenic variants in CEP85L, DYNC1H1, LAMC3, and DCX in four patients. Next, we performed genome sequencing (GS) on eight unsolved patients, and structural variants in PAFAH1B1, including an inversion and microdeletions involving several exons, were detected in three patients. Notably, these microdeletions in PAFAH1B1 could not to be detected by copy number variation (CNV) detection tools based on the depth of coverage methods using ES data. The density of repeat sequences, including Alu sequences or segmental duplications, which increase the susceptibility to structural variations, is very high in some lissencephaly spectrum genes (PAFAH1B1, TUBA1A, DYNC1H1). These missing CNVs were due to the limitations of detecting repeat sequences in ES-based CNV detection tools. Our study suggests that a combined approach integrating ES with GS can contribute to a higher diagnostic yield and a better understanding of the genetic landscape of the lissencephaly spectrum., (© 2024. The Author(s), under exclusive licence to The Japan Society of Human Genetics.)

Published

2024

8. Chloride Voltage-Gated Channel 2 (CLCN2)-Related Leukoencephalopathy Exhibiting Reduced Choline Levels on Magnetic Resonance Spectroscopy.

Author

Ochiai K, Ohashi T, Mori H, Saitsu H, and Takanashi JI

Abstract

In this article, we report the third case of chloride voltage-gated channel 2 (CLCN2)-related leukoencephalopathy (CC2L) in Japan. The patient presented with headache, vertigo, and mild visual impairment. The CLCN2 variant of the patient, NM_004366.6:c.61dup, p.(Leu21Profs*27), was also found in two other Japanese patients as this variant is relatively common in the Japanese population. Magnetic resonance imaging (MRI) revealed T2 prolongation with reduced diffusion in the bilateral posterior limbs of the internal capsule, cerebral peduncles, and superior and middle cerebellar peduncles. Magnetic resonance spectroscopy (MRS) of normal-appearing white matter revealed decreased choline content. This represents the first evidence of decreased choline levels in CC2L, highlighting the superior sensitivity of MRS over MRI., Competing Interests: Human subjects: Consent was obtained or waived by all participants in this study. Institutional Review Board Committees of Tokyo Women’s Medical University issued approval 356, 3535R. This study was approved by the Institutional Review Board Committees of Tokyo Women’s Medical University (approval number 356, 3535R) and Hamamatsu University School of Medicine (approval number 20-207). Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: This study was supported by the Japan Agency for Medical Research and Development Grant Number JP23ek0109637. Financial relationships: Jun-ichi Takanashi declare(s) a grant from Japan Agency for Medical Research and Development. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Ochiai et al.)

Published

2024

9. Pathogenic sequence variant and microdeletion affecting HMGA2 in Silver-Russell syndrome: case reports and literature review.

Author

Yamoto K, Saitsu H, Ohkubo Y, Kagami M, and Ogata T

Subjects

Humans, Male, Female, Frameshift Mutation genetics, Japan, Genomic Imprinting genetics, Infant, Insulin-Like Growth Factor II genetics, DNA Methylation genetics, Chromosomes, Human, Pair 12 genetics, Silver-Russell Syndrome genetics, HMGA2 Protein genetics

Abstract

Silver-Russell syndrome (SRS) is a representative imprinting disorder characterized by pre- and postnatal growth failure. We encountered two Japanese SRS cases with a de novo pathogenic frameshift variant of HMGA2 (NM_003483.6:c.138_141delinsCT, p.(Lys46Asnfs*16)) and a de novo ~ 3.4 Mb microdeletion at 12q14.2-q15 involving HMGA2, respectively. Furthermore, we compared clinical features in previously reported patients with various genetic conditions leading to compromised IGF2 expression, i.e., HMGA2 aberrations, PLAG1 aberrations, IGF2 aberrations, and H19/IGF2:IG-DMR epimutations (hypomethylations). The results provide further support for HMGA2 being involved in the development of SRS and imply some characteristic features in patients with HMGA2 aberrations., (© 2024. The Author(s).)

Published

2024

10. Spontaneous Remission of Epileptic Seizures Following Norovirus Infection in a Patient With DNM1 Encephalopathy.

Author

Kubota K, Adachi M, Fujii H, Saitsu H, and Ohnishi H

Abstract

Epileptic seizures can be worsened by infections; however, they sometimes disappear or decrease after an acute viral infection, although this is rare. We report the spontaneous remission of epileptic seizures following norovirus-induced viral gastroenteritis in a boy with DNM1 encephalopathy. He had clonic seizures daily from the age of two months and developed epileptic spasms at 14 months of age; he was admitted to the hospital at this time. A physical examination revealed hypotonia, strabismus, tongue protrusion with drooping, and widely spaced teeth. Although brain magnetic resonance imaging was unremarkable, electroencephalography revealed frequent occipital spikes. Three days after admission, the patient developed frequent diarrhea without a fever. A rapid immunochromatographic test of norovirus in a stool sample was positive. Immediately after the appearance of diarrhea, the epileptic seizures disappeared. Currently, at the age of five years, the patient has a profound psychomotor developmental delay; he has no verbal expression and is unable to walk. He has experienced involuntary movements of the myoclonus since 10 months of age. Whole-exome sequencing of the patient's DNA revealed the presence of a heterozygous de novo variant of DNM1 : c.709C>T (p.Arg237Trp). Although the findings from our patient suggest that underlying neural network abnormalities were ameliorated by immunological mechanisms as a result of the viral infection, further research is needed to clarify the mechanisms behind this spontaneous remission of seizures., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, Kubota et al.)

Published

2024

11. Case Report: Novel compound heterozygous TPRKB variants cause Galloway-Mowat syndrome.

Author

Hiraide T, Hayashi T, Ito Y, Urushibata R, Uchida H, Kitagata R, Ishigaki H, Ogata T, Saitsu H, and Fukuda T

Abstract

Background: Galloway-Mowat syndrome (GAMOS) is a rare genetic disease characterized by early-onset nephrotic syndrome and microcephaly with central nervous system abnormalities. Pathogenic variants in genes encoding kinase, endopeptidase, and other proteins of small size (KEOPS) complex subunits cause GAMOS. The subunit TPRKB (TP53RK binding protein) has been reported in only two patients with GAMOS with homozygous missense variants., Clinical Report: Herein, we described a three-year-old male with GAMOS. He exhibited developmental delay, developmental regression, microcephaly, distinctive facial features, skeletal abnormalities, and epilepsy. Brain magnetic resonance imaging revealed progressive brain atrophy, delayed myelination, T2-hypointense signals in the thalamus, and multiple intracranial abnormal signals on diffusion-weighted imaging. He presented with relapsing nephrotic proteinuria exacerbated by upper respiratory tract infections and progressive renal function decline. Exome sequencing identified compound heterozygous missense and frameshift variants in TPRKB : c.224dup, p.(Ser76IlefsTer3) and c.247C>T, p.(Leu83Phe)., Conclusions: Our study supports that pathogenic TPRKB variants cause KEOPS complex-related GAMOS., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. The author(s) declared that they were an editorial board member of Frontiers, at the time of submission. This had no impact on the peer review process and the final decision., (© 2024 Hiraide, Hayashi, Ito, Urushibata, Uchida, Kitagata, Ishigaki, Ogata, Saitsu and Fukuda.)

Published

2024

12. Cerebellar Ataxia With Neuropathy and Vestibular Areflexia Syndrome Due to Replication Factor C Subunit 1 Gene Repeat Expansion.

Author

Tsuchiya M, Bunai T, Watanabe K, Saitsu H, and Goshima S

Subjects

Male, Humans, Middle Aged, Replication Protein C genetics, Cerebellum, Syndrome, Cerebellar Ataxia diagnostic imaging, Cerebellar Ataxia genetics, Bilateral Vestibulopathy diagnosis

Abstract

Abstract: A 56-year-old man was born to consanguineous parents. He experienced slow-progressing sensory disturbances in the upper extremities. T1-weighted images showed cerebellar atrophy. 123I-IMP SPECT revealed reduced cerebral blood flow in the cerebellum. 123I-FP-CIT SPECT showed low uptake of dopamine transporter in the bilateral tail of the striatum. 123I-MIBG scintigraphy shows a decreased heart-to-mediastinum ratio. Flanking polymerase chain reaction suggested biallelic repeat expansion in intron 2 of RFC1, and subsequent repeat-primed polymerase chain reaction revealed ACAGG repeat expansion. Thus, he was diagnosed as cerebellar ataxia with neuropathy and vestibular areflexia syndrome., Competing Interests: Conflicts of interest and sources of funding: none declared., (Copyright © 2024 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

13. Novel compound heterozygous ATP1A2 variants in a patient with fetal akinesia/hypokinesia sequence.

Author

Furukawa S, Kato M, Nomura T, Sumitomo N, Yoneno S, Nakashima M, and Saitsu H

Subjects

Male, Humans, Hypokinesia, Sodium-Potassium-Exchanging ATPase genetics, Hemiplegia, Syndrome, Microcephaly diagnosis, Microcephaly genetics, Migraine with Aura

Abstract

ATP1A2 encodes a subunit of sodium/potassium-transporting adenosine triphosphatase (Na + /K + -ATPase). Heterozygous pathogenic variants of ATP1A2 cause familial hemiplegic migraine, alternating hemiplegia of childhood, and developmental and epileptic encephalopathy. Biallelic loss-of-function variants in ATP1A2 lead to fetal akinesia, respiratory insufficiency, microcephaly, polymicrogyria, and dysmorphic facies, resulting in fetal death. Here, we describe a patient with compound heterozygous ATP1A2 variants consisting of missense and nonsense variants. He survived after birth with brain malformations and the fetal akinesia/hypokinesia sequence. We report a novel type of compound heterozygous variant that might extend the disease spectrum of ATP1A2., (© 2023 Wiley Periodicals LLC.)

Published

2024

14. Splicing variant of WDR37 in a case of Neurooculocardiogenitourinary syndrome.

Author

Samejima M, Nakashima M, Shibasaki J, Saitsu H, and Kato M

Subjects

Humans, RNA Splicing genetics, Mutation, Missense, Syndrome, Seizures, Mutation, Intellectual Disability genetics, Nervous System Malformations

Abstract

Background: Neurooculocardiogenitourinary syndrome (NOCGUS), a multisystemic syndrome characterized by motor disorder, intellectual disability, seizures, abnormal brain structure, ocular diseases, and cardiac diseases, has been reported with missense variant of WD repeat-containing protein 37 (WDR37) in humans. This report aimed to identify the cause of NOCGUS in an affected patient., Case Presentation: We identified a de novo intronic 4-bp deletion of WDR37, c.727-27_727-24del, which were predicted to cause abnormal splicing by SpliceAI, in the patient with NOCGUS. Reverse transcription polymerase chain reaction (RT-PCR) revealed intron retention of 63 base pairs before exon 10 in messenger RNA, which was predicted to insert 21 additional aberrant amino acids (p.S242_I243insLCQKKLKISRKCLFWPSLWQQ). The patient had novel phenotypes, anal atresia, and polycystic kidney, in addition to intellectual disability, seizures, cerebellar vermian anomaly, and coloboma, which are typical in NOCGUS. We did not observe motor impairments or cardiovascular anomalies., Conclusion: This is the first reported case of NOCGUS with the splicing variant of WDR37, which manifests with distinctive but variable features. Our findings may expand a possible phenotypic expression of NOCGUS., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Japanese Society of Child Neurology. Published by Elsevier B.V. All rights reserved.)

Published

2024

15. RNA sequencing and target long-read sequencing reveal an intronic transposon insertion causing aberrant splicing.

Author

Kawakami R, Hiraide T, Watanabe K, Miyamoto S, Hira K, Komatsu K, Ishigaki H, Sakaguchi K, Maekawa M, Yamashita K, Fukuda T, Miyairi I, Ogata T, and Saitsu H

Subjects

Female, Humans, Introns genetics, Exome Sequencing, Base Sequence, Sequence Analysis, RNA, Mosaicism, RNA Splicing genetics, RNA Splice Sites, Chromosome Disorders

Abstract

More than half of cases with suspected genetic disorders remain unsolved by genetic analysis using short-read sequencing such as exome sequencing (ES) and genome sequencing (GS). RNA sequencing (RNA-seq) and long-read sequencing (LRS) are useful for interpretation of candidate variants and detection of structural variants containing repeat sequences, respectively. Recently, adaptive sampling on nanopore sequencers enables target LRS more easily. Here, we present a Japanese girl with premature chromatid separation (PCS)/mosaic variegated aneuploidy (MVA) syndrome. ES detected a known pathogenic maternal heterozygous variant (c.1402-5A>G) in intron 10 of BUB1B (NM_001211.6), a known responsive gene for PCS/MVA syndrome with autosomal recessive inheritance. Minigene splicing assay revealed that almost all transcripts from the c.1402-5G allele have mis-splicing with 4-bp insertion. GS could not detect another pathogenic variant, while RNA-seq revealed abnormal reads in intron 2. To extensively explore variants in intron 2, we performed adaptive sampling and identified a paternal 3.0 kb insertion. Consensus sequence of 16 reads spanning the insertion showed that the insertion consists of Alu and SVA elements. Realignment of RNA-seq reads to the new reference sequence containing the insertion revealed that 16 reads have 5' splice site within the insertion and 3' splice site at exon 3, demonstrating causal relationship between the insertion and aberrant splicing. In addition, immunoblotting showed severely diminished BUB1B protein level in patient derived cells. These data suggest that detection of transcriptomic abnormalities by RNA-seq can be a clue for identifying pathogenic variants, and determination of insert sequences is one of merits of LRS., (© 2023. The Author(s), under exclusive licence to The Japan Society of Human Genetics.)

Published

2024

16. Sotos syndrome with marked overgrowth in three Japanese patients with heterozygous likely pathogenic NSD1 variants: case reports with review of literature.

Author

Masunaga Y, Ono H, Fujisawa Y, Taniguchi K, Saitsu H, and Ogata T

Subjects

Male, Female, Humans, Adult, Histone Methyltransferases, Histone-Lysine N-Methyltransferase genetics, Japan, Mutation, Intracellular Signaling Peptides and Proteins genetics, Nuclear Proteins genetics, Sotos Syndrome diagnosis, Sotos Syndrome genetics

Abstract

We report three Japanese patients with Sotos syndrome accompanied by marked overgrowth, i.e., a 2 8/12-year-old boy with a height of 105.2 cm (+4.4 SD) (patient 1), the mother of patient 1 with a height of 180.8 cm (+4.1 SD) (patient 2), and a 12 10/12-year-old girl with a height of 189.4 cm (+6.3 SD) (patient 3). In addition to the marked overgrowth (tall stature), patients 1-3 exhibited Sotos syndrome-compatible macrocephaly and characteristic features, whereas intellectual and developmental disabilities remained at a borderline level in patient 1 and were apparently absent from patients 2 and 3. Thus, whole exome sequencing was performed to confirm the diagnosis, revealing a likely pathogenic c.6356A>G:p.(Asp2119Gly) variant in NSD1 of patients 1 and 2, and a likely pathogenic c.6599dupT:p.(Ser2201Valfs*4) variant in NSD1 of patient 3 (NM_022455.5). The results, in conjunction with the previously reported data in nine patients with marked overgrowth (≥4.0 SD), imply that several patients with Sotos syndrome have extreme tall stature even in adulthood. Thus, it is recommended to examine NSD1 in patients with marked overgrowth as the salient feature.

Published

2024

17. TBX5 pathogenic variant in a patient with congenital heart defect and tracheal stenosis.

Author

Yamoto K, Kato F, Yamoto M, Fukumoto K, Shimizu K, Saitsu H, and Ogata T

Subjects

Animals, Humans, Mice, Promoter Regions, Genetic, Constriction, Pathologic, Heart Defects, Congenital complications, Heart Defects, Congenital diagnosis, Heart Defects, Congenital genetics, Trachea abnormalities, Tracheal Stenosis diagnosis, Tracheal Stenosis genetics

Abstract

Congenital tracheal stenosis is a rare life-threatening disorder caused by narrow O-shaped tracheal ring without smooth muscle. Its underlying genetic cause has not been elucidated. We performed whole exome sequencing in a patient with congenital tracheal stenosis and congenital heart defect, and identified a de novo pathogenic TBX5 variant (NM_181486.4:c.680T>C, p.(Ile227Thr)). The Ile227Thr-TBX5 protein was predicted to have a decreased stability by in silico protein structural analyses, and was shown to have a significantly reduced activity for the NPPA promoter by luciferase assay. The results, together with the expression of mouse Tbx5 in the lung and trachea and the development of tracheal cartilage dysplasia in the lung-specific Tbx5 null mice, imply the relevance of TBX5 pathogenic variants to congenital tracheal stenosis., (© 2023 Japanese Teratology Society.)

Published

2024

18. Two novel cases of biallelic SMPD4 variants with brain structural abnormalities.

Author

Aoki S, Watanabe K, Kato M, Konishi Y, Kubota K, Kobayashi E, Nakashima M, and Saitsu H

Subjects

Male, Humans, Cerebellum, Microcephaly genetics, Arthrogryposis genetics, Neurodevelopmental Disorders genetics, Nervous System Malformations, Intellectual Disability genetics

Abstract

Sphingomyelin phosphodiesterase 4 (SMPD4) encodes a member of the Mg 2+ -dependent, neutral sphingomyelinase family that catalyzes the hydrolysis of the phosphodiester bond of sphingomyelin to form phosphorylcholine and ceramide. Recent studies have revealed that biallelic loss-of-function variants of SMPD4 cause syndromic neurodevelopmental disorders characterized by microcephaly, congenital arthrogryposis, and structural brain anomalies. In this study, three novel loss-of-function SMPD4 variants were identified using exome sequencing (ES) in two independent patients with developmental delays, microcephaly, seizures, and brain structural abnormalities. Patient 1 had a homozygous c.740_741del, p.(Val247Glufs*21) variant and showed profound intellectual disability, hepatomegaly, a simplified gyral pattern, and a thin corpus callosum without congenital dysmorphic features. Patient 2 had a compound heterozygous nonsense c.2124_2125del, p.(Phe709*) variant and splice site c.1188+2dup variant. RNA analysis revealed that the c.1188+2dup variant caused exon 13 skipping, leading to a frameshift (p.Ala406Ser*6). In vitro transcription analysis using minigene system suggested that mRNA transcribed from mutant allele may be degraded by nonsense-mediated mRNA decay system. He exhibited diverse manifestations, including growth defects, muscle hypotonia, respiratory distress, arthrogryposis, insulin-dependent diabetes mellitus, sensorineural hearing loss, facial dysmorphism, and various brain abnormalities, including cerebral atrophy, hypomyelination, and cerebellar hypoplasia. Here, we review previous literatures and discuss the phenotypic diversity of SMPD4-related disorders., (© 2023. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature.)

Published

2024