Your search keyword '"Akira Ohtake"' showing total 8 results

1. A case of osteogenesis imperfecta diagnosed after subchondral insufficiency fracture of bilateral femoral heads.

Author

Nobuhiko Okada, Keisuke Watarai, Kota Ozawa, Tsuyoshi Miyajima, Akira Ohtake, and Yuho Kadono

Subjects

BONE density, FEMUR head, LEUKOCYTE count, INFORMED consent (Medical law), FEMUR, HIP fractures, VERTEBRAE injuries

Abstract

This article presents a case study of a 37-year-old woman who was diagnosed with osteogenesis imperfecta (OI) after experiencing subchondral insufficiency fractures (SIF) in both femoral heads. The patient had a history of multiple fractures, blue sclera, and mild bilateral sensorineural hearing loss, which led to the diagnosis of OI. Genetic testing revealed a mutation in the COL1A1 gene. After conservative therapy, the patient's symptoms improved, and after four years, both hips were pain-free with no evidence of osteoarthritis progression. The article highlights the association between OI and SIF and emphasizes that bilateral SIF is rare in cases of OI. [Extracted from the article]

Published

2024

2. Strategic validation of variants of uncertain significance in ECHS1 genetic testing.

Author

Yoshihito Kishita, Ayumu Sugiura, Takanori Onuki, Tomohiro Ebihara, Tetsuro Matsuhashi, Masaru Shimura, Takuya Fushimi, Noriko Ichino, Yoshie Nagatakidani, Hitomi Nishihata, Kazuhiro R. Nitta, Yukiko Yatsuka, Atsuko Imai- Okazaki, Yibo Wu, Hitoshi Osaka, Akira Ohtake, Kei Murayama, and Yasushi Okazaki

Abstract

Background Enoyl-CoA hydratase short-chain 1 (ECHS1) is an enzyme involved in the metabolism of branched chain amino acids and fatty acids. Mutations in the ECHS1 gene lead to mitochondrial short-chain enoyl-CoA hydratase 1 deficiency, resulting in the accumulation of intermediates of valine. This is one of the most common causative genes in mitochondrial diseases. While genetic analysis studies have diagnosed numerous cases with ECHS1 variants, the increasing number of variants of uncertain significance (VUS) in genetic diagnosis is a major problem. Methods Here, we constructed an assay system to verify VUS function for ECHS1 gene. A high-throughput assay using ECHS1 knockout cells was performed to index these phenotypes by expressing cDNAs containing VUS. In parallel with the VUS validation system, a genetic analysis of samples from patients with mitochondrial disease was performed. The effect on gene expression in cases was verified by RNA-seq and proteome analysis. Results The functional validation of VUS identified novel variants causing loss of ECHS1 function. The VUS validation system also revealed the effect of the VUS in the compound heterozygous state and provided a new methodology for variant interpretation. Moreover, we performed multiomics analysis and identified a synonymous substitution p.P163= that results in splicing abnormality. The multiomics analysis complemented the diagnosis of some cases that could not be diagnosed by the VUS validation system. Conclusions In summary, this study uncovered new ECHS1 cases based on VUS validation and omics analysis; these analyses are applicable to the functional evaluation of other genes associated with mitochondrial disease. [ABSTRACT FROM AUTHOR]

Published

2023

3. Neonatal-onset mitochondrial disease: clinical features, molecular diagnosis and prognosis.

Author

Tomohiro Ebihara, Taro Nagatomo, Yohei Sugiyama, Tomoko Tsuruoka, Yoshiteru Osone, Masaru Shimura, Makiko Tajika, Tetsuro Matsuhashi, Keiko Ichimoto, Ayako Matsunaga, Nana Akiyama, Minako Ogawa-Tominaga, Yukiko Yatsuka, Nitta, Kazuhiro R., Yoshihito Kishita, Takuya Fushimi, Atsuko Imai-Okazaki, Akira Ohtake, Yasushi Okazaki, and Kei Murayama

Subjects

DNA, GENETIC mutation, MITOCHONDRIAL pathology, PROGNOSIS, LEIGH disease

Abstract

Objective: Neonatal-onset mitochondrial disease has not been fully characterised owing to its heterogeneity. We analysed neonatal-onset mitochondrial disease in Japan to clarify its clinical features, molecular diagnosis and prognosis.Design: Retrospective observational study from January 2004 to March 2020.Setting: Population based.Patients: Patients (281) with neonatal-onset mitochondrial disease diagnosed by biochemical and genetic approaches.Interventions: None.Main Outcome Measures: Disease types, initial symptoms, biochemical findings, molecular diagnosis and prognosis.Results: Of the 281 patients, multisystem mitochondrial disease was found in 194, Leigh syndrome in 26, cardiomyopathy in 38 and hepatopathy in 23 patients. Of the 321 initial symptoms, 236 occurred within 2 days of birth. Using biochemical approaches, 182 patients were diagnosed by mitochondrial respiratory chain enzyme activity rate and 89 by oxygen consumption rate. The remaining 10 patients were diagnosed using a genetic approach. Genetic analysis revealed 69 patients had nuclear DNA variants in 36 genes, 11 of 15 patients had mitochondrial DNA variants in five genes and four patients had single large deletion. The Cox proportional hazards regression analysis showed the effects of Leigh syndrome (HR=0.15, 95% CI 0.04 to 0.63, p=0.010) and molecular diagnosis (HR=1.87, 95% CI 1.18 to 2.96, p=0.008) on survival.Conclusions: Neonatal-onset mitochondrial disease has a heterogenous aetiology. The number of diagnoses can be increased, and clarity regarding prognosis can be achieved by comprehensive biochemical and molecular analyses using appropriate tissue samples. [ABSTRACT FROM AUTHOR]

Published

2022

4. Advanced pathological study for definite diagnosis of mitochondrial cardiomyopathy.

Author

Atsuhito Takeda, Kei Murayama, Yasushi Okazaki, Atsuko Imai-Okazaki, Akira Ohtake, Takakuwa, Emi, Hirokuni Yamazawa, Gaku Izumi, Jiro Abe, Ayako Nagai, Kota Taniguchi, Daisuke Sasaki, Takao Tsujioka, and Basgen, John M.

Subjects

DIAGNOSIS, MITOCHONDRIAL DNA abnormalities, MITOCHONDRIA, CARDIOMYOPATHIES, MITOCHONDRIA formation, NADH dehydrogenase

Published

2021

5. Mutations in COA7 cause spinocerebellar ataxia with axonal neuropathy.

Author

Yujiro Higuchi, Ryuta Okunushi, Taichi Hara, Akihiro Hashiguchi, Junhui Yuan, Akiko Yoshimura, Kei Murayama, Akira Ohtake, Masahiro Ando, Yu Hiramatsu, Satoshi Ishihara, Hajime Tanabe, Yuji Okamoto, Eiji Matsuura, Takehiro Ueda, Tatsushi Toda, Sumimasa Yamashita, Kenichiro Yamada, Takashi Koide, and Hiroaki Yaguchi

Subjects

SPINOCEREBELLAR ataxia, DNA mutational analysis, CYTOCHROME oxidase, PHOSPHORYLATION, MITOCHONDRIAL physiology, GENETICS, PERIPHERAL neuropathy, CEREBELLUM, CHARCOT-Marie-Tooth disease, CREATINE kinase, GENES, IMMUNOHISTOCHEMISTRY, MUSCLE diseases, GENETIC mutation, NEUROGLIA, OXIDOREDUCTASES, MITOCHONDRIAL myopathy

Abstract

Several genes related to mitochondrial functions have been identified as causative genes of neuropathy or ataxia. Cytochrome c oxidase assembly factor 7 (COA7) may have a role in assembling mitochondrial respiratory chain complexes that function in oxidative phosphorylation. Here we identified four unrelated patients with recessive mutations in COA7 among a Japanese case series of 1396 patients with Charcot-Marie-Tooth disease (CMT) or other inherited peripheral neuropathies, including complex forms of CMT. We also found that all four patients had characteristic neurological features of peripheral neuropathy and ataxia with cerebellar atrophy, and some patients showed leukoencephalopathy or spinal cord atrophy on MRI scans. Validated mutations were located at highly conserved residues among different species and segregated with the disease in each family. Nerve conduction studies showed axonal sensorimotor neuropathy. Sural nerve biopsies showed chronic axonal degeneration with a marked loss of large and medium myelinated fibres. An immunohistochemical assay with an anti-COA7 antibody in the sural nerve from the control patient showed the positive expression of COA7 in the cytoplasm of Schwann cells. We also observed mildly elevated serum creatine kinase levels in all patients and the presence of a few ragged-red fibres and some cytochrome c oxidase-negative fibres in a muscle biopsy obtained from one patient, which was suggestive of subclinical mitochondrial myopathy. Mitochondrial respiratory chain enzyme assay in skin fibroblasts from the three patients showed a definitive decrease in complex I or complex IV. Immunocytochemical analysis of subcellular localization in HeLa cells indicated that mutant COA7 proteins as well as wild-type COA7 were localized in mitochondria, which suggests that mutant COA7 does not affect the mitochondrial recruitment and may affect the stability or localization of COA7 interaction partners in the mitochondria. In addition, Drosophila COA7 (dCOA7) knockdown models showed rough eye phenotype, reduced lifespan, impaired locomotive ability and shortened synaptic branches of motor neurons. Our results suggest that loss-of-function COA7 mutation is responsible for the phenotype of the presented patients, and this new entity of disease would be referred to as spinocerebellar ataxia with axonal neuropathy type 3. [ABSTRACT FROM AUTHOR]

Published

2018

6. The ratio of glycated albumin to hemoglobin A1c measured in IFCC units accurately represents the glycation gap.

Author

Junya Akatsuka, Mie Mochizuki, Ikuma Musha, Akira Ohtake, Kisho Kobayashi, Toru Kikuchi, Nobuyuki Kikuchi, Tomoyuki Kawamura, Tatsuhiko Urakami, Shigetaka Sugihara, Tadao Hoshino, and Shin Amemiya

Published

2015

7. De novo mutations in the mitochondrial ND3 gene as a cause of infantile mitochondrial encephalopathy and complex I deficiency.

Author

Robert McFarland, Denise M. Kirby, Kerry J. Fowler, Akira Ohtake, Michael T. Ryan, David J. Amor, Janice M. Fletcher, Joanne W. Dixon, Felicity A. Collins, Douglass M. Turnbull, and Robert W. Taylor

Published

2004

8. Low mutant load of mitochondrial DNA G13513A mutation can cause Leigh's disease.

Author

Denise M. Kirby, Avihu Boneh, C. W. Chow, Akira Ohtake, Michael T. Ryan, and Dominic Thyagarajan

Published

2003