Haitian Nan scite author profile

Recently, the expansion of an intronic AAGGG repeat in the replication factor C subunit 1 (RFC1) gene was reported to cause cerebellar ataxia, neuropathy, vestibular areflexia syndrome (CANVAS). In Europeans, the expansion accounted for 22% of sporadic patients with late-onset ataxia. We genotyped 37 Japanese patients comprising 25 familial (autosomal recessive or undecided transmission) and 12 sporadic ones with late-onset ataxia. We found intronic repeat expansions in RFC1 in three (12%) of the familial patients and one (8.5%) of the sporadic ones. Although our cohort study was small, the disease frequency in Japanese patients with CANVAS might be lower than that in European ones. In addition, we found biallelic ACAGG repeat expansion in one patient, indicating ACAGG repeat expansion might cause CANVAS. Clinically, we found one patient with sleep apnea syndrome, which has not been reported previously.Thus, this study might expand the clinical and genetic spectrum of CANVAS.

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VPS13D‐related disorders presenting as a pure and complicated form of hereditary spastic paraplegia

Koh

Ishiura

Shimazaki

et al. 2019

Molec Gen & Gen Med

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Background Alterations of vacuolar protein sorting‐associated protein 13 (VPS13) family members including VPS13A, VPS13B, and VPS13C lead to chorea acanthocytosis, Cohen syndrome, and parkinsonism, respectively. Recently, VPS13D mutations were identified as a cause of VPS13D‐related movement disorders, which show several phenotypes including chorea, dystonia, spastic ataxia, and spastic paraplegia. Methods We applied whole‐exome analysis for a patient with a complicated form of hereditary spastic paraplegia (HSP) and her unaffected parents. Then, we screened the candidate genes in 664 Japanese families with HSP in Japan. Results We first found a compound heterozygote VPS13D mutation and a heterozygote ABHD4 variation in a sporadic patient with spastic paraplegia. Then, we found three patients with VPS13D mutations in two Japanese HSP families. The three patients with homozygous mutations (p.Thr1118Met/p.Thr1118Met and p.Thr2945Ala/p.Thr2945Ala) in the VPS13D showed an adult onset pure form of HSP. Meanwhile, the patient with a compound heterozygous mutation (p.Ser405Arg/p.Arg3141Ter) in the VPS13D showed a childhood onset complicated form of HSP associated with cerebellar ataxia, cervical dystonia, cataracts, and chorioretinal dystrophy. Conclusion In the present study, we found four patients in three Japanese families with novel VPS13D mutations, which may broaden the clinical and genetic findings for VPS13D‐related disorders.

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Biallelic variants in HPDL cause pure and complicated hereditary spastic paraplegia

Wiessner

Maroofian

et al. 2021

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Human 4-hydroxyphenylpyruvate dioxygenase-like (HPDL) is a putative iron-containing non-heme oxygenase of unknown specificity and biological significance. We report 25 families containing 34 individuals with neurological disease associated with biallelic HPDL variants. Phenotypes ranged from juvenile-onset pure hereditary spastic paraplegia to infantile-onset spasticity and global developmental delays, sometimes complicated by episodes of neurological and respiratory decompensation. Variants included bona fide pathogenic truncating changes, although most were missense substitutions. Functionality of variants could not be determined directly as the enzymatic specificity of HPDL is unknown; however, when HPDL missense substitutions were introduced into 4-hydroxyphenylpyruvate dioxygenase (HPPD, an HPDL orthologue), they impaired the ability of HPPD to convert 4-hydroxyphenylpyruvate into homogentisate. Moreover, three additional sets of experiments provided evidence for a role of HPDL in the nervous system and further supported its link to neurological disease: (i) HPDL was expressed in the nervous system and expression increased during neural differentiation; (ii) knockdown of zebrafish hpdl led to abnormal motor behaviour, replicating aspects of the human disease; and (iii) HPDL localized to mitochondria, consistent with mitochondrial disease that is often associated with neurological manifestations. Our findings suggest that biallelic HPDL variants cause a syndrome varying from juvenile-onset pure hereditary spastic paraplegia to infantile-onset spastic tetraplegia associated with global developmental delays.

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UBAP1 mutations cause juvenile-onset hereditary spastic paraplegias (SPG80) and impair UBAP1 targeting to endosomes

et al. 2019

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Novel GARS mutation presenting as autosomal dominant intermediate Charcot‐Marie‐Tooth disease

Nan

Takaki

Hata

et al. 2018

J Peripheral Nervous Sys

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We report the first family with a glycyl‐tRNA synthetase (GARS) mutation with autosomal dominant intermediate Charcot‐Marie‐Tooth disease (DI‐CMT). The proband and the proband's father presented with gait disturbance and hand weakness. Both patients displayed moderately decreased conduction velocities (MNCV) (ranging from 29.2 to 37.8 m/s). A sural nerve biopsy of the father revealed evidence of both axonal loss and demyelination. On exome sequencing, in both the proband and his father, we identified a novel missense mutation (c.643G > C, p.Asp215His) in the GARS gene in a heterozygous state, which is considered to be pathogenic for this DI‐CMT family. The present study broadens current knowledge about intermediate CMT and the phenotypic spectrum of defects associated with GARS.

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Haitian Nan

RFC1 repeat expansion in Japanese patients with late-onset cerebellar ataxia

VPS13D‐related disorders presenting as a pure and complicated form of hereditary spastic paraplegia

Biallelic variants in HPDL cause pure and complicated hereditary spastic paraplegia

UBAP1 mutations cause juvenile-onset hereditary spastic paraplegias (SPG80) and impair UBAP1 targeting to endosomes

Novel GARS mutation presenting as autosomal dominant intermediate Charcot‐Marie‐Tooth disease

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