Tomokazu Takeuchi

CYP4V2 Mutations in Two Japanese Patients with Bietti’s Crystalline Dystrophy

Bietti’s crystalline dystrophy (BCD) is an autosomal-recessive retinal dystrophy characterized by numerous glistening intraretinal dots scattered over the fundus, particularly in the posterior pole. The purpose of this study was to report mutations in the CYP4V2 gene (encoding a ubiquitously-expressed 525-amino acid sequence belonging to the CYP450 family) and to investigate the impact of the mutation on pre-mRNA splicing. DNA and RNA analyses were conducted using blood samples from two unrelated Japanese patients with BCD (a 46-year-old female and a 52-year-old male). In the female patient, a homozygous deletion/insertion mutation (g.IVS6–8_–1delc.802_810del/insGC) including the 3´-acceptor splice site was identified. Reverse transcription-PCR analysis revealed that the complete length of exon 7 (186 bp), is skipped, resulting in the in-frame deletion mutation (p.V268_E329del). Conversely, the male patient was a compound heterozygote for the deletion/insertion and novel nonsense (p.W340X) mutations. Clinically, the female patient had decreased visual acuity, constriction of visual fields, severely reduced amplitudes in both rod and cone electroretinograms (ERGs). Despite being 6 years older, the male patient presented with milder clinical manifestations having good visual acuity and substantial amplitudes in both rod and cone ERGs. Because the CYP4V2 truncated protein with the p.W340X mutation lacks 186 amino acids at the C-terminus, if expressed, it retains 62 amino acids encoded in exon 7, which are important for enzymatic activity. In the male patient, expression of both mutant alleles may compensate for the malfunction of each mutated protein and could explain why a milder form of BCD results from compound heterozygosity.

Autosomal dominant familial exudative vitreoretinopathy in two Japanese families with FZD4mutations (H69Y and C181R)

Background:Familial exudative vitreoretinopathy (FEVR) is a hereditary disorder characterized by impaired vascularization of parts of the peripheral retina. Autosomal dominant FEVR (adFEVR), a major form of FEVR and assigned to chromosome 11q13–23 (EVR1) locus, is caused by deletion mutations in the C-terminal region of the frizzled-4 (FZD4) gene. This paper describes the clinical phenotype of adFEVR in two Japanese families with two different mutations in the FZD4gene. Methods:We encountered three Japanese patients with adFEVR and studied them using mutation analysis of the FZD4gene with PCR, sequencing, and a restriction enzyme digestion. Results:Two previously unreported missense mutations, p.H69Y and p.C181R, were identified in the N-terminal extracellular region of two of the patients. This region was highly conserved among other vertebrate species and FZD family members, unlike the C-terminal region. Co-segregation analysis revealed that all affected individuals carried one of these mutations, while unaffected individuals did not. The mutations were not detected in normal individuals (n = 120). The affected individuals had mild to severe retinal abnormalities. Conclusions: FZD4mutations in either the N- or C-terminal region underlie adFEVR, which indicates that FZD4plays an important role in retinal angiogenesis. Analysis of FZD4mutations in families with adFEVR is useful for genetic counseling and for early diagnosis.

Compound heterozygous CNGA3 mutations (R436W, L633P) in a Japanese patient with congenital achromatopsia

Congenital achromatopsia is a stationary retinal disorder with autosomal recessive inheritance that is characterized by loss of color discrimination, low visual acuity, photophobia, and nystagmus. This disorder has been shown to be associated with CNGA3, CNGB3, and GNAT2 mutations, and the frequency of mutations in the CNGA3 gene (encoding alpha subunit of the cone-specific cGMP-gated cation channel) was 23-33% in European populations. The aim of this study was to test the hypothesis that CNGA3 mutations are also responsible for congenital achromatopsia in Japanese patients. DNA from venous blood samples from a total of 14 patients from 13 Japanese pedigrees was prepared. Mutation screening of the CNGA3 gene was performed using direct sequencing and PCR-single-strand conformation polymorphism analysis. Compound heterozygous missense mutations (p.R436W and p.L633P, the latter of which was novel) were identified in one patient only, a 22-year-old female. Neither of these two mutations was found in 150 Japanese control individuals. The patients parents and sister carried one of these mutations each but were not affected. No mutations in the CNGB3 or GNAT2 genes were identified in the patient. Clinically, best-corrected visual acuity was 0.1 in both eyes. No specific findings were obtained in funduscopy. Optical coherence topography revealed a normal foveal thickness but a 20% decrease in parafoveal thickness. Ganzfeld full-field electroretinograms (ERGs) showed normal responses in rod and mixed rod-plus-cone ERGs but no response in cone or 30-Hz flicker ERGs. Spectral sensitivity on a white background revealed a curve with only one peak at around 500 nm, which fits the absorption spectrum of human rhodopsin. L633, conserved among vertebrate orthologs of human CNGA3, is a hydrophobic residue forming part of the carboxy-terminal leucine zipper (CLZ) domain, which is functionally important in the mediation of intracellular interactions. To our knowledge, this is the first report of a Japanese complete achromat with CNGA3 mutations, and of any patient with a missense mutation within the CLZ domain. The outcome suggests low frequency (7%, 1/14) of CNGA3 mutations in Japanese patients.

A Novel Haplotype with the R345W Mutation in the EFEMP1 Gene Associated with Autosomal Dominant Drusen in a Japanese Family

PURPOSE To describe ophthalmic and molecular genetic findings in a family of Japanese patients with Malattia leventinese (ML)/Doyne honeycomb retinal dystrophy (DHRD), also known as autosomal dominant drusen. METHODS Four patients with ML/DHRD, including a 42-year-old female proband, were ascertained. The proband underwent complete ophthalmic examinations, including fundus and electrodiagnostic investigations, and Humphrey visual field (VF) perimetry. Mutation screening of the EFEMP1 gene and haplotype analysis were performed in the family, an Indian ML/DHRD family, and a branch of 1 of 39 ML/DHRD families in the United States, in which all affected patients shared a common haplotype. RESULTS A heterozygous missense mutation (p.R345W) was identified in all four Japanese patients and in affected patients of the other two families. This mutation was the only mutation that has been exclusively found in the gene. The disease haplotype in the Japanese family was different from those of the other two families. Clinically, central retinas were prominently affected in the proband and her mother, and subsequently the proband developed subfoveal choroidal neovascularization in the left eye, whereas her younger sister with the mutation, who was asymptomatic, exhibited only fine macular drusen. Long-term follow-up of Humphrey VF and multifocal-electroretinography (mfERG) in the proband also revealed progressive attenuation of macular function in the right eye. CONCLUSIONS This is the first report to describe a Japanese family with variable expressivity of ML/DHRD, in which a novel disease haplotype was identified. Humphrey VF and mfERG testing may be helpful in determining the long-term outcome of macular function.

Dominant optic atrophy caused by a novel OPA1 splice site mutation (IVS20+1G-->A) associated with intron retention.

Dominant optic atrophy (DOA) is the most common form of inherited primary optic neuropathy. The purpose of the current study was to report a novel OPA1 splice site mutation and investigate the impact of the mutation on pre-mRNA splicing in a female proband and her father diagnosed with DOA. We evaluated visual acuity, retinal fundi and kinetic visual fields. Color vision phenotypes were determined using the Farnsworth Panel D-15 and the Farnsworth-Munsell 100-hue tests. All 28 coding exons of the OPA1 gene were analyzed with polymerase chain reaction (PCR) amplification and direct sequencing. Total RNA extraction from white blood cells followed by reverse transcription-PCR (RT-PCR) was performed. We identified a novel heterozygous G to A mutation at position +1 of intron 20 (g.IVS20+1G→A) in both patients. RT-PCR analysis revealed that the first 25 bp from intron 20 plus exon 20 were spliced onto exon 21. No difference in expression of mutant and wild-type transcripts was found within the linear range of amplification. Clinically, both patients exhibited reduced visual acuities, pallor of optic discs, decreased sensitivities of central visual fields and blue-yellow color vision defects. Previously, only one mechanism (skipping of exon) of pre-mRNA splicing defects has been reported among OPA1 splice site mutations. Our study demonstrates that the mechanism of intron retention is a novel type of pre-mRNA splicing defects. The mutant transcript with a premature termination codon is likely to encode a truncated protein, due to a translational frameshift (V672fsX675), that lacks 289 amino acids of the C-terminal end. Therefore, it is suggested that haploinsufficiency underlies DOA in the patients. However, we could not exclude the possibility that the truncated protein has a dominant negative activity because the mutant transcript is insusceptible to nonsense-mediated mRNA decay.

Mutation analysis of BEST1 in Japanese patients with Best's vitelliform macular dystrophy

Purpose To describe the clinical and genetic features of Japanese patients with Bests vitelliform macular dystrophy (BVMD). Patients and methods This study examined 22 patients, including 16 probands from 16 families with BVMD. Comprehensive ophthalmic examinations were performed, including dilated funduscopy, full-field electroretinography (ERG) and electro-oculography (EOG). BEST1 mutation analysis was performed by Sanger sequencing. Results All 16 probands exhibited characteristic BVMD fundus appearances, abnormal EOG, and normal ERG responses with the exception of one diabetic retinopathy proband. Genetic analysis identified 12 BEST1 variants in 13 probands (81%). Of these, 10 variants (p.T2A, p.R25W, p.F80L, p.V81M, p.A195V, p.R218H, p.G222E, p.V242M, p.D304del and p.E306D) have been previously reported in BVMD, while two variants (p.S7N and p.P346H) were novel, putative disease-causing variants. Single BEST1 variants were found in 12 probands. The one proband with compound heterozygous variants (p.S7N and p.R218H) exhibited typical BVMD phenotypes (pseudohypopyon stage and vitelliruptive stage in the right and left eyes, respectively). Conclusions Twelve different variants, two of which (p.S7N and p.P346H) were novel, were identified in the 13 Japanese families with BVMD. Compound heterozygous variants were found in one proband exhibiting a typical BVMD phenotype. Our results suggest that BEST1 variants do play a large role in Japanese patients with BVMD.

Somatic instability of expanded CAG repeats of ATXN7 in Japanese patients with spinocerebellar ataxia type 7

PurposeSpinocerebellar ataxia type 7 (SCA7) is a disease characterized by progressive ataxia syndrome and retinal degeneration. SCA7 is caused by expansion of CAG repeats in the ataxin 7 gene. The purpose of this study was to describe the clinical and genetic features in a two-generation Japanese family with SCA7.MethodsThe female proband underwent systemic examinations that included neurological and ophthalmic examinations and magnetic resonance imaging (MRI) scans. We interviewed her affected mother about the clinical history at the bedside. Genomic DNA was purified from peripheral blood lymphocytes. The number of CAG repeats in the proband, and her affected mother was determined by a polymerase chain reaction-based assay that used the GeneScan analysis software.ResultsNeurological examinations showed limb ataxia, truncal ataxia, explosive speech, and hyperactive deep tendon reflexes. The MRI scans showed atrophy of the cerebellum and fundus of pons and tegmentum. Ophthalmologically, loss of visual acuity, macular degenerations, and central scotomas were observed in both eyes. Full-field electroretinography revealed reduced cone responses with preserved rod responses. The mother had hand-motion vision. Genetic analysis revealed that various expanded CAG repeat lengths (43–57) and the peak number of repeats (47 and 48) were the same in both patients.ConclusionsThe proband exhibited a typical phenotype of SCA7, which includes cone dystrophy and spinocerebellar ataxia. Genetic analysis demonstrated somatic instability of the CAG repeats in the blood lymphocytes and suggested that there was no genetic anticipation through the maternal transmission.

Dominant optic atrophy in a Japanese family with OPA1 frameshift mutation (V942fsX966)

Purpose The authors report the ophthalmic characteristics of a male proband in a Japanese family with autosomal dominant optic atrophy (DOA) harboring a frameshift mutation in the OPA1 gene. Methods Conventional ophthalmologic examinations including static automated perimetry were performed, as well as assessment of the three-generation family history. The peripapillary retinal nerve fiber layer (RNFL) was evaluated using scanning laser polarimetry. Mutation screening of the OPA1 gene was performed with polymerase chain reaction amplification and direct sequencing. Results A frameshift mutation (p.V942fsX966) was identified in the proband and his mother. In comparison with the adolescent onset of visual loss in the proband and his maternal grandfather, the mother presented with only subtle temporal disc pallor and has never been aware of any visual disturbances. Symmetric thinned peripapillary RNFL was detected in the proband, whose visual field abnormalities were limited to central scotomas and were without mean deviation worsening between 11 to 17 years of age in both eyes. The probands logMAR visual acuity (0.52 to 0.7) has remained almost unchanged for more than 10 years since initial evaluation at age 10. Conclusions The OPA1 mutation may be correlated with slow progression of DOA, and with phenotypic variations within the family. Further study is necessary to determine whether symmetric thinned peripapillary RNFL represents a feature of DOA. (Eur J Ophthalmol 2007; 17: 253–8)