Late-Onset Central Areolar Choroidal Dystrophy Caused by a Heterozygous Frame-Shift Mutation Affecting Codon 307 of the Peripherin/RDS Gene

Mutations in the peripherin/RDS gene have been identified in families with various retinopathies including those affecting primarily the macula and those restricted to the retinal periphery. Here, we describe the clinical findings of two sisters with late-onset central areolar choroidal dystrophy (CACD). The two siblings underwent genetic testing and were found to be carriers of a heterozygous frame-shift mutation 920delT affecting codon 307 of the peripherin/RDS gene and resulting in a truncated, likely functionless, protein with an altered C-terminus (Leu307fsX83). The identical mutation has previously been reported to cause slowly progressive autosomal dominant retinitis pigmentosa. In our two patients, the Leu307fsX83 mutation accounts for an unusually mild form of retinal degeneration.     

Peripherin/RDS gene mutation (Pro210Leu) and polymorphisms in Japanese patients with retinal dystrophies

PURPOSE: To determine the frequency of peripherin/RDS (retinal degeneration slow) gene mutations in Japanese patients with retinal dystrophies. METHODS: We analyzed the peripherin/RDS gene in 54 unrelated Japanese patients with retinal dystrophies. Genomic DNA was amplified by polymerase chain reaction (PCR) and the PCR products were sequenced. We also examined 100 healthy subjects, seeking mutations or variations of the peripherin/RDS gene. RESULTS: Of the 54 Japanese patients, one with retinitis pigmentosa had a heterozygous C to T change at the second nucleotide at codon 210 of exon 2 (CCT to CTT/Pro210Leu) of the peripherin/RDS gene. None of the 100 individuals with normal fundi had the Pro210Leu mutation of the peripherin/RDS gene. Three variants of the peripherin/RDS gene (GTC to GTT/Val106Val, Glu304Gln, and Gly338Asp) were also found. The first variation (GTC to GTT/Val106Val) was silent. Two concurrent missense variations (Glu304Gln and Gly338Asp) were seen in 25.9% of the affected patients and in 29% of the healthy individuals. CONCLUSION: A novel mutation (Pro210Leu) of the peripherin/RDS gene has been found in one Japanese patient with retinitis pigmentosa. The alterations of Val106Val, Glu304Gln, and Gly338Asp may be polymorphic variants in the Japanese population.     

视网膜色素变性中视紫红质与Peripherin／RDS基因的突变筛查

目的:迄今尚未见在国人中经序列分析确定该基因突变的报道。了解国人遗传性视网膜色素变性人群中视紫红质和peripherin/RDS基因的突变情况。方法:对83例遗传性视网膜色素变性先证者视紫红质基因全部编码区和peripherin/RDS部分编码区进行PCR扩增,用异源双链-SSCP法对扩增产物进行分析,寻找有差异电泳带纹的突变样本,序列分析确定突变。结果:83例中3例有视紫红质基因突变(Va1104Phe、Lys311Glu、Pro347Leu),其中两个新突变分别见于散发病例(Va1104Phe,杂合性)和常染色体隐性遗传视网膜色素变性家系(Lys311Glu,纯合性)。在peripherin/RDS基因中未发现突变。结论:在国人视网膜色素变性患者中视紫红质基因突变为常见致病原因。眼科学报1998;14:210～214     

Extensive intrafamilial and interfamilial phenotypic variation among patients with autosomal dominant retinal dystrophy and mutations in the human RDS/peripherin gene.

Clinical phenotypes of patients with mutations in the human RDS/peripherin gene are described. A 67-year-old woman, who carried a 1 base pair deletion in codon 307, presented with typical late onset autosomal dominant retinitis pigmentosa (RP). In another autosomal dominant pedigree, a nonsense mutation at codon 46 caused 'inverse' retinitis pigmentosa-like fundus changes associated with progressive cone-rod degeneration in a 58-year-old man, whereas his 40-year-old son presented with yellow deposits in the retinal pigment epithelial layer resembling a pattern dystrophy, and with moderately reduced rod and cone function, as determined by two colour dark adapted threshold perimetry and electroretinography. It is suggested that both clinical pictures within this latter family may represent manifestations of fundus flavimaculatus. The clinical data of the three patients provide further evidence for the remarkable variety of disease expression within and between families with mutations in the RDS/peripherin gene. Currently, the most comprehensive statement could be that RDS/peripherin mutations are associated either with typical RP or with various forms of flecked retinal disease.     

A novel complex mutation event in the peripherin/RDS gene in a family with retinal pattern dystrophy

PURPOSE: To report a complex mutation in the peripherin/RDS gene found in a family in whom retinal pattern dystrophy is segregating as an autosomal dominant trait. METHODS: Clinical data were collected from family members of a large Swiss family affected by autosomal dominant retinal pattern dystrophy. Single strand conformation polymorphism (SSCP) analysis of the candidate gene peripherin/RDS and subsequent sequencing of the first exon were performed. RESULTS: Pattern dystrophy of the retina was suspected in 18 family members aged 30 years or older. Assuming a homogeneous phenotype, the candidate locus peripherin/RDS was investigated. SSCP analysis of the first exon of the peripherin/RDS gene showed an aberrant pattern in 18 affected individuals. Direct sequencing of polymerase chain reaction products detected a complex mutation, del265-268GCCA ins AGGGCC, leading to a stop codon at amino acid position 99. CONCLUSION: To our knowledge, we report the first complex mutation in the peripherin/RDS gene as the cause of a mild macular phenotype, supporting the importance of molecular diagnosis in genetic counseling.     

A novel RDS/peripherin gene mutation associated with diverse macular phenotypes

Pattern dystrophy is a heterogeneous group of retinal dystrophies of which butterfly-shaped pattern dystrophy (BPD) and adult-onset foveomacular dystrophy (AOFMD) are the two most common forms. BPD is characterized by a butterfly-shaped, irregular, depigmented lesion at the level of the retinal pigment epithelium. In contrast, AOFMD is characterized by the presence of slightly elevated, symmetric, solitary, round to oval, yellow lesions at the level of the retinal pigment epithelium. We identified three independent kindreds with pattern dystrophy, one with four patients affected with BPD and the other two with 14 affected patients with AOFMD. We performed complete ophthalmic examination, fluorescein angiography, linkage mapping, and mutational screening in the RDS/peripherin gene in the affected patients. Patients affected with BPD had a best-corrected vision of 20/20 to 20/25, whereas vision in the eyes of patients with AOFMD ranged from 20/20 to 20/400. In all three kindreds, sequence analysis identified an A-to-G change at nucleotide position 422 of the RDS/peripherin gene, predicting a novel Tyr-141-Cys substitution. A haplotype analysis revealed that these three kindreds shared an identical disease haplotype at the RDS/peripherin locus, indicating that the mutation reflects a founder effect. The sequence change that segregated with the disease phenotype was not observed in 200 control chromosomes. Our results identified a novel mutation in the RDS/ peripherin gene that can cause diverse macular phenotypes. Genetic and clinical investigation of pattern dystrophy may provide useful diagnostic tools and new treatment strategies for this disorder.     

Characterization of antibody against the N-terminus of RDS/peripherin

Mutations in the gene encoding RDS/peripherin cause a variety of retinal disorders. Attempts to model such disorders in vitro and in vivo have been hampered by the paucity of available immunological reagents. Moreover, available antibodies have been generated from undefined or C-terminal epitopes and therefore may not suitable for detecting all known RDS/peripherin mutants. We consequently generated affinity-purified rabbit antibody against a 14 amino acid peptide corresponding to the highly conserved N-terminus of human RDS/peripherin. This new antibody, N-RDS, recognizes RDS/peripherin in the retina of man, macaque, and rat. N-RDS may prove useful in studying RDS/peripherin mutants, particularly those with abnormal C-terminal domains.     

Phenotypic intrafamilial variability associated with S212G mutation in the RDS/peripherin gene

PURPOSE: To describe an Italian family in which two separate phenotypes (retinitis pigmentosa and adult onset vitelliform macular dystrophy) are associated with an identical mutation (S212G) in the peripherin/RDS gene. This mutation has already been reported in patients with retinitis pigmentosa, but it has never been previously detected in association with adult onset vitelliform macular dystrophy. METHODS: A 38-year-old woman complained of bilateral mild metamorphopsias and on ophthalmologic examination she showed the clinical phenotype of adult onset vitelliform macular dystrophy. Her 62-year-old mother was clinically diagnosed with a retinitis pigmentosa, with a severe clinical course. RESULTS: In both patients, molecular genetic analysis revealed a 874A-->G transition in the exon 2 of the RDS gene leading to the amino acid change of S212G. CONCLUSIONS: Peripherin/RDS S212G mutation may have damaging effects on the formation and stability of the photoreceptors' disk structure and may be associated with different clinical phenotypes, even in the same family. Intrafamilial phenotypic variability has been reported for other RDS mutations; this supports the possible influence of modifier genes or environmental factors in the clinical expression of RDS gene variants. Moreover, it suggests that in patients with retinal degeneration and peripherin/RDS mutation, caution should be taken both in using molecular genetic results to predict the clinical course of the disease and in offering genetic counseling.     

Central areolar choroidal dystrophy associated with dominantly inherited drusen.

AIM: To describe the clinical and genetic aspects of a retinal dystrophy that combines central areolar choroidal dystrophy (CACD) and autosomal dominantly inherited drusen. METHODS: The members of three unrelated families who demonstrated the rare combination of CACD and dominant drusen were clinically and angiographically investigated. In addition, DNA samples from the members of these families were screened for the Arg142Trp mutation in the peripherin/retinal degeneration slow (RDS) gene. RESULTS: The severity of the CACD/dominant drusen maculopathy was age related and the expression of the phenotype varied. All affected individuals carried the Arg142Trp mutation in the peripherin/RDS gene. The clinical spectrum ranged from CACD without noticeable drusen in four individuals to the fully expressed phenotype of CACD with drusen in 14 individuals. CONCLUSION: CACD macular dystrophy is associated with dominant drusen in most individuals carrying the Arg142Trp mutation in the peripherin/RDS gene in the three families described. There are no individuals with dominant drusen in the absence of the Arg142Trp mutation, suggesting that the Arg142Trp mutation is one of the factors predisposing to drusen development.     

Phenotypic expression of autosomal dominant retinitis pigmentosa in a Swedish family expressing a Phe-211-Leu variant of peripherin/RDS

PURPOSE : To characterize the clinical phenotype, with emphasis on electrophysiology, of members of a Swedish family with autosomal dominant retinitis pigmentosa due to a novel mutation, F211L, in the peripherin/RDS gene. METHODS : Nine patients with autosomal dominant retinitis pigmentosa and two healthy family members underwent a full clinical evaluation including kinetic visual field testing, measurement of dark adaptation threshold, and full-field electroretinography. Blood samples were collected and DNA analysis was performed using denaturing gradient gel electrophoresis (DGGE). RESULTS : The grandfather, six of seven siblings from the middle generation, and two young boys carried the mutation F211L in the peripherin/RDS gene. The mutation segregated with the clinical presentation of disease. Fundus examination revealed mainly macular atrophy. All assessed parameters of retinal function (visual acuity, dark adaptation threshold, visual fields, and full-field electroretinograms) demonstrated a successive reduction with increasing age. Full-field electroretinograms showed a diminished rod response in all affected individuals and a reduction of the cone b-wave amplitudes with increasing age, indicating retinitis pigmentosa. In the affected family members, the disease seems to progress at a similar rate with increasing age. CONCLUSIONS : The peripherin/RDS gene mutation F211L is associated with a clinical phenotype and includes early loss of rod function and successive reduction of cone function with increasing age, but impressively well-preserved visual acuity and visual fields in young and middle-aged patients and moderately reduced vision in the old patient. Compared to previously described phenotypes segregating with mutations in the peripherin/RDS gene, the present family demonstrates a more benign clinical phenotype, which is concordant within the family.     

The spectrum of retinal dystrophies caused by mutations in the peripherin/RDS gene

Peripherin/rds is an integral membrane glycoprotein, mainly located in the rod and cone outer segments. The relevance of this protein to photoreceptor outer segment morphology was first demonstrated in retinal degeneration slow (rds) mice. Thus far, over 90 human peripherin/RDS gene mutations have been identified. These mutations have been associated with a variety of retinal dystrophies, in which there is a remarkable inter- and intrafamilial variation of the retinal phenotype. In this paper, we discuss the characteristics of the peripherin/RDS gene and its protein product. An overview is presented of the broad spectrum of clinical phenotypes caused by human peripherin/RDS gene mutations, ranging from various macular dystrophies to widespread forms of retinal dystrophy such as retinitis pigmentosa. Finally, we review the proposed genotype-phenotype correlation and the pathophysiologic mechanisms underlying this group of retinal dystrophies.     

Autosomal dominant pattern dystrophy: identification of a novel splice site mutation in the peripherin/RDS gene

PURPOSE: To describe the clinical features of and identify the mutation responsible for an autosomal dominant pattern dystrophy occurring in a three-generation family. METHODS: Five affected family members underwent clinical examination and additional testing including intravenous fluorescein angiography where indicated. Mutation screening of the peripherin/RDS gene was performed. RESULTS: Visual acuity ranged from 20/20 to counting fingers. All patients who reported vision loss noted the onset after the age of 40 years. Predominantly perifoveal, discrete, retinal pigment epithelial changes were present in all patients. Two patients had extensive peripheral yellowish flecks, and one had an atrophic macular scar. Mutation screening of the complete peripherin/RDS coding sequence and exon/intron boundaries revealed a novel splice site mutation. CONCLUSION: A three-generation family with an autosomal dominant pattern dystrophy arising from a previously unreported splice site mutation in the RDS gene is described.     

A Swedish family with a mutation in the peripherin/RDS gene (Arg-172-Trp) associated with a progressive retinal degeneration

Purpose: To clinically characterize a Swedish family with autosomal dominant retinitis pigmentosa due to a mutation, Arg-172-Trp, in the peripherin/RDS gene. Methods: Full clinical evaluation including kinetic visual field testing, measurement of dark-adaptation threshold, and full-field electroretinography in seven patients with autosomal dominant retinitis pigmentosa and three healthy family members. Denaturing gradient gel electrophoresis (DGGE) was used for mutation screening in seven patients and six healthy members of the family. Results: Three of four siblings from the middle generation and four of the younger generation were heterozygous for the peripherin/RDS Arg-172-Trp mutation. The mutation segregated with the disease. Visual acuity decreased progressively with age and visual fields were moderately constricted in young patients, while central scotoma and constriction of the fields were detected in the family members above 50 years of age. The results from full-field electrography were comparable with a widespread retinal degeneration. Conclusions: Earlier, the peripherin/RDS Arg-172-Trp mutation was associated primarily with a macular degeneration phenotype. One previous study indicated that this mutation also can give rise to a degeneration of the more peripheral parts of the retina. In the present study, a widespread retinal degeneration is seen in the patients above 50 years of age, carrying the Arg-172-Trp mutation.     

Splice site mutation in the peripherin/RDS gene associated with pattern dystrophy of the retina.

PURPOSE: To report the phenotype and genotype of a splice site mutation at intron 2 of the peripherin/RDS gene in four half-siblings with pattern dystrophy of the retina. DESIGN: Experimental study. METHODS: In four siblings with a common mother and three separate fathers, complete ophthalmic examination, pedigree, electrophysiologic testing, and fluorescein angiography studies were obtained. Genomic DNA from serum lymphocytes was isolated and used as a template for primers specific for the cone homeobox gene (CRX), rhodopsin (RHO), and peripherin/RDS genes to conduct single stranded conformational analysis and cycle sequencing. RESULTS: The pedigree of four affected siblings suggested probable autosomal dominance transmission of pattern dystrophy. In the four siblings, best corrected visual acuity ranged from 20/20 to 20/80 by Snellen chart. Clinical findings included discrete, localized degenerative changes of the macular retinal pigment epithelium in all patients, with subclassification foveal. One patient exhibited pigment clumping within the atrophic areas. Another patient exhibited yellow flecks diffusely in the macula. Fluorescein angiographic findings included central hypofluorescence with a surrounding rim of hyperfluorescence that corresponded to the observed fundus lesions and window defects. There was a range of electroretinography (ERG) and electrooculography (EOG) findings. One patient demonstrated both cone and rod dysfunction on ERG testing and another demonstrated decreased rod function. EOG testing was normal in two patients and mildly diminished in one patient. DNA sequencing identified a point mutation in intron 2 of the peripherin/RDS gene, consisting of an A to T change at 1068+3, present in all four affected patients. CONCLUSIONS : Four siblings with pattern dystrophy of the retina presented a splice site mutation in the peripherin/RDS gene.     

Atypical presentation of pattern dystrophy in two families with peripherin/RDS mutations

PURPOSE: To describe the atypical clinical presentations of pattern dystrophy (PD) in two unrelated families with novel peripherin/RDS mutations. DESIGN: Observational case reports and family genetic study with review of peripherin/RDS mutations. PARTICIPANTS: Affected and unaffected members of two families with PD. METHODS: The probands of two families, as well as other family members, underwent an ophthalmologic assessment including slit-lamp biomicroscopy, applanation tonometry, and a dilated fundus examination. Goldmann visual fields and fluorescein angiography were performed, wherever appropriate. Blood samples were obtained from affected and selected unaffected members of the families for DNA analysis. RESULTS: The proband of family 1 had an acute onset of decreased vision and a yellowish lesion in both maculae that appeared inflammatory. However, resolution of the acute lesion ultimately resulted in fundus changes more typical for PD. Moreover, the proband's sister showed more classic-appearing PD lesions. Screening of the peripherin/RDS gene for sequence variations showed a 2-bp deletion, resulting in a translational frameshift at codon 290 in affected members of the family. The proband's father, who showed this sequence variation, did not have a macular lesion. The proband of family 2 was asymptomatic and showed a fundus phenotype similar to fundus flavimaculatus. The patient had normal visual acuity and did not demonstrate a "dark choroid" on fluorescein angiography. Molecular screening showed a Gln331stop variation in the peripherin/RDS gene. CONCLUSIONS: We describe two novel mutations in the peripherin/RDS gene in two unrelated families with PD. Clinicians should recognize the atypical features that may occur in patients with PD. A suspected diagnosis of PD may be confirmed by the identification of a mutation in the peripherin/RDS gene. In isolated family members with PD, a mutation in this gene may occur even in the absence of a clinically discernible macular lesion.     

Autosomal dominant retinitis pigmentosa in Norway: a 20-year clinical follow-up study with molecular genetic analysis. Two novel rhodopsin mutations: 1003delG and I179F

PURPOSE: To examine the clinical picture and molecular genetics of 12 Norwegian families with autosomal dominant retinitis pigmentosa (adRP) in order to achieve a genotype-phenotype correlation. METHODS: In addition to a clinical ophthalmological examination, fundus photography, dark adaptometry and electroretinography were performed. Four genes were analysed: rhodopsin (RHO); retinitis pigmentosa 1 (RP1); retinal degeneration slow/peripherin (RDS/peripherin), and inosine monophosphate dehydrogenase 1 (IMPDH1). Seven of the families had been examined about 20 years previously. A total of 63 patients or first-degree relatives (aged 18-79 years) were examined. RESULTS: Mutations were found only in the RHO gene. Seven families were given a diagnosis of classical RP. Two of them had novel mutation 1003delG, and one family had the mutation V345M. Four families had pericentral retinal dystrophy (PRD), two families with the mutation A164V and one with novel mutation I179F. One family was given a diagnosis of central and pericentral retinal dystrophy (CPRD), a special type of cone/rod dystrophy, and no mutation was found. CONCLUSIONS: Six of 12 families had an RHO mutation. The mutation V345M and the novel mutation 1003delG both caused classical RP, the former indicating the most unfavourable prognosis. Two of the families with PRD had the A164V mutation with a favourable prognosis, whereas the novel mutation I179F caused PRD with extremely variable expressivity.     

原发性视网膜色素变性家系的RDS基因Pro216Leu突变及其表型研究

目的　研究原发性视网膜色素变性 (retinitispigmentosa ,RP)家系中缓慢型视网膜变性(retinaldegenerationslow ,RDS)患者的RDS基因突变与临床表型的关联 ,以探讨RP的发病机制。方法对来自同一家系的 2例RP患者及 2例正常人外周血DNA进行分子遗传学分析 ,采用聚合酶链反应(polymerasechainreaction ,PCR)及限制性片段长度多态性 (restrictionfragmentlengthpolymorphism ,RFLP)技术 ,筛查RDS基因突变 ,对有突变的RDS基因片段进行克隆测序及分析 ,同时进行家系分析及眼部临床检查。结果　来自同一家系的 2例RP患者均查出有RDS基因 2 16密码突变 ,而 2例正常人未查出上述突变。经测序证实RDS基因 2 16密码子的第 2个核苷酸出现了C→T的突变 (Pro2 16Leu)。RDS基因Pro2 16Leu突变的眼部临床表型为视力损害严重的弥漫型RP ,伴有黄斑部病变。结论　中国人RP患者存在RDS基因Pro2 16Leu突变 ;其眼部表型为弥漫型RP伴有黄斑部病变。     

Mutations in the peripherin/RDS gene are an important cause of multifocal pattern dystrophy simulating STGD1/fundus flavimaculatus

AIM: To describe the phenotype and to analyse the peripherin/RDS gene in 10 unrelated families with multifocal pattern dystrophy simulating Stargardt disease (STGD1). METHODS: The probands of 10 families and 20 affected family members underwent an ophthalmic examination including dilated fundus examination, fundus autofluorescence imaging and optical coherence tomography (OCT). In all probands and in selected family members, fluorescein angiography, electrophysiological testing and visual field analysis were performed. Blood samples were obtained from affected and unaffected family members for analysis of the peripherin/RDS gene. RESULTS: All 10 probands carried mutations in the peripherin/RDS gene. Nine different mutations were identified, including six mutations that were not described previously. All probands showed a pattern dystrophy with yellow-white flecks in the posterior pole that strongly resembled the flecks seen in STGD1, on ophthalmoscopy as well as on autofluorescence and OCT. Clinical findings in the family members carrying the same mutation as the proband were highly variable, ranging from no visible abnormalities to retinitis pigmentosa. CONCLUSIONS: Mutations in the peripherin/RDS gene are the major cause of multifocal pattern dystrophy simulating STGD1/fundus flavimaculatus. This autosomal dominant disorder should be distinguished from autosomal recessive STGD1, in view of the different inheritance pattern and the overall better visual prognosis.     

Evaluation of the peripherin/RDS gene as a candidate gene in families with age-related macular degeneration

Age-related macular degeneration (AMD) is a heterogeneous group of disorders and is the leading cause of blindness in the elderly. While degeneration changes in the macula can occur at any time in life, it is the most common cause of severe visual impairment with advancing age. The disease affects approximately 11 million Americans and causes loss of central vision, impairing activities such as reading. The exact cause of the disorder is not known. In this report, we studied two unrelated families having familial-type AMD, with the assumption that mutations in the peripherin/retinal degeneration slow (RDS) gene could contribute to the disease phenotype. Our extensive analyses have identified two silent mutations (84D and 106V) in one family in the same allele of exon 1 which segregated in 3 patients with AMD. However, the fourth affected individual in the same family, as well as 40 normal controls, did not contain this mutation. Further analysis of exon 2 and exon 3 in both families did not show any other sequence alterations. Since one of these silent mutations (106V) has been reported to exist in certain general populations and the other mutation (84D) failed to segregate completely in the family, it is unlikely that these mutations are pathogenic. The results of the study suggest that the peripherin/RDS gene is not a major factor responsible for AMD in the families analyzed.