X-linked retinoschisis: mutation spectrum and genotype-phenotype relationship in an Italian pediatric cohort.

BACKGROUND: X-linked juvenile retinoschisis (×LRS) is an X-linked vitreoretinal degenerative disease that consists of variable phenotypes ranging from severe early-onset defects to subtle abnormalities diagnosed in elderly patients. XLRS is caused by a loss of function of the protein Retinoschisin (RS1), which is essential to preserve retinal integrity and function of photoreceptor-bipolar synapse. The literature data so far mostly agree on the absence of a clear genotype-phenotype correlation in XLRS. We reviewed clinical and molecular characteristics of a cohort of Italian pediatric XLRS patients to assess the presence of a correlation between genotype and phenotype severity. MATERIALS AND METHODS: We retrospectively examined clinical and genetic features of a cohort of 27 XLRS patients. In this study we included patients with a diagnosis of XLRS confirmed by fundus photography, spectral domain optical coherence tomography, and molecular analysis and with an onset of less than 10 years of age. We sorted RS1 variants according to their effect of RS1 structure and function in three separate groups. RESULTS: According to previous studies, we did not observe a conclusive genotype-phenotype correlation in our cohort; nevertheless, we noticed that patients harboring RS1 variants leading to RS1-secreted mutants show a more homogeneous phenotype, with an overall good visual acuity, compared to the other two groups. CONCLUSIONS: Our data support the hypothesis that secretion profile of RS1 could influence the severity of the phenotype. More extensive and functional studies are needed to acquire notions in view of the opportunity of gene replacement therapy for XLRS patients.

Novel mutations in of the ABCR gene in Italian patients with Stargardt disease.

PURPOSE: Stargardt disease (STGD) is the most prevalent juvenile macular dystrophy, and it has been associated with mutations in the ABCR gene, encoding a photoreceptor-specific transport protein. In this study, we determined the mutation spectrum in the ABCR gene in a group of Italian STGD patients. METHODS: The DNA samples of 71 Italian patients (from 62 independent pedigrees), affected with autosomal recessive STGD, were analysed for mutations in all 50 exons of the ABCR gene by the DHPLC approach (with optimization of the DHPLC conditions for mutation analysis) and direct sequencing techniques. RESULTS: In our group of STGD patients, 71 mutations were identified in 68 patients with a detection rate of 95.7%. Forty-three mutations had been already reported in the literature, whereas 28 mutations had not been previously described and were not detected in 150 unaffected control individuals of Italian origin. Missense mutations represented the most frequent finding (59.2%); G1961E was the most common mutation and it was associated with phenotypes in various degrees of severity. CONCLUSIONS: Some novel mutations in the ABCR gene were reported in a group of Italian STGD patients confirming the extensive allelic heterogeneity of this gene-probably related to the vast number of exons that favours rearrangements in the DNA sequence.

A normal electro-oculography in a family affected by best disease with a novel spontaneous mutation of the BEST1 gene.

AIMS: To describe clinical and genetic findings in an Italian family affected by Best disease. METHODS: Five related patients underwent a complete ophthalmological assessment; genetic testing was performed by single-strand conformation polymorphism analysis and direct sequencing of the BEST1 gene. RESULTS: In three of five family members, the sequence analysis of the BEST1 gene revealed a single Phe-to-Leu transition at nucleotide 305 associated with clinical evidence of Best disease. Surprisingly, the electro-oculogram was normal in all affected patients. CONCLUSION: This study reveals a de novo mutation in the BEST1 gene never described before, sustaining the autosomal-dominant pattern of inheritance of the disease. Clinical evaluation showed phenotypic variability between affected members. In addition, these data suggest that a normal electro-oculography (EOG) does not rule out a diagnosis of Best disease, supporting instead the crucial role of molecular analysis.

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.

A novel mutation in the VMD2 gene in an Italian family with Best maculopathy.

Vitelliform macular dystrophy (Best disease) is an inherited macular degeneration in which the primary defect is thought to occur at the level of the retinal pigment epithelium. The VMD2 gene, considered responsible for the disease, mapped to the long arm of chromosome 11, and it codifies the bestrophin protein, probably acting as a transmembrane ionic channel. In the present study, we screened for mutations the VMD2 gene in Italian patients with Best maculopathy. Five families with Best disease were recruited from central and southern Italy, and family members were evaluated by complete ophthalmologic examination and DNA analysis by means of DHPLC technology. Some mutations of the VMD2 gene were identified and among them there was a novel mutation (R218G), probably involving a functionally active region of the bestrophin protein. In spite of the small number of families considered, it was possible to note a significant phenotypic heterogeneity. First, in one family the R218C mutation was associated with early onset of choroidal neovascularization (CNV) in the affected mother and her son, while no CNV was reported in another family sharing the same mutation. Then a patient with the R25W mutation showed a multifocal location of the vitelliform deposits, while another family with the same mutation showed a typical isolated vitelliform disc in the macular area.

Occurrence of full-thickness macular hole complicating Stargardt disease with ABCR mutation.

PURPOSE: To report an unusual episode of full-thickness macular hole complicating Stargardt disease with an ABCR mutation. METHODS: Case report . RESULTS: Fundus examination of a 20-year-old healthy man showed typical fundus manifestation with yellowish-round or fish-like flecks associated with vitreous macular adhesion and a round punched-out area in the right eye. Optical coherence tomography (OCT) illustrated a full-thickness macular hole. Molecular genetic examination of the ABCR gene showed two heterozygous missense mutations: R1108C (CGC-->TGC) in exon 22 and a splicing mutation IVS6--> 1GT - described in the literature in association with Stargardt disease. CONCLUSIONS: Macular hole was once described in other inherited retinal degenerations (Best disease and Bietti crystal line retinopathy). The pathogenesis gives rise to a host of speculations: widespread alteration of the retinal pigment epithelium; inflammatory mechanisms; a minor trauma which might cause subretinal fibrosis. Surgical procedures were not performed on our patient after his ophthalmologic history and findings were considered.