A Novel Mutation in the XLRS1 Gene in a Korean Family with X-linked Retinoschisis

Article information

Korean J Ophthalmol. 2006;20(1):62-64
Publication date (electronic) : 2006 March 31
doi : https://doi.org/10.3341/kjo.2006.20.1.62
1Department of Ophthalmology, Institute of Vision Research, Yonsei University College of Medicine, Seoul, Korea.
2Department of Biochemistry, Sejong University, Seoul, Korea.
Reprint requests to Hyoung Jun Koh MD, Department of Ophthalmology, Yonsei University College of Medicine, #134 Shinchon-dong, Sodaemun-gu, Seoul, 120-752, Korea. Tel: 82-2-2228-3570, Fax: 82-2-312-0541, hjkoh@yumc.yonsei.ac.kr
Received 2005 October 20; Accepted 2006 January 06.

Abstract

Purpose

To report a novel missense mutation in the XLRS1 gene in a Korean family with X-linked retinoschisis.

Methods

Observation case report of a family with a proband with X-linked retinoschisis underwent complete ophthalmologic examination. Genomic DNA was excluded from the family's blood and all exons of the XLRS1 gene were amplified by polymerase chain reaction and analyzed using a direct sequencing method.

Results

A novel Leu103Phe missense mutation was identified.

Conclusions

A novel Leu103Phe mutation is an additional missense mutation which is responsible for the pathogenesis of X-linked retinoschisis.

X-linked retinoschisis is one of the most common causes of juvenile macular degeneration in young males.1 A gene, called XLRS1, has been cloned and identified as cause of X-linked retinoschisis.2 The XLRS1 gene has six exons and encodes a 224 amino acid protein, processed by N-terminal cleavage into a mature protein with a calculated size of 23 kDa (201 amino acids). The predicted protein sequence contains a highly conserved motif implicated in cell-cell interaction and, thus, may be active in cell adhesion processes. Most mutations, predominantly missense, were found in exons 4-6 encoding this discoidin domain.3

Here we present observational case report of a novel missense mutation in the XLRS1 gene in a family of Korean patients that confirmed the diagnosis of X-linked retinoschisis.

Case Report

A 9 year old boy was found to have poor visual acuity. His best corrected visual acuity was 0.3 in both eyes. Refractions were OD: +1.25, OS: +1.00. Fundus examination showed bilateral wheel-like maculopathy with a golden-yellow reflex at the inferior peripheral fundus (Fig. 1). Single-flash ERG documented marked reduction of b wave (Fig. 2). Visual fields showed paracentral scotomas in both eyes. Color vision test was normal with the Ishihara's test. Optical coherence Tomography confirmed foveal schisis (Fig. 3).

Fig. 1

Fundus photograph shows spoke-wheel shaped macular schisis with golden yellow fundus reflex in the peripheral retina.

Fig. 2

Single-flash electroretinogram shows reduced b waves in both eyes.

Fig. 3

Optical coherence tomogram showing foveal retinoschisis with with multiple cysts.

During examination, his maternal uncle was also diagnosed as X-linked retinoschisis. His best corrected visual acuity was 0.025 in the right eye and 0.4 in the left. His fundus also showed typical cystic maculopathy.

After informed consent, we performed complete ophthalmologic and molecular genetic study of all available family members of the affected boy.

Genomic DNA was isolated from peripheral blood samples. All exons of the XLRS1 gene were amplified by polymerase chain reaction and analyzed using a direct sequencing method. Primers were designed with using Genetix software (Software development). Searches for information and homology of nucleotide and amino acid sequence was analyzed using homology search with BLAST against the sequences in the Gene Bank and EMBL DNA database.

Direct sequencing showed that two cytosine residues were substituted into thymines and coded Phenylalanine instead of Leucine (Leu103Phe) in exon 4 of XLRS1 gene (Fig. 4). This mutations were also identified in his sister, mother and maternal uncle. The hemizygous mutation was confirmed using both sense and antisense primers.

Fig. 4

Pedigree of a family, and sequences of regions with mutations in the XLRS1 gene. The blackened symbol denotes phenotypically affected individual. Asterisks(*) denote individuals whose leukocyte DNA was analyzed. Direct sequencing of exon 4. The patient had a missense mutation (Leu103Phe). The altered nucleotides are shown in boldface and are denoted with arrows.

Discussion

We investigated both ophthalmological and molecular genetic study of families of 3 unrelated probands. All mutations were missense mutations in the exon 4 of XLRS1 gene. Two were known already (Arg102Trp, and Trp96Arg). And we found a novel missense mutation of Leu103Phe. We are unware of previous reports of this mutation and could find no reference to it in a computerized search utilizing MEDLINE and website (http://www.dmd.nl/rs/index). As with other mutations, this mutation also occurred in the discoidin domain.

The clinical feature of the boy and maternal uncle is mainly cystic maculopathy. The analysis of the function of the different forms of mutation in XLRS1 gene may be needed to enhance our understanding of X-linked retinoschisis pathogenesis.

Notes

This study was supported by a faculty research grant of Yonsei University College of Medicine for 2000. (Koh HJ) (No. 6-2000-0089)

References

1. George NDL, Yates JRW, Moore AT. X-linked retinoschisis. Br J Ophthalmol 1995;79:697–702. 7662639.
2. Sauer CG, Gehrig A, Warneke-Wittstock R, et al. Positional cloning of the gene associated with X-linked juvenile retinoschisis. Nature genetics 1997;17:164–170. 9326935.
3. The retinoschisis consortium. Functional implications of the spectrum of mutations found in 234 cases with X-linked juvenile retinoschisis (XLRS). Human Molecular Genetics 1998;7:1185–1192. 9618178.

Article information Continued

Fig. 1

Fundus photograph shows spoke-wheel shaped macular schisis with golden yellow fundus reflex in the peripheral retina.

Fig. 2

Single-flash electroretinogram shows reduced b waves in both eyes.

Fig. 3

Optical coherence tomogram showing foveal retinoschisis with with multiple cysts.

Fig. 4

Pedigree of a family, and sequences of regions with mutations in the XLRS1 gene. The blackened symbol denotes phenotypically affected individual. Asterisks(*) denote individuals whose leukocyte DNA was analyzed. Direct sequencing of exon 4. The patient had a missense mutation (Leu103Phe). The altered nucleotides are shown in boldface and are denoted with arrows.