Purpose: To investigate the genetic basis of autosomal recessive retinal degeneration in a large consanguineous family from Pakistan.
Methods: Ophthalmic examinations were conducted on family members to establish their diagnosis. Genomic DNA extracted from peripheral blood was used for homozygosity mapping to discover the chromosomal region that harbors the defective gene. Direct sequence analysis and restriction enzyme digestion were used to identify and confirm the defect in the gene.
Results: There were three affected siblings in the family, each with limited peripheral vision and impaired visual acuity. We established linkage to a region on chromosome 2 that encompasses the RP26 locus. Upon sequencing the ceramide kinase-like (CERKL) gene, which is mutated in the original RP26 family, we identified a C>A transversion in exon 2 (c.316C>A) that substitutes an arginine residue with a serine (p.R106S) in the conserved nuclear localization signal sequence (KLKRR) of the protein. This mutation segregated with retinal degeneration in the Pakistani family and was not observed in the DNA of 174 ethnically matched unaffected controls.
Conclusions: This is the third reported mutation in CERKL causing retinal degeneration but is the first report to show that a single amino acid change in CERKL, rather than a null mutation, can cause retinal disease. Although the function of CERKL is still unknown, the mutation described herein confirms that the nuclear localization signal sequence is important in the physiologic function of the protein.