Kerry E. McTaggart

Choroideremia gene testing

Choroideremia is a chorioretinal degeneration displaying X-linked recessive inheritance. In recent years, technological advances have increased the accessibility of genetic testing for mutations in the gene that lead to this disorder. The disorder itself, approaches for its detection and the steps and the rationale behind testing are outlined in this review. All mutations in the choroideremia gene result in the truncation or absence of the normal protein product Rab escort protein-1, which is a component of Rab geranylgeranyltransferase, an enzyme complex that mediates correct intracellular vesicular transport. Sequence analysis of the 15 exons of the choroideremia gene and adjacent splice sites is a primary method of mutation detection used by the authors’ laboratory, through which a variety of mutations including nonsense mutations, insertions, deletions and splice site alterations have been detected. Alternatively, if no mutations are revealed using this approach, reverse transcription PCR, northern blot analysis or a protein truncation test can be employed to detect aberrantly spliced products. Immunoblot analysis can also be performed to confirm the absence of Rab escort protein-1 in affected males. Deletions create a practical problem in assessing the carrier status of females; linkage analysis with closely linked markers is the most practical approach in these cases.

Detection of localized retinal dysfunction in a choroideremia carrier

PURPOSE To investigate severe unilateral vision loss in a choroideremia carrier. DESIGN Case report. METHODS Ocular examination, genetic testing, Humphrey visual fields, full-field and multifocal (mf) electroretinogram (ERG) tests were used to study a family with choroideremia. RESULTS In a carrier with unilateral central vision loss, mfERG showed severely reduced amplitudes which correlated with a band of retinal pigment epithelial and choroidal atrophy in the macula, a dense central scotoma on Humphrey visual fields testing, and decreased ERG amplitudes. CONCLUSIONS Multifocal ERG may be a sensitive tool to measure functional abnormalities in choroideremia carriers. Mosaic inactivation of the normal gene may cause expression of the mutation with severe vision loss in choroideremia carriers.

Electrophysiologic and phenotypic features of an autosomal cone-rod dystrophy caused by a novel CRX mutation

PURPOSE To reexamine a large Albertan family previously reported with a progressive cone dystrophy with variable phenotype and to map the disorder using molecular genetic techniques. DESIGN Observational case series. PARTICIPANTS Twenty-nine subjects (10 affected) from four generations of a large kindred were clinically examined. Twenty-three of these individuals, as well as two unaffected spouses, were included in the molecular genetic study. Subject ages ranged from 17 to 91 years of age. METHODS Disease status and associated ocular abnormalities were assessed primarily by measurement of visual acuity, color vision, fundus photography, and both full-field and multifocal electroretinography (ERG and mfERG). Linkage of the disorder to the rhodopsin gene was studied using microsatellites. A mutational screen of the CRX gene was performed to identify coding sequence changes. MAIN OUTCOME MEASURES Visual acuity and color discrimination were reduced in clinically affected individuals; full-field flash ERG was used to measure function of both cones and rods. mfERG and fundus photography allowed documentation of the observed macular changes. RESULTS We noted a variable, adult-onset macular dystrophy, progressing in some cases to a retinitis pigmentosa-like phenotype. Both photopic and scotopic full-field ERG amplitudes were reduced by approximately 50%, demonstrating involvement of both photoreceptor systems. A reduced b-wave amplitude with a relatively preserved a-wave was observed at both cone and rod levels. Macular involvement was confirmed by mfERG. The rhodopsin locus was excluded by haplotype analysis. A novel frameshift mutation was detected in exon III of the CRX retinal homeobox gene. ERG and molecular genetic findings were consistent with the reclassification of this disease as an autosomal dominant cone-rod dystrophy (CRD) CONCLUSIONS: We report a novel CRX mutation causing autosomal dominant CRD. Observed ERG changes suggest that this mutation primarily impairs inner retinal function. Because retinal expression of CRX is limited to photoreceptors, this dysfunction may be the result of faulty photoreceptor communication with second-order retinal neurons. We propose misexpression of gated cation channels caused by altered CRX activity as one putative mechanism by which a sole photoreceptor defect may selectively impair neurotransmission without disrupting the upstream events of phototransduction.

Clinical diagnoses that overlap with choroideremia

PURPOSE To understand which clinical presentations suggest a diagnosis of choroideremia (CHM). METHODS Retrospective chart review. Included were patients for whom a clinical diagnosis of CHM was suggested, but either protein analysis or direct sequencing of the CHM gene could not confirm the diagnosis. Clinical presentation, family history and fundus photographs were reviewed. RESULTS We analyzed protein and DNA samples from members of more than 100 families in which at least 1 member had a clinical diagnosis of CHM. For 26 of these families, the clinical diagnosis of CHM could not be confirmed by laboratory analysis. Relevant clinical information was requested from the referring ophthalmologists so that alternative diagnoses could be considered. Sufficient information was provided for 13 of the 26 families. Four patients were reclassified as having retinitis pigmentosa (RP) from the clinical phenotype; only two clearly had X-linked inheritance. One patient had a syndrome including macular dystrophy, hearing loss, developmental delay and cerebral palsy. One patient was reclassified as having congenital stationary night blindness on the basis of an electronegative electroretinogram and a normal fundus. One patient had hearing loss suggesting Usher syndrome. One patient had signs consistent with cone-rod dystrophy (CRD). Five patients could not be reclassified on the basis of the clinical presentation. CONCLUSION RP, Usher syndrome and CRD are clinical phenotypes that may overlap with CHM. Clinical features that suggest CHM include severe chorioretinal atrophy with preservation of the macula, X-linked inheritance and retinal changes in a related female.