Cone-rod dystrophy can be a manifestation of Danon disease

Background Danon disease is a neuromuscular disorder with variable expression in the eye. We describe a family with Danon disease and cone-rod dystrophy (CRD). Methods Affected males of one family with Danon were invited for an extensive ophthalmologic examination, including color vision testing, fundus photography, Goldmann perimetry, full-field electroretinogram (ERG), and SD-OCT. Previous ophthalmologic data were retrieved from medical charts. The LAMP2 and RPGR gene were analyzed by direct sequencing. Results Two siblings had no ocular phenotype. The third sibling and a cousin developed CRD leading to legal blindness. Visual acuity deteriorated progressively over time, color vision was severely disturbed, and ERG showed reduced photopic and scotopic responses. SD-OCT revealed thinning of the photoreceptor and RPE layer. Visual fieldsdemonstrated central scotoma. The causal mutation was p. Gly384Arg in LAMP2; no mutations were found in RPGR. Conclusions This is the first description of CRD in Danon disease. The retinal phenotype was a late onset but severe dystrophy characterized by loss of photoreceptors and RPE cells. With this report, we highlight the importance of a comprehensive ophthalmologic examination in the clinical work-up of Danon disease

Genetic etiology and clinical consequences of complete and incomplete achromatopsia

OBJECTIVE: To investigate the genetic causes of complete and incomplete achromatopsia (ACHM) and assess the association between disease-causing mutations, phenotype at diagnosis, and visual prognosis. DESIGN: Clinic-based, longitudinal, multicenter study. PARTICIPANTS: Probands with complete ACHM (n = 35), incomplete ACHM (n = 26), or nonspecific ACHM (n = 2) and their affected relatives (n = 18) from various ophthalmogenetic clinics in The Netherlands. METHODS: Ophthalmologic clinical data were assessed over a life time and were registered from medical charts and updated by ophthalmologic examination. Mutations in the CNGB3, CNGA3, and GNAT2 genes were analyzed by direct sequencing. MAIN OUTCOME MEASURES: Genetic mutations and clinical course of ACHM. RESULTS: CNGB3 mutations were identified in 55 of 63 (87%) of probands and all caused premature truncation of the protein. The most common mutation was p.T383IfsX13 (80%); among the 4 other mutations was the novel frameshift mutation p.G548VfsX35. CNGA3 mutations were detected in 3 of 63 (5%) probands; all caused an amino acid change of the protein. No mutations were found in the GNAT2 gene. The ACHM subtype, visual acuity, color vision, and macular appearance were equally distributed among the CNGB3 genotypes, but were more severely affected among CNGA3 genotypes. Visual acuity deteriorated from infancy to adulthood in 12% of patients, leading to 0.10 in 61%, and even lower than 0.10 in 20% of patients. CONCLUSIONS: In this well-defined cohort of ACHM patients, the disease seemed much more genetically homogeneous than previously described. The CNGB3 gene was by far the most important causal gene, and T383IfsX13 the most frequent mutation. The ACHM subtype did not associate with a distinct genetic etiology, nor were any other genotype-phenotype correlations apparent. The distinction between complete and incomplete subtypes of ACHM has no clinical value, and the assumption of a stationary nature is misleadin