Abstract
We present a long-term follow-up in autosomal dominant gyrate atrophy-like choroidal dystrophy (adGALCD) and propose a possible genotype/phenotype correlation. Ophthalmic examination of six patients from two families revealed confluent areas of choroidal atrophy resembling gyrate atrophy, starting in the second decade of life. Progression continued centrally, reaching the fovea at about 60 years of age. Subretinal deposits, retinal pigmentation or choroidal neovascularization as seen in late-onset retinal degeneration (LORD) were not observed. Whole genome sequencing revealed a novel missense variant in the C1QTNF5 gene (p.(Q180E)) which was found in heterozygous state in all affected subjects. Haplotype analysis showed that this variant found in both families is identical by descent. Three-dimensional modeling of the possible supramolecular assemblies of C1QTNF5 revealed that the p.(Q180E) variant led to the destabilization of protein tertiary and quaternary structures, affecting both the stability of the single protomer and the entire globular head, thus exerting detrimental effects on the formation of C1QTNF5 trimeric globular domains and their interaction. In conclusion, we propose that the p.(Q180E) variant causes a specific phenotype, adGALCD, that differs in multiple clinical aspects from LORD. Disruption of optimal cell-adhesion mechanisms is expected when analyzing the effects of the point mutation at the protein level.
Highlights
IntroductionInherited diffuse choroidal dystrophies with peripheral onset include two well defined disorders, gyrate atrophy (MIM 258870) and choroideremia (MIM 303100) [1,2]
Gyrate atrophy is an autosomal recessively inherited disorder associated with mutations in the OAT gene and hyperornithinemia [1]
Choroideremia is an x-linked inherited disorder associated with mutations in the CHM gene [2]
Summary
Inherited diffuse choroidal dystrophies with peripheral onset include two well defined disorders, gyrate atrophy (MIM 258870) and choroideremia (MIM 303100) [1,2]. Gyrate atrophy is an autosomal recessively inherited disorder associated with mutations in the OAT gene and hyperornithinemia [1]. Choroideremia is an x-linked inherited disorder associated with mutations in the CHM gene [2]. Several simplex cases and few families which are not sufficiently defined to form another entity have been reported. Autosomal dominant disorders include retinitis pigmentosa with predominant choroidal atrophy associated with a dominant RPE65 mutation [3] as well as a late-onset night blindness with trickle like macular dystrophy [4]
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