Abstract
The small Ras-related GTPase Rab-28 is highly expressed in photoreceptor cells, where it possibly participates in membrane trafficking. To date, six alterations in the RAB28 gene have been associated with autosomal recessive cone-rod dystrophies. Confirmed variants include splicing variants, missense and nonsense mutations. Here, we present a thorough phenotypical and genotypical characterization of five individuals belonging to four Italian families, constituting the largest cohort of RAB28 patients reported in literature to date. All probands displayed similar clinical phenotype consisting of photophobia, decreased visual acuity, central outer retinal thinning, and impaired color vision. By sequencing the four probands, we identified: a novel homozygous splicing variant; two novel nonsense variants in homozygosis; a novel missense variant in compound heterozygous state with a previously reported nonsense variant. Exhaustive molecular dynamics simulations of the missense variant p.(Thr26Asn) in both its active and inactive states revealed an allosteric structural mechanism that impairs the binding of Mg2+, thus decreasing the affinity for GTP. The impaired GTP-GDP exchange ultimately locks Rab-28 in a GDP-bound inactive state. The loss-of-function mutation p.(Thr26Asn) was present in a compound heterozygosis with the nonsense variant p.(Arg137*), which does not cause mRNA-mediated decay, but is rather likely degraded due to its incomplete folding. The frameshift p.(Thr26Valfs4*) and nonsense p.(Leu13*) and p.(Trp107*) variants, if translated, would lack several key structural components necessary for the correct functioning of the encoded protein.
Highlights
Cone-rod dystrophies (CORDs) constitute a genetically heterogeneous group of progressive inherited retinal diseases characterized by a primary loss of cones with a subsequent loss of rods [1]
Flash electroretinogram (ERG) recording showed a nondetectable response for the photopic component and a reduced response for the scotopic component
Analysis of clinical features of patients were compatible with the diagnosis of cone-rod dystrophy
Summary
Cone-rod dystrophies (CORDs) constitute a genetically heterogeneous group of progressive inherited retinal diseases characterized by a primary loss of cones with a subsequent loss of rods [1]. A study on a murine model showed that Rab-28 plays an essential role in cone-specific disc shedding and phagocytosis This led to the proposition of an impaired membrane shedding at the distal cone outer segment (COS) and/or failed phagocytosis by the RPE as the possible pathogenetic mechanism for CORD [9]. Such evidence has been confirmed in a recent paper reporting altered COS shedding in the zebrafish knockout model [10]. In agreement with previous cases reported in the literature, the clinical phenotype was characterized by photophobia, impaired color vision, moderate to severe decrease of visual acuity, and central outer retinal thinning progressing to atrophy.
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