ABSTRACTMutations in NR2E3 cause retinitis pigmentosa (RP) and enhanced S-cone syndrome (ESCS) in humans. This gene produces a large isoform encoded in 8 exons and a previously unreported shorter isoform of 7 exons, whose function is unknown. We generated two mouse models by targeting exon 8 of Nr2e3 using CRISPR/Cas9-D10A nickase. Allele Δ27 is an in-frame deletion of 27 bp that ablates the dimerization domain, whereas allele ΔE8 (full deletion of exon 8), produces only the short isoform that lacks the dimerization and repressor domains. The Δ27 mutant shows developmental alterations and a non-progressive electrophysiological dysfunction that resembles the ESCS phenotype. The ΔE8 mutant exhibits progressive retinal degeneration, as occurs in human RP patients. Interestingly, the mutant retinas show invaginations similar to fovea-like pits. Our mutants suggest a role of Nr2e3 as a cone-patterning regulator and provide valuable models for studying mechanisms of NR2E3-associated retinal dystrophies and evaluating potential therapies.Abstract FigureHighlights- Nr2e3 mouse models were generated by exon 8 deletion using CRISPR/Cas9 D10A nickase.- New Nr2e3 mRNA retaining intron 7 encodes a short protein expressed in adult retina.- Deletion of 9 aa of the NR2E3 dimerization domain causes enhanced S-cone syndrome.- Deletion of exon 8 produces a phenotype similar to Retinitis Pigmentosa in mouse.
Goldmann-Favre/Enhanced S Cone Syndrome, 30 years mysdiagnosed as gyrate atrophy
