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Autozygome‐guided exome‐first study in a consanguineous cohort with early‐onset retinal disease uncovers an isolated RIMS2 phenotype and a retina‐enriched RIMS2 isoform

Leber congenital amaurosis (LCA) and early‐onset retinal degeneration (EORD) are inherited retinal diseases (IRD) characterized by early‐onset vision impairment. Herein, we studied 15 Saudi families by whole exome sequencing (WES) and run‐of‐homozygosity (ROH) detection via AutoMap in 12/15 consangu...

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Published in:	Clinical genetics 2024-08, Vol.106 (2), p.127-139
Main Authors:	Del Pozo‐Valero, Marta, Almoallem, Basamat, Dueñas Rey, Alfredo, Mahieu, Quinten, Van Heetvelde, Mattias, Jeddawi, Laila, Bauwens, Miriam, De Baere, Elfride
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Language:	English
Subjects:	autozygome consanguinity early‐onset retinal disease exome sequencing Genotypes Guanylate cyclase 1 Heritability Isoforms Leber congenital amaurosis non‐syndromic Phenotypes Retina Retinal degeneration retina‐enriched isoform RIMS2 Whole genome sequencing
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creator	Del Pozo‐Valero, Marta Almoallem, Basamat Dueñas Rey, Alfredo Mahieu, Quinten Van Heetvelde, Mattias Jeddawi, Laila Bauwens, Miriam De Baere, Elfride
description	Leber congenital amaurosis (LCA) and early‐onset retinal degeneration (EORD) are inherited retinal diseases (IRD) characterized by early‐onset vision impairment. Herein, we studied 15 Saudi families by whole exome sequencing (WES) and run‐of‐homozygosity (ROH) detection via AutoMap in 12/15 consanguineous families. This revealed (likely) pathogenic variants in 11/15 families (73%). A potential founder variant was found in RPGRIP1. Homozygous pathogenic variants were identified in known IRD genes (ATF6, CRB1, CABP4, RDH12, RIMS2, RPGRIP1, SPATA7). We established genotype‐driven clinical reclassifications for ATF6, CABP4, and RIMS2. Specifically, we observed isolated IRD in the individual with the novel RIMS2 variant, and we found a retina‐enriched RIMS2 isoform conserved but not annotated in mouse. The latter illustrates potential different phenotypic consequences of pathogenic variants depending on the particular tissue/cell‐type specific isoforms they affect. Lastly, a compound heterozygous genotype in GUCY2D in one non‐consanguineous family was demonstrated, and homozygous variants in novel candidate genes ATG2B and RUFY3 were found in the two remaining consanguineous families. Reporting these genes will allow to validate them in other IRD cohorts. Finally, the missing heritability of the two unsolved IRD cases may be attributed to variants in non‐coding regions or structural variants that remained undetected, warranting future WGS studies. Autozygome‐guided whole exome sequencing (WES) in Saudi families with early‐onset inherited retinal disease revealed a diagnosis in 73%. Genotype‐driven clinical reclassifications showed a novel genotype–phenotype association for non‐syndromic RIMS2‐IRD. We found a retina‐enriched RIMS2 isoform conserved but not annotated in mouse and report two novel candidate IRD genes, ATG2B and RUFY3.
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Lastly, a compound heterozygous genotype in GUCY2D in one non‐consanguineous family was demonstrated, and homozygous variants in novel candidate genes ATG2B and RUFY3 were found in the two remaining consanguineous families. Reporting these genes will allow to validate them in other IRD cohorts. Finally, the missing heritability of the two unsolved IRD cases may be attributed to variants in non‐coding regions or structural variants that remained undetected, warranting future WGS studies. Autozygome‐guided whole exome sequencing (WES) in Saudi families with early‐onset inherited retinal disease revealed a diagnosis in 73%. Genotype‐driven clinical reclassifications showed a novel genotype–phenotype association for non‐syndromic RIMS2‐IRD. 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Herein, we studied 15 Saudi families by whole exome sequencing (WES) and run‐of‐homozygosity (ROH) detection via AutoMap in 12/15 consanguineous families. This revealed (likely) pathogenic variants in 11/15 families (73%). A potential founder variant was found in RPGRIP1. Homozygous pathogenic variants were identified in known IRD genes (ATF6, CRB1, CABP4, RDH12, RIMS2, RPGRIP1, SPATA7). We established genotype‐driven clinical reclassifications for ATF6, CABP4, and RIMS2. Specifically, we observed isolated IRD in the individual with the novel RIMS2 variant, and we found a retina‐enriched RIMS2 isoform conserved but not annotated in mouse. The latter illustrates potential different phenotypic consequences of pathogenic variants depending on the particular tissue/cell‐type specific isoforms they affect. Lastly, a compound heterozygous genotype in GUCY2D in one non‐consanguineous family was demonstrated, and homozygous variants in novel candidate genes ATG2B and RUFY3 were found in the two remaining consanguineous families. Reporting these genes will allow to validate them in other IRD cohorts. Finally, the missing heritability of the two unsolved IRD cases may be attributed to variants in non‐coding regions or structural variants that remained undetected, warranting future WGS studies. Autozygome‐guided whole exome sequencing (WES) in Saudi families with early‐onset inherited retinal disease revealed a diagnosis in 73%. Genotype‐driven clinical reclassifications showed a novel genotype–phenotype association for non‐syndromic RIMS2‐IRD. 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subjects	autozygome consanguinity early‐onset retinal disease exome sequencing Genotypes Guanylate cyclase 1 Heritability Isoforms Leber congenital amaurosis non‐syndromic Phenotypes Retina Retinal degeneration retina‐enriched isoform RIMS2 Whole genome sequencing
title	Autozygome‐guided exome‐first study in a consanguineous cohort with early‐onset retinal disease uncovers an isolated RIMS2 phenotype and a retina‐enriched RIMS2 isoform
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