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2. Novel and known FRMD7 mutations and copy number variation in Belgian patients with X-linked idiopathic infantile nystagmus

Author

Sophie Walraedt, B.P. Leroy, M Bauwens, Sally Hooghe, K De Leeneer, B. Almoallem, S Al-Obeidan, P Kestelyn, Hannah Verdin, C Van Cauwenbergh, J De Zaeytijd, E. De Baere, and Patricia Delbeke

Subjects
Genetics, Sanger sequencing, Splice site mutation, Genetic heterogeneity, Haplotype, Nonsense mutation, General Medicine, Biology, Frameshift mutation, Ophthalmology, symbols.namesake, symbols, Missense mutation, Copy-number variation
Abstract

Purpose Idiopathic Infantile Nystagmus (IIN [MIM# 310700]) is one of the commonest forms of infantile nystagmus characterized by bilateral uncontrollable eye movements that does not manifest until the child starts to fixate objects at the age of three months leading to low visual acuity scores. Genetically IIN is a heterogeneous disorder which is mostly inherited in an X-linked fashion. There are three known loci and two identified genes. Approximately 50% of families with X-linked IIN have been shown to be linked to mutations in the FERM domain-containing protein 7 (FRMD7) gene. Thus far 45 unique mutations have been reported in FRMD7 related patients with IIN. We investigate the role of FRMD7 mutations and copy number variations in Belgian cohort of 49 unrelated families with a clinical diagnosis of IIN. Methods Forty-nine families underwent detailed ophthalmological examinations and DNA extraction. We set up a comprehensive molecular genetic test based on Sanger sequencing, targeted next generation sequencing (NGS) and copy number variation (CNV) analysis. The reference sequence used was NM_194277.2. Results In eleven unrelated Belgian families with IIN, seven unique FRMD7 changes were found, five of which are novel: frameshift mutation c.2036del p.(Leu679Argfs*8), missense mutations c.801C>A p.(Phe267Leu) and c.875T>C p.( Leu292Pro), splice site mutation c.497+5G>A and one CNV (1.4 Mb deletion). .Additionally, four known mutations were found: missense mutations c.70G>A p.(Gly24Arg) and c.886G>C p.(Gly296Arg), nonsense mutation c.910C>T p.(Arg303*); frameshift mutations c.2036del p.(Leu679Argfs*8) and c.660del p.(Asn221Ilefs*11) which were found in a three independent families. Haplotype reconstruction suggests a potential founder effect in Belgian IIN patients. Segregation testing of these mutations was performed and supports their pathogenic effect. Conclusion Overall, we found both coding FRMD7 mutations and a CNV in 11/49 Belgian families with IIN (22%) and expand the mutational spectrum of FRMD7 as a common cause of IIN. Finally, our study generates a discovery cohort of IIN patients harboring either undetected mutations in non-coding region of FRMD7 or in genes at known or novel loci sustaining the genetic heterogeneity of the disease.

Published
2014
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3. 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.

Author

Del Pozo-Valero M, Almoallem B, Dueñas Rey A, Mahieu Q, Van Heetvelde M, Jeddawi L, Bauwens M, and De Baere E

Subjects
Humans, Female, Male, Retina pathology, Homozygote, Retinal Diseases genetics, Protein Isoforms genetics, Exome genetics, Mutation, Child, Genetic Predisposition to Disease, Leber Congenital Amaurosis genetics, Cohort Studies, Genotype, Genetic Association Studies methods, Exome Sequencing, Consanguinity, Pedigree, Phenotype
Abstract

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., (© 2024 The Authors. Clinical Genetics published by John Wiley & Sons Ltd.)

Published
2024
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4. Unique Roberts syndrome with bilateral congenital glaucoma: A case report.

Author

Almulhim A, Almoallem B, Alsirrhy E, and Osman EA

Abstract

Background: Congenital glaucoma associated with Roberts syndrome (RS) is an unusual and unique condition. No previous report describes this association. A multidisciplinary approach including molecular studies were conducted to reach the final diagnosis., Case Summary: We present a rare case of a 1-wk-old male with RS associated with bilateral congenital glaucoma, left ectopic kidney, and left-hand rudimentary digits. A comprehensive approach was applied by which bilateral non-penetrating glaucoma surgery was performed with good control of intraocular pressure for more than 6 mo. Cytogenetic and molecular testing were conducted and revealed normal measurements., Conclusion: This report described a case of a male baby with clinical features of RS but with a negative molecular analysis, presenting with left-hand rudimentary digits, bilateral congenital glaucoma, and left ectopic kidney. To the best of our knowledge, this is the first case reported with phocomelia, bilateral congenital glaucoma, and unilateral ectopic kidney., Competing Interests: Conflict-of-interest statement: All the authors report no relevant conflicts of interest for this article., (©The Author(s) 2023. Published by Baishideng Publishing Group Inc. All rights reserved.)

Published
2023
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6. The majority of autosomal recessive nanophthalmos and posterior microphthalmia can be attributed to biallelic sequence and structural variants in MFRP and PRSS56.

Author

Almoallem B, Arno G, De Zaeytijd J, Verdin H, Balikova I, Casteels I, de Ravel T, Hull S, Suzani M, Destrée A, Peng M, Williams D, Ainsworth JR, Webster AR, Leroy BP, Moore AT, and De Baere E

Subjects
Adolescent, Adult, Aged, Child, Child, Preschool, Cohort Studies, Family, Female, Heterozygote, Humans, Male, Middle Aged, Whole Genome Sequencing, Alleles, DNA Copy Number Variations, Membrane Proteins genetics, Microphthalmos genetics, Mutation, Serine Proteases genetics
Abstract

This study aimed to genetically and clinically characterize a unique cohort of 25 individuals from 21 unrelated families with autosomal recessive nanophthalmos (NNO) and posterior microphthalmia (MCOP) from different ethnicities. An ophthalmological assessment in all families was followed by targeted MFRP and PRSS56 testing in 20 families and whole-genome sequencing in one family. Three families underwent homozygosity mapping using SNP arrays. Eight distinct MFRP mutations were found in 10/21 families (47.6%), five of which are novel including a deletion spanning the 5' untranslated region and the first coding part of exon 1. Most cases harbored homozygous mutations (8/10), while a compound heterozygous and a monoallelic genotype were identified in the remaining ones (2/10). Six distinct PRSS56 mutations were found in 9/21 (42.9%) families, three of which are novel. Similarly, homozygous mutations were found in all but one, leaving 2/21 families (9.5%) without a molecular diagnosis. Clinically, all patients had reduced visual acuity, hyperopia, short axial length and crowded optic discs. Retinitis pigmentosa was observed in 5/10 (50%) of the MFRP group, papillomacular folds in 12/19 (63.2%) of MCOP and in 3/6 (50%) of NNO cases. A considerable phenotypic variability was observed, with no clear genotype-phenotype correlations. Overall, our study represents the largest NNO and MCOP cohort reported to date and provides a genetic diagnosis in 19/21 families (90.5%), including the first MFRP genomic rearrangement, offering opportunities for gene-based therapies in MFRP-associated disease. Finally, our study underscores the importance of sequence and copy number analysis of the MFRP and PRSS56 genes in MCOP and NNO.

Published
2020
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7. Homozygous stop mutation in AHR causes autosomal recessive foveal hypoplasia and infantile nystagmus.

Author

Mayer AK, Mahajnah M, Thomas MG, Cohen Y, Habib A, Schulze M, Maconachie GDE, AlMoallem B, De Baere E, Lorenz B, Traboulsi EI, Kohl S, Azem A, Bauer P, Gottlob I, Sharkia R, and Wissinger B

Subjects
Animals, Child, Electroretinography methods, Female, Humans, Male, Mice, Mutation genetics, Nervous System Malformations genetics, Nervous System Malformations pathology, Nystagmus, Congenital diagnosis, Optic Nerve Hypoplasia pathology, Pedigree, Basic Helix-Loop-Helix Transcription Factors genetics, Homozygote, Nystagmus, Congenital genetics, Optic Nerve Hypoplasia genetics, Receptors, Aryl Hydrocarbon genetics
Abstract

Herein we present a consanguineous family with three children affected by foveal hypoplasia with infantile nystagmus, following an autosomal recessive mode of inheritance. The patients showed normal electroretinography responses, no signs of albinism, and no anterior segment or brain abnormalities. Upon whole exome sequencing, we identified a homozygous mutation (c.1861C>T;p.Q621*) in the aryl hydrocarbon receptor (AHR) gene that perfectly co-segregated with the disease in the larger family. AHR is a ligand-activated transcription factor that has been intensively studied in xenobiotic-induced toxicity. Further, it has been shown to play a physiological role under normal cellular conditions, such as in immunity, inflammatory response and neurogenesis. Notably, knockout of the Ahr gene in mouse impairs optic nerve myelin sheath formation and results in oculomotor deficits sharing many features with our patients: the eye movement disorder in Ahr-/- mice appears early in development and presents as conjugate horizontal pendular nystagmus. We therefore propose AHR to be a novel disease gene for a new, recessively inherited disorder in humans, characterized by infantile nystagmus and foveal hypoplasia., (© The Author(s) (2019). Published by Oxford University Press on behalf of the Guarantors of Brain. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published
2019
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8. Novel FRMD7 Mutations and Genomic Rearrangement Expand the Molecular Pathogenesis of X-Linked Idiopathic Infantile Nystagmus.

Author

AlMoallem B, Bauwens M, Walraedt S, Delbeke P, De Zaeytijd J, Kestelyn P, Meire F, Janssens S, van Cauwenbergh C, Verdin H, Hooghe S, Kumar Thakur P, Coppieters F, De Leeneer K, Devriendt K, Leroy BP, and De Baere E

Subjects
Adolescent, Adult, Aged, 80 and over, Belgium, Child, Child, Preschool, Cohort Studies, Comparative Genomic Hybridization, Eye Proteins genetics, Female, Genetic Heterogeneity, Genetic Predisposition to Disease genetics, Genetic Testing, HapMap Project, Humans, Infant, Male, Membrane Glycoproteins genetics, Middle Aged, Multiplex Polymerase Chain Reaction, Mutation, Missense genetics, Nystagmus, Congenital diagnosis, Sequence Analysis, DNA, Cytoskeletal Proteins genetics, DNA Mutational Analysis, Gene Rearrangement genetics, Membrane Proteins genetics, Nystagmus, Congenital genetics
Abstract

Purpose: Idiopathic infantile nystagmus (IIN; OMIM 31700) with X-linked inheritance is one of the most common forms of infantile nystagmus. Up to date, three X-linked loci have been identified, Xp11.4-p11.3 (calcium/calmodulin-dependent serine protein kinase [CASK]), Xp22 (GPR143), and Xq26-q27 (FRMD7), respectively. Here, we investigated the role of mutations and copy number variations (CNV) of FRMD7 and GPR143 in the molecular pathogenesis of IIN in 49 unrelated Belgian probands., Methods: We set up a comprehensive molecular genetic workflow based on Sanger sequencing, targeted next generation sequencing (NGS) and CNV analysis using multiplex ligation-dependent probe amplification (MLPA) for FRMD7 (NM_194277.2) and GPR143 (NM_000273.2)., Results: In 11/49 probands, nine unique FRMD7 changes were found, five of which are novel: frameshift mutation c.2036del, missense mutations c.801C>A and c.875T>C, splice-site mutation c.497+5G>A, and one genomic rearrangement (1.29 Mb deletion) in a syndromic case. Additionally, four known mutations were found: c.70G>A, c.886G>C, c.910C>T, and c.660del. The latter was found in three independent families. In silico predictions and segregation testing of the novel mutations support their pathogenic effect. No GPR143 mutations or CNVs were found in the remainder of the probands (38/49)., Conclusions: Overall, genetic defects of FRMD7 were found in 11/49 (22.4%) probands, including the first reported genomic rearrangement of FRMD7 in IIN, expanding its mutational spectrum. Finally, we generate a discovery cohort of IIN patients potentially harboring either hidden a variation of FRMD7 or mutations in genes at known or novel loci sustaining the genetic heterogeneity of IIN., (Copyright 2015 The Association for Research in Vision and Ophthalmology, Inc.)

Published
2015
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