Your search keyword '"Chris F. Inglehearn"' showing total 132 results

1. Bi-allelic mutation of CTNNB1 causes a severe form of syndromic microphthalmia, persistent foetal vasculature and vitreoretinal dysplasia

Author

Rachel L. Taylor, Carla Sanjuro Soriano, Simon Williams, Denisa Dzulova, Jane Ashworth, Georgina Hall, Theodora Gale, I. Christopher Lloyd, Chris F. Inglehearn, Carmel Toomes, Sofia Douzgou, and Graeme C. Black

Subjects

CTNNB1, Beta-catenin, Recessive, Syndromic, Microphthalmia, Vitreoretinal dysplasia, Medicine

Abstract

Abstract Background Inherited vitreoretinopathies arise as a consequence of congenital retinal vascularisation abnormalities. They represent a phenotypically and genetically heterogeneous group of disorders that can have a major impact on vision. Several genes encoding proteins and effectors of the canonical Wnt/β-catenin pathway have been associated and precise diagnosis, although difficult, is essential for proper clinical management including syndrome specific management where appropriate. This work aimed to investigate the molecular basis of disease in a single proband born to consanguineous parents, who presented with microphthalmia, persistent foetal vasculature, posterior lens vacuoles, vitreoretinal dysplasia, microcephaly, hypotelorism and global developmental delay, and was registered severely visually impaired by 5 months of age. Methods Extensive genomic pre-screening, including microarray comparative genomic hybridisation and sequencing of a 114 gene panel associated with cataract and congenital ophthalmic disorders was conducted by an accredited clinical laboratory. Whole exome sequencing (WES) was undertaken on a research basis and in vitro TOPflash transcriptional reporter assay was utilised to assess the impact of the putative causal variant. Results In the proband, WES revealed a novel, likely pathogenic homozygous mutation in the cadherin-associated protein beta-1 gene (CTNNB1), c.884C>G; p.(Ala295Gly), which encodes a co-effector molecule of the Wnt/β-catenin pathway. The proband’s parents were shown to be heterozygous carriers but ophthalmic examination did not detect any abnormalities. Functional assessment of the missense variant demonstrated significant reduction of β-catenin activity. Conclusions This is the first report of a biallelic disease-causing variation in CTNNB1. We conclude that this biallelic, transcriptional inactivating mutation of CTNNB1 causes a severe, syndromic form of microphthalmia, persistent foetal vasculature and vitreoretinal dysplasia that results in serious visual loss in infancy.

Published

2022

2. Molecular diagnoses in the congenital malformations caused by ciliopathies cohort of the 100,000 Genomes Project

Author

Jamie M Ellingford, Jenny Carmichael, Carmel Toomes, Christopher M. Watson, Roel P J Bevers, Colin A. Johnson, James A. Poulter, Matthew Roche, Helen K. Brittain, Gabrielle Wheway, Alex Stuckey, Sunayna Best, Chris F. Inglehearn, Jenny Lord, and Katarzyna Szymanska

Subjects

Proband, diagnosis, Genomics, Disease, medical, Ciliopathies, State Medicine, Joubert syndrome, Human Phenotype Ontology, genomics, Genetics, Humans, Medicine, genetics, Abnormalities, Multiple, Eye Abnormalities, Genetics (clinical), business.industry, Cilium, congenital, Kidney Diseases, Cystic, medicine.disease, Ciliopathy, Phenotype, and neonatal diseases and abnormalities, business, hereditary

Abstract

BackgroundPrimary ciliopathies represent a group of inherited disorders due to defects in the primary cilium, the ‘cell’s antenna’. The 100,000 Genomes Project was launched in 2012 by Genomics England (GEL), recruiting National Health Service (NHS) patients with eligible rare diseases and cancer. Sequence data were linked to Human Phenotype Ontology (HPO) terms entered by recruiting clinicians.MethodsEighty-three prescreened probands were recruited to the 100,000 Genomes Project suspected to have congenital malformations caused by ciliopathies in the following disease categories: Bardet-Biedl syndrome (n=45), Joubert syndrome (n=14) and ‘Rare Multisystem Ciliopathy Disorders’ (n=24). We implemented a bespoke variant filtering and analysis strategy to improve molecular diagnostic rates for these participants.ResultsWe determined a research molecular diagnosis for n=43/83 (51.8%) probands. This is 19.3% higher than previously reported by GEL (n=27/83 (32.5%)). A high proportion of diagnoses are due to variants in non-ciliopathy disease genes (n=19/43, 44.2%) which may reflect difficulties in clinical recognition of ciliopathies. n=11/83 probands (13.3%) had at least one causative variant outside the tiers 1 and 2 variant prioritisation categories (GEL’s automated triaging procedure), which would not be reviewed in standard 100,000 Genomes Project diagnostic strategies. These include four structural variants and three predicted to cause non-canonical splicing defects. Two unrelated participants have biallelic likely pathogenic variants in LRRC45, a putative novel ciliopathy disease gene.ConclusionThese data illustrate the power of linking large-scale genome sequence to phenotype information. They demonstrate the value of research collaborations in order to maximise interpretation of genomic data.

Published

2021

3. Risk of psychosis in Yorkshire African, Caribbean and Mixed Ethnic communities

Author

Chris F. Inglehearn, Steven J. Clapcote, Jamshid Nazari, Tariq Mahmood, Anita Brewin, Alastair G. Cardno, and Prakash Hosalli

Subjects

Psychiatry and Mental health, Psychosis, Geography, AFRICAN CARIBBEAN, medicine, Ethnic group, Pshychiatric Mental Health, medicine.disease, Socioeconomics

Abstract

Background: An elevated risk of psychosis in migrant and ethnic minority groups has been frequently reported. Previous UK studies have found an elevated risk in African-Caribbean, African and Mixed Ethnic groups, but risks for these groups in West Yorkshire are not known. Aim: To carry out a naturalistic study of the relative risk of psychosis in Yorkshire African, African-Caribbean and Mixed Ethnic groups as compared with the British White population. Method: We used data from Early Intervention for Psychosis services on 15–35 year-olds diagnosed with first episode psychosis (ICD-10, F20-29) in 2013–2015 and local census data to calculate risks.Results: Risk ratios (RR) are significantly increased in African (RR 3.23: 95% CI, 2.46, 4.25), African Caribbean (RR 3.15: 95% CI, 2.04, 4.85) and Mixed Ethnic group (RR 2.27: 95% CI, 1.77, 2.91).Conclusion: Risks are elevated but not as much as elsewhere in England. The reasons for this difference require further investigation.

Published

2021

4. Spectrum of pathogenic variants and founder effects in amelogenesis imperfecta associated with MMP20

Author

Alan J. Mighell, Claire E. L. Smith, Suhaila Al-Bahlani, Mary J. O'Connell, Francesca Soldani, Peter F. Day, James A. Poulter, Gina Murillo, Georgios Nikolopoulos, Ian R. Berry, Sarah A. Harris, Teresa Lamb, Chris F. Inglehearn, Catriona J. Brown, and Sandra Silva

Subjects

Amelogenesis Imperfecta, Biology, Compound heterozygosity, 03 medical and health sciences, symbols.namesake, stomatognathic system, Genetics, medicine, Humans, Amelogenesis imperfecta, Genetics (clinical), Exome sequencing, 030304 developmental biology, 0303 health sciences, MMP20, Homozygote, 030305 genetics & heredity, Haplotype, Amelogenesis, medicine.disease, Founder Effect, Pedigree, Matrix Metalloproteinase 20, Mendelian inheritance, symbols, Founder effect

Abstract

Amelogenesis imperfecta (AI) describes a heterogeneous group of developmental enamel defects that typically have Mendelian inheritance. Exome sequencing of ten families with recessive hypomaturation AI revealed 4 novel and 1 known variants in the matrix metallopeptidase 20 (MMP20) gene that were predicted to be pathogenic. MMP20 encodes a protease that cleaves the developing extracellular enamel matrix and is necessary for normal enamel crystal growth during amelogenesis. New homozygous missense changes were shared between four families of Pakistani heritage (c.625G>C; p.(Glu209Gln)) and two of Omani origin (c.710C>A; p.(Ser237Tyr)). In two families of UK origin and one from Costa Rica, affected individuals were homozygous for the previously reported c.954-2A>T; p.(Ile319Phefs*19) variant. For each of these variants, microsatellite haplotypes appeared to exclude a recent founder effect, but elements of haplotype were conserved, suggesting more distant founding ancestors. New compound heterozygous changes were identified in one family of European heritage; c.809_811+12delinsCCAG; p.(?) and c.1122A>C; p.(Gln374His). This report further elucidates the mutation spectrum of MMP20 and the probable impact on protein function, confirms a consistent hypomaturation phenotype and shows that mutations in MMP20 are a common cause of autosomal recessive AI in some communities. This article is protected by copyright. All rights reserved.

Published

2021

5. DYNC2H1 hypomorphic or retina-predominant variants cause nonsyndromic retinal degeneration

Author

Anjali Vig, James A. Poulter, Daniele Ottaviani, Erika Tavares, Katerina Toropova, Anna Maria Tracewska, Antonio Mollica, Jasmine Kang, Oshini Kehelwathugoda, Tara Paton, Jason T. Maynes, Gabrielle Wheway, Gavin Arno, J.C. Ambrose, P. Arumugam, E.L. Baple, M. Bleda, F. Boardman-Pretty, J.M. Boissiere, C.R. Boustred, H. Brittain, M.J. Caulfield, G.C. Chan, C.E.H. Craig, L.C. Daugherty, A. de Burca, A. Devereau, G. Elgar, R.E. Foulger, T. Fowler, P. Furió-Tarí, J.M. Hackett, D. Halai, A. Hamblin, S. Henderson, J.E. Holman, T.J.P. Hubbard, K. Ibáñez, R. Jackson, L.J. Jones, D. Kasperaviciute, M. Kayikci, L. Lahnstein, K. Lawson, S.E.A. Leigh, I.U.S. Leong, F.J. Lopez, F. Maleady-Crowe, J. Mason, E.M. McDonagh, L. Moutsianas, M. Mueller, N. Murugaesu, A.C. Need, C.A. Odhams, C. Patch, D. Perez-Gil, D. Polychronopoulos, J. Pullinger, T. Rahim, A. Rendon, P. Riesgo-Ferreiro, T. Rogers, M. Ryten, K. Savage, K. Sawant, R.H. Scott, A. Siddiq, A. Sieghart, D. Smedley, K.R. Smith, A. Sosinsky, W. Spooner, H.E. Stevens, A. Stuckey, R. Sultana, E.R.A. Thomas, S.R. Thompson, C. Tregidgo, A. Tucci, E. Walsh, S.A. Watters, M.J. Welland, E. Williams, K. Witkowska, S.M. Wood, M. Zarowiecki, Kamron N. Khan, Martin McKibbin, Carmel Toomes, Manir Ali, Matteo Di Scipio, Shuning Li, Jamie Ellingford, Graeme Black, Andrew Webster, Małgorzata Rydzanicz, Piotr Stawiński, Rafał Płoski, Ajoy Vincent, Michael E. Cheetham, Chris F. Inglehearn, Anthony Roberts, and Elise Heon

Subjects

0301 basic medicine, Proband, Retinal degeneration, intraflagellar transport (IFT), Cytoplasmic Dyneins, Ellis-Van Creveld Syndrome, 030105 genetics & heredity, Biology, Article, Retina, 03 medical and health sciences, Exon, chemistry.chemical_compound, primary cilia, medicine, Organoid, Missense mutation, Humans, Induced pluripotent stem cell, Genetics (clinical), Exome sequencing, Retinal Degeneration, Retinal, Exons, DYNC2H1, medicine.disease, Molecular biology, retinitis pigmentosa (RP), Pedigree, inherited retinal disease (IRD), 030104 developmental biology, chemistry, Mutation

Abstract

Purpose Determining the role of DYNC2H1 variants in nonsyndromic inherited retinal disease (IRD). Methods Genome and exome sequencing were performed for five unrelated cases of IRD with no identified variant. In vitro assays were developed to validate the variants identified (fibroblast assay, induced pluripotent stem cell [iPSC] derived retinal organoids, and a dynein motility assay). Results Four novel DYNC2H1 variants (V1, g.103327020_103327021dup; V2, g.103055779A>T; V3, g.103112272C>G; V4, g.103070104A>C) and one previously reported variant (V5, g.103339363T>G) were identified. In proband 1 (V1/V2), V1 was predicted to introduce a premature termination codon (PTC), whereas V2 disrupted the exon 41 splice donor site causing incomplete skipping of exon 41. V1 and V2 impaired dynein-2 motility in vitro and perturbed IFT88 distribution within cilia. V3, homozygous in probands 2–4, is predicted to cause a PTC in a retina-predominant transcript. Analysis of retinal organoids showed that this new transcript expression increased with organoid differentiation. V4, a novel missense variant, was in trans with V5, previously associated with Jeune asphyxiating thoracic dystrophy (JATD). Conclusion The DYNC2H1 variants discussed herein were either hypomorphic or affecting a retina-predominant transcript and caused nonsyndromic IRD. Dynein variants, specifically DYNC2H1 variants are reported as a cause of non syndromic IRD.

Published

2020

6. A missense variant in specificity protein 6 (SP6) is associated with amelogenesis imperfecta

Author

Fatima Nadat, Chris F. Inglehearn, Laura Wilkinson Hewitt, Alan J. Mighell, Claire E. L. Smith, Helen D. Rodd, James A. Poulter, Laura L. E. Whitehouse, Thomas A. Edwards, Brian R. Jackson, and Iain W. Manfield

Subjects

AcademicSubjects/SCI01140, Male, 0301 basic medicine, Candidate gene, Amelogenesis Imperfecta, viruses, Kruppel-Like Transcription Factors, Mutation, Missense, Autophagy-Related Proteins, Biology, 03 medical and health sciences, 0302 clinical medicine, Dental Enamel Proteins, stomatognathic system, Mutant protein, Exome Sequencing, Ameloblasts, Genetics, medicine, Humans, Missense mutation, Genetic Predisposition to Disease, AMBN, Amelogenesis imperfecta, Dental Enamel, Promoter Regions, Genetic, Molecular Biology, Genetics (clinical), Adaptor Proteins, Signal Transducing, Cell Proliferation, Inner enamel epithelium, fungi, Cell Differentiation, General Medicine, Amelogenesis, medicine.disease, Pedigree, DNA-Binding Proteins, 030104 developmental biology, Haplotypes, Female, General Article, Ameloblast, Tooth, 030217 neurology & neurosurgery

Abstract

Amelogenesis is the process of enamel formation. For amelogenesis to proceed, the cells of the inner enamel epithelium (IEE) must first proliferate and then differentiate into the enamel-producing ameloblasts. Amelogenesis imperfecta (AI) is a heterogeneous group of genetic conditions that result in defective or absent tooth enamel. We identified a 2 bp variant c.817_818GC>AA in SP6, the gene encoding the SP6 transcription factor, in a Caucasian family with autosomal dominant hypoplastic AI. The resulting missense protein change, p.(Ala273Lys), is predicted to alter a DNA-binding residue in the first of three zinc fingers. SP6 has been shown to be crucial to both proliferation of the IEE and to its differentiation into ameloblasts. SP6 has also been implicated as an AI candidate gene through its study in rodent models. We investigated the effect of the missense variant in SP6 (p.(Ala273Lys)) using surface plasmon resonance protein-DNA binding studies. We identified a potential SP6 binding motif in the AMBN proximal promoter sequence and showed that wild-type (WT) SP6 binds more strongly to it than the mutant protein. We hypothesize that SP6 variants may be a very rare cause of AI due to the critical roles of SP6 in development and that the relatively mild effect of the missense variant identified in this study is sufficient to affect amelogenesis causing AI, but not so severe as to be incompatible with life. We suggest that current AI cohorts, both with autosomal recessive and dominant disease, be screened for SP6 variants.

Published

2020

7. Structural Variants Create New Topological-Associated Domains and Ectopic Retinal Enhancer-Gene Contact in Dominant Retinitis Pigmentosa

Author

Michel Michaelides, Michael E. Cheetham, Marco Aben, Alison J. Hardcastle, Hannie Kremer, Daniele Ottaviani, Stefan Mundlos, Graeme C.M. Black, Susan M Downes, Robert K. Koenekoop, Julio C. Corral-Serrano, Jordi Corominas, Gavin Arno, Andrew R. Webster, Claire E. L. Smith, Uirá Souto Melo, Carlo Rivolta, Suzanne E. de Bruijn, Chris F. Inglehearn, Raj Ramesar, L. Ingeborgh van den Born, Susanne Roosing, Christian Gilissen, Nikolas Pontikos, Musa M. Mhlanga, Jacquie Greenberg, F. Lucy Raymond, Frans P.M. Cremers, Alessia Fiorentino, Timo W. F. Mulders, Stephanie Fanucchi, Silvia Albert, Simon Mead, Lisa Roberts, Michalis Georgiou, George Rebello, Carel B. Hoyng, and Repositório da Universidade de Lisboa

Subjects

Male, Gene Expression, Enhancer RNAs, Stem cells, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Cohort Studies, chemistry.chemical_compound, Hi-C, Induced pluripotent stem cell, Child, Genetics (clinical), Genes, Dominant, 0303 health sciences, Genome, 030305 genetics & heredity, Chromosome Mapping, Nuclear Proteins, Cell Differentiation, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Cellular Reprogramming, Cell biology, Organoids, Enhancer Elements, Genetic, Ectopic expression, Retinal Cone Photoreceptor Cells, Photoreceptor precursors cells, Female, Dominant retinitis pigmentosa, Topologically associated domains, Retinitis Pigmentosa, Human, dominant retinitis pigmentosa, ectopic expression, GDPD, photoreceptor precursors cells, retinal organoids, RP17, stem cells, structural variants, topologically associated domains, whole-genome sequencing, Adult, Amino Acid Sequence, Chromosomes, Human, Pair 17, Fibroblasts, Genome, Human, Humans, Induced Pluripotent Stem Cells, Phosphoric Diester Hydrolases, Polymorphism, Genetic, Primary Cell Culture, Transcription Factors, Whole Genome Sequencing, Enhancer Elements, Biology, Chromosomes, Article, 03 medical and health sciences, Genetic, Retinitis pigmentosa, Genetics, medicine, Dominant, Polymorphism, Enhancer, Gene, Transcription factor, 030304 developmental biology, Whole-genome sequencing, Pair 17, Retinal organoids, Retinal, Cell Biology, medicine.disease, chemistry, Genes, Structural variants

Abstract

© 2020 The Authors. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/), The cause of autosomal-dominant retinitis pigmentosa (adRP), which leads to loss of vision and blindness, was investigated in families lacking a molecular diagnosis. A refined locus for adRP on Chr17q22 (RP17) was delineated through genotyping and genome sequencing, leading to the identification of structural variants (SVs) that segregate with disease. Eight different complex SVs were characterized in 22 adRP-affected families with >300 affected individuals. All RP17 SVs had breakpoints within a genomic region spanning YPEL2 to LINC01476. To investigate the mechanism of disease, we reprogrammed fibroblasts from affected individuals and controls into induced pluripotent stem cells (iPSCs) and differentiated them into photoreceptor precursor cells (PPCs) or retinal organoids (ROs). Hi-C was performed on ROs, and differential expression of regional genes and a retinal enhancer RNA at this locus was assessed by qPCR. The epigenetic landscape of the region, and Hi-C RO data, showed that YPEL2 sits within its own topologically associating domain (TAD), rich in enhancers with binding sites for retinal transcription factors. The Hi-C map of RP17 ROs revealed creation of a neo-TAD with ectopic contacts between GDPD1 and retinal enhancers, and modeling of all RP17 SVs was consistent with neo-TADs leading to ectopic retinal-specific enhancer-GDPD1 accessibility. qPCR confirmed increased expression of GDPD1 and increased expression of the retinal enhancer that enters the neo-TAD. Altered TAD structure resulting in increased retinal expression of GDPD1 is the likely convergent mechanism of disease, consistent with a dominant gain of function. Our study highlights the importance of SVs as a genomic mechanism in unsolved Mendelian diseases.

Published

2020

8. Loss-of-Function Mutations in the CFH Gene Affecting Alternatively Encoded Factor H-like 1 Protein Cause Dominant Early-Onset Macular Drusen

Author

Rachel L. Taylor, James A. Poulter, Susan M. Downes, Martin McKibbin, Kamron N. Khan, Chris F. Inglehearn, Andrew R. Webster, Alison J. Hardcastle, Michel Michaelides, Paul N. Bishop, Simon J. Clark, Graeme C. Black, Graeme Black, Georgina Hall, Stuart Ingram, Rachel Taylor, Forbes Manson, Panagiotis Sergouniotis, Andrew Webster, Alison Hardcastle, Vincent Plagnol, Nikolas Pontikos, Michael Cheetham, Gavin Arno, Alessia Fiorentino, Chris Inglehearn, Carmel Toomes, Manir Ali, Claire Smith, Kamron Khan, Susan Downes, Jing Yu, Stephanie Halford, Suzanne Broadgate, and Veronica van Heyningen

Subjects

Male, Muscle Proteins, Retinal Drusen, Drusen, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Exome sequencing, Aged, Retrospective Studies, 030304 developmental biology, Genetics, 0303 health sciences, Mutation, biology, business.industry, Intracellular Signaling Peptides and Proteins, Genetic Variation, LIM Domain Proteins, Middle Aged, Macular degeneration, medicine.disease, eye diseases, 3. Good health, Complement system, Ophthalmology, Complement Factor H, Factor H, 030221 ophthalmology & optometry, biology.protein, Female, sense organs, Haploinsufficiency, business, Complement control protein

Abstract

Purpose To characterize the molecular mechanism underpinning early-onset macular drusen (EOMD), a phenotypically severe subtype of age-related macular degeneration (AMD), in a subgroup of patients. Design Multicenter case series, in vitro experimentation, and retrospective analysis of previously reported variants. Participants Seven families with apparently autosomal dominant EOMD. Methods Patients underwent a comprehensive ophthalmic assessment. Affected individuals from families A, B, and E underwent whole exome sequencing. The probands from families C, D, F, and G underwent Sanger sequencing analysis of the complement factor H (CFH) gene. Mutant recombinant factor H like-1 (FHL-1) proteins were expressed in HEK293 cells to assess the impact on FHL-1 expression and function. Previously reported EOMD-causing variants in CFH were reviewed. Main Outcome Measures Detailed clinical phenotypes, genomic findings, in vitro characterization of mutation effect on protein function, and postulation of the pathomechanism underpinning EOMD. Results All affected participants demonstrated bilateral drusen. The earliest reported age of onset was 16 years (median, 46 years). Ultra-rare (minor allele frequency [MAF], ≤0.0001) CFH variants were identified as the cause of disease in each family: CFH c.1243del, p.(Ala415ProfsTer39) het; c.350+1G→T het; c.619+1G→A het, c.380G→A, p.(Arg127His) het; c.694C→T p.(Arg232Ter) het (identified in 2 unrelated families in this cohort); and c.1291T→A, p.(Cys431Ser). All mutations affect complement control protein domains 2 through 7, and thus are predicted to impact both FHL-1, the predominant isoform in Bruch’s membrane (BrM) of the macula, and factor H (FH). In vitro analysis of recombinant proteins FHL-1R127H, FHL-1A415f/s, and FHL-1C431S demonstrated that they are not secreted, and thus are loss-of-function proteins. Review of 29 previously reported EOMD-causing mutations found that 75.8% (22/29) impact FHL-1 and FH. In total, 86.2% (25/29) of EOMD-associated variants cause haploinsufficiency of FH or FHL-1. Conclusions Early-onset macular drusen is an underrecognized, phenotypically severe subtype of AMD. We propose that haploinsufficiency of FHL-1, the main regulator of the complement pathway in BrM, where drusen develop, is an important mechanism underpinning the development of EOMD in a number of cases. Understanding the molecular basis of EOMD will shed light on AMD pathogenesis given their pathologic similarities.

Published

2019

9. The ciliary Frizzled-like receptor Tmem67 regulates canonical Wnt/β-catenin signalling in the developing cerebellum via Hoxb5

Author

Carmel Toomes, Colin A. Johnson, Mohammed E El-Asrag, Gabrielle Wheway, Dina I. Abdelmottaleb, Subaashini Natarajan, Chris F. Inglehearn, and Zakia Abdelhamed

Subjects

0301 basic medicine, Cerebellum, Frizzled, lcsh:Medicine, Hindbrain, Biology, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Ciliogenesis, medicine, Animals, Cilia, lcsh:Science, Wnt Signaling Pathway, Cells, Cultured, beta Catenin, Homeodomain Proteins, Mice, Knockout, Multidisciplinary, Cilium, lcsh:R, Wnt signaling pathway, Membrane Proteins, medicine.disease, Cell biology, Mice, Inbred C57BL, Ciliopathy, 030104 developmental biology, medicine.anatomical_structure, nervous system, lcsh:Q, Cerebellar hypoplasia (non-human), 030217 neurology & neurosurgery, Signal Transduction

Abstract

Primary cilia defects result in a group of related pleiotropic malformation syndromes known as ciliopathies, often characterised by cerebellar developmental and foliation defects. Here, we describe the cerebellar anatomical and signalling defects in the Tmem67tm1(Dgen)/H knockout mouse. At mid-gestation, Tmem67 mutant cerebella were hypoplastic and had aberrantly high canonical Wnt/β-catenin signalling, proliferation and apoptosis. Later in development, mutant cerebellar hemispheres had severe foliation defects and inferior lobe malformation, characterized by immature Purkinje cells (PCs). Early postnatal Tmem67 mutant cerebellum had disrupted ciliogenesis and reduced responsiveness to Shh signalling. Transcriptome profiling of Tmem67 mutant cerebella identified ectopic increased expression of homeobox-type transcription factors (Hoxa5, Hoxa4, Hoxb5 and Hoxd3), normally required for early rostral hindbrain patterning. HOXB5 protein levels were increased in the inferior lobe, and increased canonical Wnt signalling, following loss of TMEM67, was dependent on HOXB5. HOXB5 occupancy at the β-catenin promoter was significantly increased by activation of canonical Wnt signalling in Tmem67−/− mutant cerebellar neurones, suggesting that increased canonical Wnt signalling following mutation or loss of TMEM67 was directly dependent on HOXB5. Our results link dysregulated expression of Hox group genes with ciliary Wnt signalling defects in the developing cerebellum, providing new mechanistic insights into ciliopathy cerebellar hypoplasia phenotypes.

Published

2019

10. Mutation screening of retinal dystrophy patients by targeted capture from tagged pooled DNAs and next generation sequencing.

Author

Christopher M Watson, Mohammed El-Asrag, David A Parry, Joanne E Morgan, Clare V Logan, Ian M Carr, Eamonn Sheridan, Ruth Charlton, Colin A Johnson, Graham Taylor, Carmel Toomes, Martin McKibbin, Chris F Inglehearn, and Manir Ali

Subjects

Medicine, Science

Abstract

Retinal dystrophies are genetically heterogeneous, resulting from mutations in over 200 genes. Prior to the development of massively parallel sequencing, comprehensive genetic screening was unobtainable for most patients. Identifying the causative genetic mutation facilitates genetic counselling, carrier testing and prenatal/pre-implantation diagnosis, and often leads to a clearer prognosis. In addition, in a proportion of cases, when the mutation is known treatment can be optimised and patients are eligible for enrolment into clinical trials for gene-specific therapies.Patient genomic DNA was sheared, tagged and pooled in batches of four samples, prior to targeted capture and next generation sequencing. The enrichment reagent was designed against genes listed on the RetNet database (July 2010). Sequence data were aligned to the human genome and variants were filtered to identify potential pathogenic mutations. These were confirmed by Sanger sequencing.Molecular analysis of 20 DNAs from retinal dystrophy patients identified likely pathogenic mutations in 12 cases, many of them known and/or confirmed by segregation. These included previously described mutations in ABCA4 (c.6088C>T,p.R2030*; c.5882G>A,p.G1961E), BBS2 (c.1895G>C,p.R632P), GUCY2D (c.2512C>T,p.R838C), PROM1 (c.1117C>T,p.R373C), RDH12 (c.601T>C,p.C201R; c.506G>A,p.R169Q), RPGRIP1 (c.3565C>T,p.R1189*) and SPATA7 (c.253C>T,p.R85*) and new mutations in ABCA4 (c.3328+1G>C), CRB1 (c.2832_2842+23del), RP2 (c.884-1G>T) and USH2A (c.12874A>G,p.N4292D).Tagging and pooling DNA prior to targeted capture of known retinal dystrophy genes identified mutations in 60% of cases. This relatively high success rate may reflect enrichment for consanguineous cases in the local Yorkshire population, and the use of multiplex families. Nevertheless this is a promising high throughput approach to retinal dystrophy diagnostics.

Published

2014

11. New variants and in silico analyses in GRK1 associated Oguchi disease

Author

James A. Poulter, Elfride De Baere, Kaoru Fujinami, Andrew R. Webster, Atta Ur Rehman, Gavin Arno, Abdur Rehman, Rachel L. Taylor, Sarah A. Harris, Graeme C.M. Black, James Bellingham, Julie De Zaeytijd, Martin McKibbin, Chris F. Inglehearn, Molly S. C. Gravett, Kamron N. Khan, Muhammad Ansar, Takaaki Hayashi, Robert H. Henderson, Manir Ali, Nigel P. Davies, Dan Donnelly, Mineo Kondo, Omar A. Mahroo, Carmel Toomes, Bart P. Leroy, Carlo Rivolta, and UK Inherited Retinal Disease Consortium, Genomics England Research Consortium

Subjects

MECHANISM, G-Protein-Coupled Receptor Kinase 1, In silico, PROTEIN, GRK1, PHOTOTRANSDUCTION, Disease, Biology, Genome, ACTIVATION, 03 medical and health sciences, Night Blindness, Medicine and Health Sciences, Genetics, medicine, Missense mutation, Humans, Genetics(clinical), CSNB, MUTATION, Exome, Genetics (clinical), Exome sequencing, Research Articles, 030304 developmental biology, 0303 health sciences, DELETION, Oguchi disease, 030305 genetics & heredity, Eye Diseases, Hereditary, DEFECTS, Eye Diseases, Hereditary/genetics, G-Protein-Coupled Receptor Kinase 1/genetics, Night Blindness/genetics, rhodopsin, medicine.disease, genomic DNA, RHODOPSIN KINASE GENE, FORM, PATHOGENICITY, Research Article

Abstract

Biallelic mutations in G‐Protein coupled receptor kinase 1 (GRK1) cause Oguchi disease, a rare subtype of congenital stationary night blindness (CSNB). The purpose of this study was to identify disease causing GRK1 variants and use in‐depth bioinformatic analyses to evaluate how their impact on protein structure could lead to pathogenicity. Patients’ genomic DNA was sequenced by whole genome, whole exome or focused exome sequencing. Disease associated variants, published and novel, were compared to nondisease associated missense variants. The impact of GRK1 missense variants at the protein level were then predicted using a series of computational tools. We identified twelve previously unpublished cases with biallelic disease associated GRK1 variants, including eight novel variants, and reviewed all GRK1 disease associated variants. Further structure‐based scoring revealed a hotspot for missense variants in the kinase domain. In addition, to aid future clinical interpretation, we identified the bioinformatics tools best able to differentiate disease associated from nondisease associated variants. We identified GRK1 variants in Oguchi disease patients and investigated how disease‐causing variants may impede protein function in‐silico., In this study, Poulter et al. expand the number of mutations in Rhodopsin Kinase (GRK1), associated with Oguchi disease, from 13 to 21. The authors compare disease associated mutations with likely nonpathogenic variants in a range of bioinformatic prediction software. In silico analyses of the mutations, using a homology model, suggest mutations result in one of three potential mechanisms of disease: loss of protein, loss of kinase function or a failure of prenylation leading to mislocalisation of the protein.

Published

2020

12. Spectrum of pathogenic variants and multiple founder effects in amelogenesis imperfecta associated with MMP20

Author

Suhaila Al-Bahlani, Francesca Soldani, Alan J. Mighell, Sarah A. Harris, Chris F. Inglehearn, Sandra Silva, Catriona J. Brown, Peter F. Day, Mary J. O'Connell, James A. Poulter, Claire E. L. Smith, Georgios Nikolopoulos, and Gina Murillo

Subjects

Genetics, MMP20, Haplotype, Biology, Compound heterozygosity, medicine.disease, symbols.namesake, Mendelian inheritance, symbols, medicine, Amelogenesis imperfecta, Leiden Open Variation Database, Exome sequencing, Founder effect

Abstract

Amelogenesis imperfecta (AI) describes a heterogeneous group of developmental enamel defects that typically have Mendelian inheritance. Exome sequencing of ten families with recessive hypomaturation AI revealed 4 novel and 1 known variants in the matrix metallopeptidase 20 (MMP20) gene that were predicted to be pathogenic. MMP20 encodes a protease that cleaves the developing extracellular enamel matrix and is necessary for normal enamel crystal growth during amelogenesis. New homozygous missense changes were shared between four families of Pakistani heritage (c.625G>C; p.(E209Q)) and two of Omani origin (c.710C>A; p.(S237Y)). In two families of UK origin and one from Costa Rica, affected individuals were homozygous for the previously reported c.954-2A>T; p.(I319Ffs*19) variant. For each of these variants, microsatellite haplotypes appeared to exclude a recent founder effect, but elements of haplotype were conserved, suggesting more distant founding ancestors. New compound heterozygous changes were identified in one family of European heritage; c.809_811+12delACGgtaagattattainsCCAG; p.(?) and c.1122A>C; p.(Q374H). All four new variants are within the zinc dependant peptidase domain. This report further elucidates the mutation spectrum of MMP20 and the probable impact on protein function, confirms a consistent hypomaturation phenotype and shows that mutations in MMP20 are a common cause of autosomal recessive AI in some communities.Data AvailabilityThe data that support the findings of this study are openly available in ClinVar at https://www.ncbi.nlm.nih.gov/clinvar/, accession numbers: SCV001338799 - SCV001338802 and in the AI Leiden Open Variation Database (LOVD) at http://dna2.leeds.ac.uk/LOVD/ with reference numbers: 0000000313 – 0000000317.

Published

2020

13. New pathogenic variants and insights into pathogenic mechanisms in GRK1-related Oguchi disease

Author

Chris F. Inglehearn, Nigel P. Davies, Gavin Arno, Robert H. Henderson, Kamron N. Khan, Rachel L. Taylor, Omar A. Mahroo, James Bellingham, Manir Ali, James A. Poulter, Molly S. C. Gravett, Elfride De Baere, Dan Donnelly, Atta Ur Rehman, Abdur Rehman, Carlo Rivolta, Kaoru Fujinami, Graeme C.M. Black, Julie De Zaeytijd, Mineo Kondo, Sarah A. Harris, Martin McKibbin, Andrew R. Webster, Takaaki Hayashi, Muhammad Ansar, Bart P. Leroy, and Carmel Toomes

Subjects

Genetics, 0303 health sciences, Oguchi disease, Biology, medicine.disease, Genome, 3. Good health, 03 medical and health sciences, genomic DNA, 0302 clinical medicine, 030221 ophthalmology & optometry, medicine, Missense mutation, Leiden Open Variation Database, Exome, Gene, Exome sequencing, 030304 developmental biology

Abstract

PurposeBiallelic mutations in G-Protein coupled receptor kinase 1 (GRK1) cause Oguchi disease, a rare subtype of congenital stationary night blindness (CSNB). The purpose of this study was to identify pathogenic GRK1 variants and use in-depth bioinformatic analyses to evaluate how their impact on protein structure could lead to pathogenicity.MethodsPatients’ genomic DNA was sequenced by whole genome, whole exome or focused exome sequencing. Pathogenic variants, published and novel, were compared to nondisease associated missense variants. The impact of GRK1 missense variants at the protein level were then predicted using a series of computational tools.ResultsWe identified eleven previously unpublished cases with biallelic pathogenic GRK1 variants, including seven novel variants, and reviewed all GRK1 pathogenic variants. Further structure-based scoring revealed a hotspot for missense variants in the kinase domain. Additionally, to aid future clinical interpretation, we identified the bioinformatics tools best able to differentiate pathogenic from non-pathogenic variants.ConclusionWe identified new GRK1 pathogenic variants in Oguchi disease patients and investigated how disease-causing variants may impede protein function, giving new insights into the mechanisms of pathogenicity. All pathogenic GRK1 variants described to date have been collated into a Leiden Open Variation Database (http://dna2.leeds.ac.uk/GRK1_LOVD/genes/GRK1).

Published

2020

14. Author response for 'New missense variants in RELT causing hypomineralised amelogenesis imperfecta'

Author

Mary J. O'Connell, Georgios Nikolopoulos, Chris F. Inglehearn, Steven J. Brookes, Catriona J. Brown, Anesha Patel, Claire E. L. Smith, Mohammed E El-Asrag, Alan J. Mighell, and Gina Murillo

Subjects

Genetics, business.industry, RELT, Missense mutation, Medicine, Amelogenesis imperfecta, business, medicine.disease

Published

2020

15. New missense variants in RELT causing hypomineralised amelogenesis imperfecta

Author

Anesha Patel, Mary J. O'Connell, Mohammed E El-Asrag, Catriona J. Brown, Claire E. L. Smith, Chris F. Inglehearn, Gina Murillo, Alan J. Mighell, Georgios Nikolopoulos, and Steven J. Brookes

Subjects

0301 basic medicine, Male, Amelogenesis Imperfecta, Mutation, Missense, 030105 genetics & heredity, Biology, Receptors, Tumor Necrosis Factor, 03 medical and health sciences, Exon, Genetics, RELT, medicine, Missense mutation, Humans, Amelogenesis imperfecta, Genetic Predisposition to Disease, Genotyping, Gene, Tooth Demineralization, Genetics (clinical), Tumor Necrosis Factor-alpha, tumour necrosis factor receptor, Haplotype, Homozygote, enamel, Exons, Original Articles, medicine.disease, Phenotype, Pedigree, 030104 developmental biology, Female, Original Article

Abstract

Amelogenesis imperfecta (AI) is a heterogeneous group of genetic diseases characterised by dental enamel malformation. Pathogenic variants in at least 33 genes cause syndromic or non‐syndromic AI. Recently variants in RELT, encoding an orphan receptor in the tumour necrosis factor (TNF) superfamily, were found to cause recessive AI, as part of a syndrome encompassing small stature and severe childhood infections. Here we describe four additional families with autosomal recessive hypomineralised AI due to previously unreported homozygous mutations in RELT. Three families carried a homozygous missense variant in the fourth exon (c.164C>T, p.(T55I)) and a fourth family carried a homozygous missense variant in the 11th exon (c.1264C>T, p.(R422W)). We found no evidence of additional syndromic symptoms in affected individuals. Analyses of tooth microstructure with computerised tomography and scanning electron microscopy suggest a role for RELT in ameloblasts' coordination and interaction with the enamel matrix. Microsatellite genotyping in families segregating the T55I variant reveals a shared founder haplotype. These findings extend the RELT pathogenic variant spectrum, reveal a founder mutation in the UK Pakistani population and provide detailed analysis of human teeth affected by this hypomineralised phenotype, but do not support a possible syndromic presentation in all those with RELT‐variant associated AI.

Published

2020

16. Novel DLX3 variants in amelogenesis imperfecta with attenuated tricho‐dento‐osseous syndrome

Author

Caroline Brown, Claire E. L. Smith, Rowena E. Mitchell, Elizabeth O’Sullivan, Laura L. E. Whitehouse, Lucy Brown, Ian R. Berry, Chris F. Inglehearn, Teresa Lamb, Alan J. Mighell, James A. Poulter, Ruth Charlton, and Anup Patel

Subjects

Male, Taurodontism, Amelogenesis Imperfecta, Biology, Tricho-Dento-Osseous Syndrome, Craniofacial Abnormalities, 03 medical and health sciences, 0302 clinical medicine, trico‐dento‐osseous syndrome, medicine, Humans, Amelogenesis imperfecta, General Dentistry, Gene, Exome sequencing, DLX3, Genetic testing, Genetics, Homeodomain Proteins, medicine.diagnostic_test, enamel, 030206 dentistry, medicine.disease, Phenotype, 3. Good health, Pedigree, Bone and Hard Tissues, Otorhinolaryngology, 030220 oncology & carcinogenesis, Original Article, Dental Enamel Hypoplasia, Female, Hair Diseases, Transcription Factors

Abstract

Objectives: Variants in DLX3 cause tricho‐dento‐osseous syndrome (TDO, MIM #190320), a systemic condition with hair, nail and bony changes, taurodontism and amelogenesis imperfecta (AI), inherited in an autosomal dominant fashion. Different variants found within this gene are associated with different phenotypic presentations. To date, six different DLX3 variants have been reported in TDO. The aim of this paper was to explore and discuss three recently uncovered new variants in DLX3. Subjects and Methods: Whole‐exome sequencing identified a new DLX3 variant in one family, recruited as part of an ongoing study of genetic variants associated with AI. Targeted clinical exome sequencing of two further families revealed another new variant of DLX3 and complete heterozygous deletion of DLX3. For all three families, the phenotypes were shown to consist of AI and taurodontism, together with other attenuated features of TDO. Results: c.574delG p.(E192Rfs*66), c.476G>T (p.R159L) and a heterozygous deletion of the entire DLX3 coding region were identified in our families. Conclusion: These previously unreported variants add to the growing literature surrounding AI, allowing for more accurate genetic testing and better understanding of the associated clinical consequences.

Published

2018

17. Ophthalmic manifestations of Heimler syndrome due to PEX6 mutations

Author

Jenina E. Capasso, Waleed Abed Alnabi, Mai Tsukikawa, Reuven Sharony, Avrey Thau, Chris F. Inglehearn, Nutsuchar Wangtiraumnuay, and Alex V. Levin

Subjects

Male, 0301 basic medicine, medicine.medical_specialty, Eye Diseases, genetic structures, Amelogenesis Imperfecta, Hearing Loss, Sensorineural, Nails, Malformed, medicine.disease_cause, 03 medical and health sciences, medicine, Humans, Amelogenesis imperfecta, Child, Genetics (clinical), Heimler syndrome, Retrospective Studies, Mutation, business.industry, Pigmentary retinal dystrophy, Macular dystrophy, Prognosis, medicine.disease, Dermatology, eye diseases, Ophthalmology, 030104 developmental biology, Pediatrics, Perinatology and Child Health, ATPases Associated with Diverse Cellular Activities, PEX1, sense organs, business, PEX6

Abstract

Pigmentary retinal dystrophy and macular dystrophy have been previously reported in Heimler syndrome due to mutations in PEX1. Here we reported the ocular manifestations in Heimler syndrome due to mutations in PEX6.Medical records were reviewed to identify patient demographics, ophthalmic and systemic findings, and results of diagnostic testing including whole genome sequencing.Patient 1 is 12-year-old boy with a novel mutation c.275TG (p.Val92Gly) and known mutation c.1802GA (p.Arg601Gln) in PEX6. Patient 2 is a 7-year-old girl with the same known c.1802GA (p.Arg601Gln) mutation and another novel missense mutation c.296GT (p.Arg99Leu). Both patients exhibited a pigmentary retinopathy. Visual acuity in patient 1 was 20/80 and 20/25 following treatment of intraretinal cystoid spaces with carbonic anhydrase inhibitors, while patient 2 had visual acuity of 20/20 in both eyes without intraretinal cysts. Fundus autofluorescence showed a multitude of hyperfluorescent deposits in the paramacular area of both eyes. OCTs revealed significant depletion of photoreceptors in both patients and macular intraretinal cystoid spaces in one patient. Full field electroretinograms showed normal or abnormal photopic but normal scotopic responses. Multifocal electroretinograms were abnormal.Heimler syndrome due to biallelic PEX6 mutations demonstrates a macular dystrophy with characteristic fundus autofluorescence and may be complicated by intraretinal cystoid spaces.

Published

2018

18. NOVEL DLX3 VARIANTS IN AMELOGENESIS IMPERFECTA WITH ATTENUATED TRICHO-DENTO-OSSEOUS SYNDROME

Author

Alan J. Mighell, Teresa Lamb, Rowena E. Mitchell, Anup Patel, Elizabeth O’Sullivan, Chris F. Inglehearn, James A. Poulter, Caroline Brown, Lucy Brown, Claire E. L. Smith, Ian R. Berry, Ruth Charlton, and Laura L. E. Whitehouse

Subjects

Genetics, Taurodontism, medicine.diagnostic_test, business.industry, DLX3, medicine.disease, Phenotype, Pathology and Forensic Medicine, Tricho-Dento-Osseous Syndrome, medicine, Radiology, Nuclear Medicine and imaging, Dentistry (miscellaneous), Surgery, Amelogenesis imperfecta, Oral Surgery, business, Gene, Exome sequencing, Genetic testing

Abstract

Background Variants in DLX3 cause tricho-dento-osseous syndrome (TDO; MIM accession no. 190320), a systemic condition with hair, nail, and bony changes, taurodontism, and amelogenesis imperfecta (AI) inherited in an autosomal dominant fashion. Different variants found within this gene are associated with different phenotypic presentations. To date, 6 different DLX3 variants have been reported in TDO. The aim of this paper is to explore and discuss 3 recently uncovered new variants in DLX3 and their resulting phenotypes. Objective To identify new variants associated with AI to increase the accuracy of genetic testing and elucidate the roles and functions of genes involved in amelogenesis. In this study, 3 new variants within DLX3 were identified as being associated with AI. Methods Whole-exome sequencing identified a new DLX3 variant in one family recruited as part of an ongoing study of genetic variants associated with AI. Targeted clinical exome sequencing of 2 further families revealed another new variant of DLX3 and a complete heterozygous deletion of DLX3. For all 3 families, the phenotypes consisted of AI and taurodontism, together with other attenuated features of TDO. Conclusions c.574delG p.(E192Rfs*66), c.476G>T (p.R159L), and a heterozygous deletion of the entire DLX3 coding region were identified in the families studied. These previously unreported variants add to the growing literature surrounding AI, allowing more accurate genetic testing and better understanding of the associated clinical consequences.

Published

2021

19. Defects in the Cell Signaling Mediator beta-Catenin Cause the Retinal Vascular Condition FEVR

Author

Dyah W Karjosukarso, Mark E. Tafoya, James A. Poulter, Denisa Dzulova, Hiroyuki Kondo, Chris F. Inglehearn, Evangelia S Panagiotou, Manir Ali, Rob W.J. Collin, Joanne Topping, Atsushi Hiyoshi, Brian H.Y. Chung, Carmel Toomes, Yoyo W. Y. Chu, Connie Lai, Carla Sanjurjo Soriano, Emma C. Lord, and Louise Downey

Subjects

Male, 0301 basic medicine, Heterozygote, Receptor complex, Cell signaling, Transcription, Genetic, FZD4, Familial Exudative Vitreoretinopathies, Biology, Models, Biological, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], 03 medical and health sciences, Retinal Diseases, Report, Genetics, medicine, Humans, Luciferases, Gene, beta Catenin, Genetics (clinical), Base Sequence, Eye Diseases, Hereditary, LRP5, medicine.disease, Phenotype, Pedigree, 030104 developmental biology, TSPAN12, Mutation, Familial exudative vitreoretinopathy, Female, Mutant Proteins, Signal Transduction

Abstract

Contains fulltext : 174538.pdf (Publisher’s version ) (Closed access) Familial exudative vitreoretinopathy (FEVR) is an inherited blinding disorder characterized by the abnormal development of the retinal vasculature. The majority of mutations identified in FEVR are found within four genes that encode the receptor complex (FZD4, LRP5, and TSPAN12) and ligand (NDP) of a molecular pathway that controls angiogenesis, the Norrin-beta-catenin signaling pathway. However, half of all FEVR-affected case subjects do not harbor mutations in these genes, indicating that further mutated genes remain to be identified. Here we report the identification of mutations in CTNNB1, the gene encoding beta-catenin, as a cause of FEVR. We describe heterozygous mutations (c.2142_2157dup [p.His720 *] and c.2128C>T [p.Arg710Cys]) in two dominant FEVR-affected families and a de novo mutation (c.1434_1435insC [p.Glu479Argfs *18]) in a simplex case subject. Previous studies have reported heterozygous de novo CTNNB1 mutations as a cause of syndromic intellectual disability (ID) and autism spectrum disorder, and somatic mutations are linked to many cancers. However, in this study we show that Mendelian inherited CTNNB1 mutations can cause non-syndromic FEVR and that FEVR can be a part of the syndromic ID phenotype, further establishing the role that beta-catenin signaling plays in the development of the retinal vasculature.

Published

2017

20. Risk of Psychosis in Yorkshire South Asians

Author

Chris F. Inglehearn, Majid M. Saleem, Mark Garnham, Catherine Ding, Julie Robinson, Tariq Mahmood, Qadeer Nazar, Prakash Hosalli, Alastair G. Cardno, Jamshid Nazari, and Anita Brewin

Subjects

location.dated_location, education.field_of_study, Psychosis, West Yorkshire, South asia, business.industry, Population, Ethnic group, Census, Lower risk, medicine.disease, 030227 psychiatry, 03 medical and health sciences, Psychiatry and Mental health, location, 0302 clinical medicine, Medicine, Pshychiatric Mental Health, Risk factor, education, business, 030217 neurology & neurosurgery, Demography

Abstract

Background: Migration is a risk factor for psychoses but risks within the large South Asian communities of West Yorkshire are not known. Aim: To estimate the risk of psychosis in the Pakistani, Bangladeshi and Indian populations in West Yorkshire as compared with British White population. Method: We used data from Early Intervention for Psychosis services on 15–35 year-olds diagnosed with first episode psychosis in 2013–2015 and local census data to calculate risks. Results: Compared with the British White population, the Pakistani population had a significantly higher risk of first episode psychosis (RR 1.31, 95% CI 1.09, 1.58). The smaller Bangladeshi population showed a similar, but non-significant, trend (RR 1.50, 95% CI 0.89, 2.53). In contrast, the Indian population had a significantly lower risk (RR 0.51, 95% CI 0.33, 0.79). Conclusion: Variable risk of psychosis among south Asian ethnic groups in West Yorkshire needs further research.

Published

2019

21. Biallelic sequence and structural variants in RAX2 are a novel cause for autosomal recessive inherited retinal disease

Author

Julien Derolez, Hannah Verdin, Carmen Ayuso, Frauke Coppieters, Marta Corton, Frank Peelman, Marianthi Karali, Francesca Simonelli, Thalia Van Laethem, Kamron N. Khan, Julie De Zaeytijd, Jenneke van den Ende, Belen Jimenez, Sandro Banfi, Manir Ali, Francesco Testa, Elfride De Baere, Claire E. L. Smith, Martin McKibbin, Annalaura Torella, Timothy J. Cherry, Bart P. Leroy, Carmel Toomes, Chris F. Inglehearn, Toon Rosseel, Kristof Van Schil, Stijn Van De Sompele, Van de Sompele, Stijn, Smith, Claire, Karali, Marianthi, Corton, Marta, Van Schil, Kristof, Peelman, Frank, Cherry, Timothy, Rosseel, Toon, Verdin, Hannah, Derolez, Julien, Van Laethem, Thalia, Khan, Kamron N., Mckibbin, Martin, Toomes, Carmel, Ali, Manir, Torella, Annalaura, Testa, Francesco, Jimenez, Belen, Simonelli, Francesca, De Zaeytijd, Julie, Van den Ende, Jenneke, Leroy, Bart P., Coppieters, Frauke, Ayuso, Carmen, Inglehearn, Chris F., Banfi, Sandro, and De Baere, Elfride

Subjects

0301 basic medicine, EXPRESSION, CRX, PROTEIN, Disease, 030105 genetics & heredity, Biology, 03 medical and health sciences, chemistry.chemical_compound, retinitis pigmentosa, Retinitis pigmentosa, medicine, Medicine and Health Sciences, Genetics (clinical), Loss function, Sequence (medicine), HOMEOBOX GENE [novel ARRP gene KeyWords Plus], Genetics, MUTATIONS, novel ARRP gene, Biology and Life Sciences, Retinal, RAX2, medicine.disease, 030104 developmental biology, chemistry, loss of function, homeobox-containing transcription factor, Human medicine, NRL

Abstract

Purpose: RAX2 encodes a homeobox-containing transcription factor, in which four monoallelic pathogenic variants have been described in autosomal dominant cone-dominated retinal disease. Methods: Exome sequencing in a European cohort with inherited retinal disease (IRD) (n = 2086) was combined with protein structure modeling of RAX2 missense variants, bioinformatics analysis of deletion breakpoints, haplotyping of RAX2 variant c.335dup, and clinical assessment of biallelic RAX2-positive cases and carrier family members. Results: Biallelic RAX2 sequence and structural variants were found in five unrelated European index cases, displaying nonsyndromic autosomal recessive retinitis pigmentosa (ARRP) with an age of onset ranging from childhood to the mid-40s (average mid-30s). Protein structure modeling points to loss of function of the novel recessive missense variants and to a dominant-negative effect of the reported dominant RAX2 alleles. Structural variants were fine-mapped to disentangle their underlying mechanisms. Haplotyping of c.335dup in two cases suggests a common ancestry. Conclusion: This study supports a role for RAX2 as a novel disease gene for recessive IRD, broadening the mutation spectrum from sequence to structural variants and revealing a founder effect. The identification of biallelic RAX2 pathogenic variants in five unrelated families shows that RAX2 loss of function may be a nonnegligible cause of IRD in unsolved ARRP cases. Purpose: RAX2 encodes a homeobox-containing transcription factor, in which four monoallelic pathogenic variants have been described in autosomal dominant cone-dominated retinal disease. Methods: Exome sequencing in a European cohort with inherited retinal disease (IRD) (n = 2086) was combined with protein structure modeling of RAX2 missense variants, bioinformatics analysis of deletion breakpoints, haplotyping of RAX2 variant c.335dup, and clinical assessment of biallelic RAX2-positive cases and carrier family members. Results: Biallelic RAX2 sequence and structural variants were found in five unrelated European index cases, displaying nonsyndromic autosomal recessive retinitis pigmentosa (ARRP) with an age of onset ranging from childhood to the mid-40s (average mid-30s). Protein structure modeling points to loss of function of the novel recessive missense variants and to a dominant-negative effect of the reported dominant RAX2 alleles. Structural variants were fine-mapped to disentangle their underlying mechanisms. Haplotyping of c.335dup in two cases suggests a common ancestry. Conclusion: This study supports a role for RAX2 as a novel disease gene for recessive IRD, broadening the mutation spectrum from sequence to structural variants and revealing a founder effect. The identification of biallelic RAX2 pathogenic variants in five unrelated families shows that RAX2 loss of function may be a nonnegligible cause of IRD in unsolved ARRP cases.

Published

2019

22. Matrix metalloproteinases in keratoconus - Too much of a good thing?

Author

Manir Ali, Erica di Martino, and Chris F. Inglehearn

Subjects

0301 basic medicine, Keratoconus, Proteases, Inflammation, Matrix metalloproteinase, Extracellular matrix, Cornea, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Downregulation and upregulation, medicine, Humans, business.industry, medicine.disease, eye diseases, Sensory Systems, Matrix Metalloproteinases, Cell biology, Up-Regulation, Contact lens, Ophthalmology, 030104 developmental biology, medicine.anatomical_structure, Tears, 030221 ophthalmology & optometry, sense organs, medicine.symptom, business

Abstract

Keratoconus (KC) is a progressive, early onset, and often bilateral eye condition, in which the cornea gradually weakens and bulges out, and in advanced cases may eventually become cone shaped. The available evidence suggests that it is a multifactorial disease with environmental and genetic contributions. Matrix Metalloproteinases (MMPs) are a family of 24 zinc-dependent proteases with the ability to degrade collagen and other extracellular matrix (ECM) proteins, which are important components of the cornea. During the past two decades a growing body of evidence has accumulated suggesting a link between MMPs and keratoconus. This article aims to summarize the published literature on the role of MMPs in the pathogenesis of KC. MMP-driven ECM remodelling is thought to be a necessary step for cornea healing, but a fine balance in the expression of MMPs is essential in maintaining the integrity and transparency of the cornea and for its correct healing, and an imbalance in this tightly regulated process may, in the long term, result in the progressive weakening of the cornea. There is extensive evidence that MMPs are upregulated in the corneal tissue and tears of KC patients, implicating dysregulated proteolysis in KC, with an increase in the level of some MMPs, particularly MMP-1 and MMP-9, confirmed in multiple independent studies. There is also evidence for a causative link between inflammation, which could result from the mechanical trauma due to contact lens wearing or/and eye rubbing, and the increased MMP production observed in KC. However, the precise role of specific MMPs in the cornea is still unclear and the mechanisms causing their upregulation are mostly undiscovered. Further studies are required to verify the functional role of specific MMPs in KC development and assess the genetic association between common MMP variants and risk of KC. As MMP inhibitors are in development, this information could potentially drive the discovery of new treatments for KC.

Published

2018

23. LHFPL5 mutation: A rare cause of non-syndromic autosomal recessive hearing loss

Author

Manir Ali, Khalsa Al Lamki, Mohammed E El-Asrag, Ahlam Gabr, Chris F. Inglehearn, Mazin Al Khabouri, Mohammed Al-Kindi, Ahmed H Al-Amri, Ahmed B. Idris, Nadia Al Wardy, Steven J. Clapcote, Abeer Al Saegh, and Watfa Al-Mamari

Subjects

Male, Hearing loss, Population, Mutation, Missense, Biology, Deafness, symbols.namesake, otorhinolaryngologic diseases, Genetics, medicine, Humans, education, Child, Gene, Genetics (clinical), Exome sequencing, Sanger sequencing, education.field_of_study, Siblings, Homozygote, Membrane Proteins, General Medicine, Disease gene identification, Child, Preschool, Mutation (genetic algorithm), symbols, medicine.symptom, Non syndromic

Abstract

Hearing loss is a debilitating disorder that impairs language acquisition, resulting in disability in children and potential isolation in adulthood. Its onset can have a genetic basis, though environmental factors, which are often preventable, can also cause the condition. The genetic forms are highly heterogeneous, and early detection is necessary to arrange appropriate patient support. Here we report the molecular basis of hereditary hearing loss in a consanguineous family with multiple affected members from Oman. Combining homozygosity mapping with whole exome sequencing identified a novel homozygous nucleotide substitution c.575T > C in the lipoma HMGIC fusion partner-like 5 gene (LHFPL5), that converted the 192nd amino acid residue in the protein from a leucine to a proline, p.(Leu192Pro). Sanger sequencing confirmed segregation with the disease phenotype as expected for a recessive condition and the variant was absent in 123,490 subjects from various disease-specific and population genetic studies as well as 150 unrelated individuals and 35 deaf patients of Omani ethnicity. This study, which describes a novel LHFPL5 mutation in a family of Omani origin with hereditary hearing loss, supports previous clinical descriptions of the condition and contributes to the genetic spectrum of mutations in this form of deafness.

Published

2018

24. Association of Genetic Variants With Response to Anti-Vascular Endothelial Growth Factor Therapy in Age-Related Macular Degeneration

Author

Reinier O. Schlingemann, Angela J. Cree, Amer Omar, Richard Gale, Usha Chakravarthy, Itay Chowers, Carel B. Hoyng, Helen Griffiths, Moeen Riaz, Magda A. Meester-Smoor, Philipp S. Muether, Robyn H. Guymer, Marc Pauper, Martin McKibbin, Sascha Fauser, Freekje van Asten, Manir Ali, Robert K. Koenekoop, Eiko K. de Jong, Marie-Claude Belanger, Laura Lorés-Motta, Iris M. Heid, Andrea J. Richardson, Mathieu Leenders, Paul Mitchell, Jordi Corominas, Lars G. Fritsche, Michelle Grunin, Paul N. Baird, Chris F. Inglehearn, Andrew J. Lotery, Anneke I. den Hollander, John C. Chen, Connie Pham, Ophthalmology, ACS - Atherosclerosis & ischemic syndromes, ANS - Cellular & Molecular Mechanisms, and Netherlands Institute for Neuroscience (NIN)

Subjects

Male, Vascular Endothelial Growth Factor A, 0301 basic medicine, medicine.medical_specialty, Genotyping Techniques, Bevacizumab, Visual Acuity, Angiogenesis Inhibitors, Genome-wide association study, Subgroup analysis, Polymorphism, Single Nucleotide, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Open Reading Frames, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, 0302 clinical medicine, Ranibizumab, Internal medicine, Journal Article, medicine, Humans, Aged, Chromosomes, Human, Pair 10, business.industry, Genetic Variation, Membrane Transport Proteins, Diabetic retinopathy, Middle Aged, Macular degeneration, medicine.disease, Choroidal Neovascularization, 3. Good health, Ophthalmology, 030104 developmental biology, Pharmacogenetics, Intravitreal Injections, Cohort, Wet Macular Degeneration, 030221 ophthalmology & optometry, Female, business, Genome-Wide Association Study, medicine.drug

Abstract

IMPORTANCE: Visual acuity (VA) outcomes differ considerably among patients with neovascular age-related macular degeneration (nAMD) treated with anti-vascular endothelial growth factor (VEGF) drugs. Identification of pharmacogenetic associations may help clinicians understand the mechanisms underlying this variability as well as pave the way for personalized treatment in nAMD. OBJECTIVE: To identify genetic factors associated with variability in the response to anti-VEGF therapy for patients with nAMD. DESIGN, SETTING, AND PARTICIPANTS:: In this multicenter genome-wide association study, 678 patients with nAMD with genome-wide genotyping data were included in the discovery phase; 1380 additional patients with nAMD were genotyped for selected common variants in the replication phase. All participants received 3 monthly injections of bevacizumab or ranibizumab. Clinical data were evaluated for inclusion/exclusion criteria from October 2014 to October 2015, followed by data analysis from October 2015 to February 2016. For replication cohort genotyping, clinical data collection and analysis (including meta-analysis) was performed from March 2016 to April 2017. MAIN OUTCOMES AND MEASURES: Change in VA after the loading dose of 3 monthly anti-VEGF injections compared with baseline. RESULTS: Of the 2058 included patients, 1210 (58.8%) were women, and the mean (SD) age across all cohorts was 78 (7.4) years. Patients included in the discovery cohort and most of the patients in the replication cohorts were of European descent. The mean (SD) baseline VA was 51.3 (20.3) Early Treatment Diabetic Retinopathy Study (ETDRS) score letters, and the mean (SD) change in VA after the loading dose of 3 monthly injections was a gain of 5.1 (13.9) ETDRS score letters (ie, 1-line gain). Genome-wide single-variant analyses of common variants revealed 5 independent loci that reached a P value less than 10 × 10−5. After replication and meta-analysis of the lead variants, rs12138564 located in the CCT3 gene remained nominally associated with a better treatment outcome (ETDRS letter gain, 1.7; β, 0.034; SE, 0.008; P = 1.38 × 10−5). Genome-wide gene-based optimal unified sequence kernel association test of rare variants showed genome-wide significant associations for the C10orf88 (P = 4.22 × 10−7) and UNC93B1 (P = 6.09 × 10−7) genes, in both cases leading to a worse treatment outcome. Patients carrying rare variants in the C10orf88 and UNC93B1 genes lost a mean (SD) VA of 30.6 (17.4) ETDRS: score letters (ie, loss of 6.09 lines) and 26.5 (13.8) ETDRS score letters (ie, loss of 5.29 lines), respectively, after 3 months of anti-VEGF treatment. CONCLUSIONS AND RELEVANCE: We propose that there is a limited contribution of common genetic variants to variability in nAMD treatment response. Our results suggest that rare protein-altering variants in the C10orf88 and UNC93B1 genes are associated with a worse response to anti-VEGF therapy in patients with nAMD, but these results require further validation in other cohorts.

Published

2018

25. Human iPSC-Derived RPE and Retinal Organoids Reveal Impaired Alternative Splicing of Genes Involved in Pre-mRNA Splicing in PRPF31 Autosomal Dominant Retinitis Pigmentosa Type 11

Author

Sushma Nagaraja Grellscheid, Colin A. Johnson, Yuchun Ding, Lyle Armstrong, Alastair Droop, Sudeep Mehrotr, Git Chung, Revital Bronstei, Chris F. Inglehearn, Katarzyna Szymanska, Jumana Y. Al-Aama, Kathryn White, Valeria Chichagova, David H. Steel, Robin R Ali, Dean Hallam, Martin McKibbin, Lili Zhu, Adriana Buskin, Eric A. Pierce, Majlinda Lako, Yaobo Xu, Stefan Przyborski, Reinhard Lührmann, Michael H. Farkas, Sameer E. Al-Harthi, Carla Mellough, Sina Mozaffari-Jovin, Gabrielle Wheway, David J. Elliott, David Dolan, Gerrit Hilgen, Basudha Basu, Susan Lindsay, Natalio Krasnogor, Katarzyna Bialas, Evelyne Sernagor, and Joseph Colli

Subjects

PRPF31, Retinal pigment epithelium, Cilium, Alternative splicing, Retinal, Biology, Phenotype, Cell biology, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, RNA splicing, medicine, sense organs, Induced pluripotent stem cell

Abstract

Mutations in pre-mRNA processing factors (PRPFs) cause 40% of autosomal dominant retinitis pigmentosa (RP), but it is unclear why mutations in ubiquitously expressed PRPFs cause retinal disease. To understand the molecular basis of this phenotype, we have generated RP type 11 (PRPF31-mutated) patient-specific retinal organoids and retinal pigment epithelium (RPE) from induced pluripotent stem cells (iPSC). Impaired alternative splicing of genes encoding pre-mRNA splicing proteins occurred in patient-specific retinal cells and Prpf31 /- mouse retinae, but not fibroblasts and iPSCs, providing mechanistic insights into retinal-specific phenotypes of PRPFs. RPE was the most affected, characterised by loss of apical-basal polarity, reduced trans-epithelial resistance, phagocytic capacity, microvilli, and cilia length and incidence. Disrupted cilia morphology was observed in patient-derived-photoreceptors that displayed progressive features associated with degeneration and cell stress. In situ gene-editing of a pathogenic mutation rescued key structural and functional phenotypes in RPE and photoreceptors, providing proof-of-concept for future therapeutic strategies.

Published

2018

26. Human iPSC-derived RPE and retinal organoids reveal impaired alternative splicing of genes involved in pre-mRNA splicing in PRPF31 autosomal dominant retinitis pigmentosa

Author

Adriana Buskin, Lili Zhu, Valeria Chichagova, Basudha Basu, Sina Mozaffari-Jovin, David Dolan, Alastair Droop, Joseph Collin, Revital Bronstein, Sudeep Mehrotra, Michael Farkas, Gerrit Hilgen, Kathryn White, Dean Hallam, Katarzyna Bialas, Git Chung, Carla Mellough, Yuchun Ding, Natalio Krasnogor, Stefan Przyborski, Jumana Al-Aama, Sameer Alharthi, Yaobo Xu, Gabrielle Wheway, Katarzyna Szymanska, Martin McKibbin, Chris F Inglehearn, David J Elliott, Susan Lindsay, Robin R Ali, David H Steel, Lyle Armstrong, Evelyne Sernagor, Eric Pierce, Reinhard Lüehrmann, Sushma-Nagaraja Grellscheid, Colin A Johnson, and Majlinda Lako

Subjects

0303 health sciences, PRPF31, Retinal pigment epithelium, Cilium, 030305 genetics & heredity, Alternative splicing, Retinal, Biology, Phenotype, eye diseases, Cell biology, 03 medical and health sciences, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, RNA splicing, medicine, sense organs, Induced pluripotent stem cell, 030304 developmental biology

Abstract

SummaryMutations in pre-mRNA processing factors (PRPFs) cause 40% of autosomal dominant retinitis pigmentosa (RP), but it is unclear why mutations in ubiquitously expressed PRPFs cause retinal disease. To understand the molecular basis of this phenotype, we have generated RP type 11 (PRPF31-mutated) patient-specific retinal organoids and retinal pigment epithelium (RPE) from induced pluripotent stem cells (iPSC). Impaired alternative splicing of genes encoding pre-mRNA splicing proteins occurred in patient-specific retinal cells and Prpf31+/− mouse retinae, but not fibroblasts and iPSCs, providing mechanistic insights into retinal-specific phenotypes of PRPFs. RPE was the most affected, characterised by loss of apical-basal polarity, reduced trans-epithelial resistance, phagocytic capacity, microvilli, and cilia length and incidence. Disrupted cilia morphology was observed in patient-derived-photoreceptors that displayed progressive features associated with degeneration and cell stress. In situ gene-editing of a pathogenic mutation rescued key structural and functional phenotypes in RPE and photoreceptors, providing proof-of-concept for future therapeutic strategies.eTOCPRPF31 is a ubiquitously expressed pre-mRNA processing factor that when mutated causes autosomal dominant RP. Using a patient-specific iPSC approach, Buskin and Zhu et al. show that retinal-specific defects result from altered splicing of genes involved in the splicing process itself, leading to impaired splicing, loss of RPE polarity and diminished phagocytic ability as well as reduced cilia incidence and length in both photoreceptors and RPE.HighlightsSuccessful generation of iPSC-derived RPE and photoreceptors from four RP type 11 patientsRPE cells express the mutant PRPF31 protein and show the lowest expression of wildtype proteinPRPF31 mutations result in altered splicing of genes involved in pre-mRNA splicing in RPE and retinal organoidsPrpf31 haploinsufficiency results in altered splicing of genes involved in pre-mRNA splicing in mouse retinaRPE cells display loss of polarity, reduced barrier function and phagocytosisPhotoreceptors display shorter and fewer cilia and degenerative featuresRPE cells display most abnormalities suggesting they might be the primary site of pathogenesisIn situ gene editing corrects the mutation and rescues key phenotypes

Published

2017

27. A missense variant in CST3 exerts a recessive effect on susceptibility to age-related macular degeneration resembling its association with Alzheimer’s disease

Author

Richard Gale, Luminita Paraoan, Manir Ali, Umar Sharif, Martin McKibbin, Joe M. Butler, Yit C. Yang, Joseph Thompson, and Chris F. Inglehearn

Subjects

Male, Heterozygote, genetic structures, Mutation, Missense, Disease, Biology, Macular Degeneration, 03 medical and health sciences, 0302 clinical medicine, Alzheimer Disease, Risk Factors, Missing heritability problem, Genotype, Genetics, medicine, Humans, Missense mutation, Genetics(clinical), Genetic Predisposition to Disease, Cystatin C, Allele, Alleles, Genetics (clinical), Aged, Original Investigation, 030304 developmental biology, Aged, 80 and over, 0303 health sciences, Homozygote, Genetic Diseases, Inborn, Heterozygote advantage, medicine.disease, eye diseases, 3. Good health, biology.protein, Female, sense organs, Alzheimer's disease, 030217 neurology & neurosurgery

Abstract

Age-related macular degeneration (AMD) and Alzheimer’s disease (AD) are degenerative, multifactorial diseases involving age-related accumulation of extracellular deposits linked to dysregulation of protein homeostasis. Here, we strengthen the evidence that an nsSNP (p.Ala25Thr) in the cysteine proteinase inhibitor cystatin C gene CST3, previously confirmed by meta-analysis to be associated with AD, is associated with exudative AMD. To our knowledge, this is the first report highlighting a genetic variant that increases the risk of developing both AD and AMD. Furthermore, we demonstrate that the risk associated with the mutant allele follows a recessive model for both diseases. We perform an AMD-CST3 case–control study genotyping 350 exudative AMD Caucasian individuals. Bringing together our data with the previously reported AMD-CST3 association study, the evidence of a recessive effect on AMD risk is strengthened (OR = 1.89, P = 0.005). This effect closely resembles the AD-CST3 recessive effect (OR = 1.73, P = 0.005) previously established by meta-analysis. This resemblance is substantiated by the high correlation between CST3 genotype and effect size across the two diseases (R2 = 0.978). A recessive effect is in line with the known function of cystatin C, a potent enzyme inhibitor. Its potency means that, in heterozygous individuals, a single functional allele is sufficient to maintain its inhibitory function; only homozygous individuals will lack this form of proteolytic regulation. Our findings support the hypothesis that recessively acting variants account for some of the missing heritability of multifactorial diseases. Replacement therapy represents a translational opportunity for individuals homozygous for the mutant allele. Electronic supplementary material The online version of this article (doi:10.1007/s00439-015-1552-7) contains supplementary material, which is available to authorized users.

Published

2015

28. An siRNA-based functional genomics screen for the identification of regulators of ciliogenesis and ciliopathy genes

Author

Richard T. Pon, Ryan E. Lamont, Uwe Wolfrum, Robert A. Hegele, Dan Doherty, Fiona Stewart, Martin McKibbin, Jay Shendure, Grischa Toedt, Colin E. Willoughby, Jillian S. Parboosingh, Clem Donahue, Kirsten A. Wunderlich, Lijia Huang, Marius Ueffing, Hannah M. Mitchison, Nasrin Sorusch, Teunis J. P. van Dam, Zakia Abdelhamed, Kym M. Boycott, Francois P. Bernier, Mohammed A. Aldahmesh, Subaashini Natarajan, Bernard N. Chodirker, Carole Ober, Julie Higgins, Matthew Adams, Darren C. Tomlinson, Hilary E. Racher, Thanh Minh T. Nguyen, Ian G. Phelps, Andreas Giessl, Katarzyna Szymanska, Ewan E. Morrison, Albert E. Chudley, Fowzan S. Alkuraya, Panagiotis I. Sergouniotis, Patrick Frosk, Jacquelyn Bond, Miriam Schmidts, Susanne Roosing, Nicola Horn, Gabrielle Wheway, Sandra M. Bell, Carmel Toomes, Toby J. Gibson, Martijn A. Huynen, Philip L. Beales, Gisela G. Slaats, Julie Kennedy, Clare V. Logan, Oliver E. Blacque, Paul M. K. Gordon, Rachel H. Giles, Heymut Omran, Aizeddin A. Mhanni, A. James Barkovich, David A. Parry, A. Micheil Innes, Dorus A. Mans, Jeroen van Reeuwijk, Kristin Kessler, Louis Wolf, Shamsa Anazi, Evan A. Boyle, Karsten Boldt, Ronald Roepman, Joseph G. Gleeson, Andrew R. Webster, Selwa A. Al Hazzaa, Chris F. Inglehearn, Warren Herridge, Christian Thiel, Chandree L. Beaulieu, Colin A. Johnson, and Stef J.F. Letteboer

Subjects

PRPF31, Pregnancy Proteins, Inbred C57BL, Ciliopathies, Mice, Immunologic, Cerebellum, Databases, Genetic, Eye Abnormalities, Non-U.S. Gov't, Zebrafish, Exome sequencing, Mice, Knockout, Genetics, Research Support, Non-U.S. Gov't, Cilium, High-Throughput Nucleotide Sequencing, Metabolic Disorders Radboud Institute for Molecular Life Sciences [Radboudumc 6], Genomics, Kidney Diseases, Cystic, Phenotype, Kidney Diseases, RNA Interference, Abnormalities, Multiple, Functional genomics, Ciliary Motility Disorders, Genetic Markers, Ellis-Van Creveld Syndrome, Knockout, Jeune syndrome, Other Research Radboud Institute for Molecular Life Sciences [Radboudumc 0], Biology, Research Support, Transfection, Retina, Article, whole-genome siRNA screen, Joubert syndrome, N.I.H, Databases, Cystic, reverse genetics, Research Support, N.I.H., Extramural, Genetic, Cerebellar Diseases, Ciliogenesis, Suppressor Factors, Journal Article, Suppressor Factors, Immunologic, medicine, Animals, Humans, Abnormalities, Multiple, Genetic Predisposition to Disease, Photoreceptor Cells, Cilia, Genetic Testing, Caenorhabditis elegans, Extramural, Membrane Proteins, Proteins, Reproducibility of Results, Cell Biology, medicine.disease, Mice, Inbred C57BL, Cytoskeletal Proteins, Ciliopathy, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], HEK293 Cells, Mutation, ciliopathies, Genome-Wide Association Study

Abstract

Item does not contain fulltext Defects in primary cilium biogenesis underlie the ciliopathies, a growing group of genetic disorders. We describe a whole-genome siRNA-based reverse genetics screen for defects in biogenesis and/or maintenance of the primary cilium, obtaining a global resource. We identify 112 candidate ciliogenesis and ciliopathy genes, including 44 components of the ubiquitin-proteasome system, 12 G-protein-coupled receptors, and 3 pre-mRNA processing factors (PRPF6, PRPF8 and PRPF31) mutated in autosomal dominant retinitis pigmentosa. The PRPFs localize to the connecting cilium, and PRPF8- and PRPF31-mutated cells have ciliary defects. Combining the screen with exome sequencing data identified recessive mutations in PIBF1, also known as CEP90, and C21orf2, also known as LRRC76, as causes of the ciliopathies Joubert and Jeune syndromes. Biochemical approaches place C21orf2 within key ciliopathy-associated protein modules, offering an explanation for the skeletal and retinal involvement observed in individuals with C21orf2 variants. Our global, unbiased approaches provide insights into ciliogenesis complexity and identify roles for unanticipated pathways in human genetic disease.

Published

2015

29. The effect of COMT Val158Met and DRD2 C957T polymorphisms on executive function and the impact of early life stress

Author

Humberto Gutierrez, Timothy L. Hodgson, Manir Ali, Chris F. Inglehearn, Simon J. Durrant, Kevin Butler, Kristel Klaus, and Kyla Pennington

Subjects

0301 basic medicine, C850 Cognitive Psychology, medicine.medical_specialty, Catechol-O-methyl transferase, Cambridge Neuropsychological Test Automated Battery, Cognition, C957T, medicine.disease, C800 Psychology, Mental health, Spatial memory, 03 medical and health sciences, Behavioral Neuroscience, 030104 developmental biology, 0302 clinical medicine, Schizophrenia, medicine, Age of onset, B140 Neuroscience, Psychiatry, Psychology, 030217 neurology & neurosurgery

Abstract

Introduction\ud Previous research has indicated that variation in genes encoding catechol-O-methyltransferase (COMT) and dopamine receptor D2 (DRD2) may influence cognitive function and that this may confer vulnerability to the development of mental health disorders such as schizophrenia. However, increasing evidence suggests environmental factors such as early life stress may interact with genetic variants in affecting these cognitive outcomes. This study investigated the effect of COMT Val158Met and DRD2 C957T polymorphisms on executive function and the impact of early life stress in healthy adults.\ud \ud Methods\ud One hundred and twenty-two healthy adult males (mean age 35.2 years, range 21–63) were enrolled in the study. Cognitive function was assessed using Cambridge Neuropsychological Test Automated Battery and early life stress was assessed using the Childhood Traumatic Events Scale (Pennebaker & Susman, 1988).\ud \ud Results\ud DRD2 C957T was significantly associated with executive function, with CC homozygotes having significantly reduced performance in spatial working memory and spatial planning. A significant genotype–trauma interaction was found in Rapid Visual Information Processing test, a measure of sustained attention, with CC carriers who had experienced early life stress exhibiting impaired performance compared to the CC carriers without early life stressful experiences. There were no significant findings for COMT Val158Met.\ud \ud Conclusions\ud This study supports previous findings that DRD2 C957T significantly affects performance on executive function related tasks in healthy individuals and shows for the first time that some of these effects may be mediated through the impact of childhood traumatic events. Future work should aim to clarify further the effect of stress on neuronal systems that are known to be vulnerable in mental health disorders and more specifically what the impact of this might be on cognitive function.

Published

2017

30. DETAILED RETINAL IMAGING IN CARRIERS OF OCULAR ALBINISM

Author

Emma C. Lord, James A. Poulter, Keren J. Carss, Andrew R. Webster, Kamron N. Khan, Gavin Arno, Farrah Islam, Michel Michaelides, FLucy Raymond, Chris F. Inglehearn, Anthony T. Moore, Manir Ali, and Carmel Toomes

Subjects

0301 basic medicine, Ocular albinism, Adult, medicine.medical_specialty, Heterozygote, genetic structures, Retinal Pigment Epithelium, Fundus (eye), Retina, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Ophthalmology, Medicine, Humans, Macula Lutea, Prospective Studies, Eye Proteins, Hypopigmentation, Retinal pigment epithelium, Membrane Glycoproteins, medicine.diagnostic_test, business.industry, Fundus photography, Retinal, General Medicine, Middle Aged, medicine.disease, Albinism, Ocular, eye diseases, 3. Good health, Autofluorescence, 030104 developmental biology, medicine.anatomical_structure, chemistry, 030221 ophthalmology & optometry, Albinism, Female, sense organs, medicine.symptom, business

Abstract

BACKGROUND: Albinism refers to a group of disorders primarily characterized by hypopigmentation. Affected individuals usually manifest both ocular and cutaneous features of the disease, but occasionally hair and skin pigmentation may appear normal. This is the case in ocular albinism, an X chromosome linked disorder resulting from mutation of GPR143. Female carriers may be recognized by a "mud-splatter" appearance in the peripheral retina. The macula is thought to be normal, however. METHODS: Obligate female carriers of pathogenic GPR143 alleles were recruited. Molecular confirmation of disease was performed only for atypical cases. Detailed retinal imaging was performed (colour fundus photography, optical coherence tomography, fundus autofluorescence. RESULTS: Eight individuals were ascertained. A novel GPR143 mutation was identified in one family (p.Gln328Ter). Foveal fundus autofluorescence was subjectively reduced in 6/6 patients imaged. A "tapetal-like" pattern of autofluorescence was visible at the macula in 3/6. Persistence of the inner retinal layers at the fovea was observed in 6/8 females. CONCLUSION: Female carriers of ocular albinism may manifest signs of retinal pigment epithelium mosaicism at the macula and the peripheral fundus. A tapetal-like reflex on fundus autofluorescence may be considered the macular correlate of "mud-splatter."

Published

2017

31. Mutations in the Spliceosome Component CWC27 Cause Retinal Degeneration with or without Additional Developmental Anomalies

Author

Smriti A. Agrawal, Chris F. Inglehearn, Huajin Li, Rachel Gillespie, Nikolas Pontikos, Mingchu Xu, Michel Michaelides, Liliana F. Azevedo, Susan M. Downes, Johannes von Lintig, Gavin Arno, Georgina Hall, Darwin Babino, Carmel Toomes, Rui Chen, Hana Abouzeid, Patrick Nitschké, Yajing Xie, Jeanne Amiel, Li Zhao, Rando Allikmets, Valeria Kheir, Andrew R. Webster, Martin McKibbin, Christopher T. Gordon, Hervé Le Hir, Zachry T. Soens, Forbes Manson, Ruifang Sui, Carmen Ayuso, Laurence Hubert, Graeme C.M. Black, Virginia Busetto, Emma C. Lord, Aiden Eblimit, Christine Bole-Feysot, Daniel F. Schorderet, Gaëtan Pinton, Yumei Li, Simon C Ramsden, Lizhu Yang, Zhisheng Yuan, Nathalie Allaman-Pillet, I. Lorda-Sánchez, James A. Poulter, Vincent Plagnol, Panagiotis Sergouniotis, Zixi Sun, Hui Li, Claude Besmond, Myriam Oufadem, Michael E. Cheetham, Alessia Fiorentino, Rolph Pfundt, Rachayata Dharmat, Rosa Riveiro-Alvarez, Manir Ali, Stephanie Halford, Jing Yu, Linda Bapst-Wicht, Alison J. Hardcastle, Stanislas Lyonnet, Miguel A. Lopez-Martinez, Ihab S. Osman, Peter Stoilov, Andrea H. Németh, and Anna Lehman

Subjects

0301 basic medicine, Retinal degeneration, Male, Spliceosome, Adolescent, 030105 genetics & heredity, Biology, medicine.disease_cause, Article, 03 medical and health sciences, Cyclophilins, Mice, Young Adult, All institutes and research themes of the Radboud University Medical Center, Retinitis pigmentosa, Genetics, medicine, Animals, Humans, Abnormalities, Multiple, Allele, Child, Genetics (clinical), Mutation, Neurodevelopmental disorders Donders Center for Medical Neuroscience [Radboudumc 7], Brachydactyly, Retinal Degeneration, Peptidylprolyl Isomerase, medicine.disease, Phenotype, Pedigree, 030104 developmental biology, Child, Preschool, RNA splicing, Female

Abstract

Pre-mRNA splicing factors play a fundamental role in regulating transcript diversity both temporally and spatially. Genetic defects in several spliceosome components have been linked to a set of non-overlapping spliceosomopathy phenotypes in humans, among which skeletal developmental defects and non-syndromic retinitis pigmentosa (RP) are frequent findings. Here we report that defects in spliceosome-associated protein CWC27 are associated with a spectrum of disease phenotypes ranging from isolated RP to severe syndromic forms. By whole-exome sequencing, recessive protein-truncating mutations in CWC27 were found in seven unrelated families that show a range of clinical phenotypes, including retinal degeneration, brachydactyly, craniofacial abnormalities, short stature, and neurological defects. Remarkably, variable expressivity of the human phenotype can be recapitulated in Cwc27 mutant mouse models, with significant embryonic lethality and severe phenotypes in the complete knockout mice while mice with a partial loss-of-function allele mimic the isolated retinal degeneration phenotype. Our study describes a retinal dystrophy-related phenotype spectrum as well as its genetic etiology and highlights the complexity of the spliceosomal gene network.

Published

2017

32. Enrichment of pathogenic alleles in the brittle cornea gene, ZNF469, in keratoconus

Author

Daniel F. Schorderet, David J. Armstrong, Veronique Vitart, Chris F. Inglehearn, Graeme C.M. Black, Aine Rice, Louise F. Porter, Francis L. Munier, Forbes D C Manson, Alan F. Wright, David Simpson, Judith Lechner, and Colin E. Willoughby

Subjects

Joint Instability, Heterozygote, Keratoconus, Pathology, medicine.medical_specialty, genetic structures, medicine.medical_treatment, Genome-wide association study, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, Cornea, Genetics, medicine, Humans, Eye Abnormalities, Allele, Molecular Biology, Genetic Association Studies, Genetics (clinical), Corneal transplantation, Association Studies Articles, Homozygote, Heterozygote advantage, General Medicine, medicine.disease, eye diseases, 3. Good health, DNA-Binding Proteins, medicine.anatomical_structure, Ehlers–Danlos syndrome, Mutation, Skin Abnormalities, Ehlers-Danlos Syndrome, sense organs, Transcription Factors

Abstract

Keratoconus, a common inherited ocular disorder resulting in progressive corneal thinning, is the leading indication for corneal transplantation in the developed world. Genome-wide association studies have identified common SNPs 100 kb upstream of ZNF469 strongly associated with corneal thickness. Homozygous mutations in ZNF469 and PR domain-containing protein 5 (PRDM5) genes result in brittle cornea syndrome (BCS) Types 1 and 2, respectively. BCS is an autosomal recessive generalized connective tissue disorder associated with extreme corneal thinning and a high risk of corneal rupture. Some individuals with heterozygous PRDM5 mutations demonstrate a carrier ocular phenotype, which includes a mildly reduced corneal thickness, keratoconus and blue sclera. We hypothesized that heterozygous variants in PRDM5 and ZNF469 predispose to the development of isolated keratoconus. We found a significant enrichment of potentially pathologic heterozygous alleles in ZNF469 associated with the development of keratoconus (P = 0.00102) resulting in a relative risk of 12.0. This enrichment of rare potentially pathogenic alleles in ZNF469 in 12.5% of keratoconus patients represents a significant mutational load and highlights ZNF469 as the most significant genetic factor responsible for keratoconus identified to date.

Published

2014

33. Truncation mutation of PDZD8 in a family with intellectual disability and autistic features

Author

Steven J. Clapcote, Ahmed H Al-Amri, Amanda Bretman, Manir Ali, James Rouse, Chris F. Inglehearn, Thomas Wainwright, and Paul Armstrong

Subjects

Truncating mutation, General Neuroscience, Intellectual disability, medicine, Autistic features, Psychology, medicine.disease, Developmental psychology

Published

2019

34. An X-Ray Scattering Study into the Structural Basis of Corneal Refractive Function in an Avian Model

Author

Manir Ali, Craig Boote, Sian Rebecca Morgan, Paul Hocking, Thomas Sorensen, Chris F. Inglehearn, Keith M. Meek, and Erin Patricia Dooley

Subjects

medicine.medical_specialty, animal structures, genetic structures, Corneal Stroma, Biophysics, Biology, Refraction, Ocular, Collagen fibril, 03 medical and health sciences, 0302 clinical medicine, X-Ray Diffraction, Ophthalmology, Corneal shape, Retinal Dystrophies, medicine, Animals, Eye growth, Corneal layer, 030304 developmental biology, 0303 health sciences, Peripheral cornea, Anatomy, eye diseases, Disease Models, Animal, Cell Biophysics, 030221 ophthalmology & optometry, Ultrastructure, Collagen, sense organs, Collagen architecture, Chickens

Abstract

Avian vision diseases in which eye growth is compromised are helping to define what governs corneal shape and ultrastructural organization. The highly specific collagen architecture of the main corneal layer, the stroma, is believed to be important for the maintenance of corneal curvature and hence visual quality. Blindness enlarged globe (beg) is a recessively inherited condition of chickens characterized by retinal dystrophy and blindness at hatch, with secondary globe enlargement and loss of corneal curvature by 3–4 months. Here we define corneal ultrastructural changes as the beg eye develops posthatch, using wide-angle x-ray scattering to map collagen fibril orientation across affected corneas at three posthatch time points. The results disclosed alterations in the bulk alignment of corneal collagen in beg chicks compared with age-matched controls. These changes accompanied the eye globe enlargement and corneal flattening observed in affected birds, and were manifested as a progressive loss of circumferential collagen alignment in the peripheral cornea and limbus in birds older than 1 month. Progressive remodeling of peripheral stromal collagen in beg birds posthatch may relate to the morphometric changes exhibited by the disease, likely as an extension of myopia-like scleral remodeling triggered by deprivation of a retinal image.

Published

2013

35. Aberrant Wnt signalling and cellular over-proliferation in a novel mouse model of Meckel–Gruber syndrome

Author

Carmel Toomes, Colin A. Johnson, Gabrielle Wheway, Subaashini Natarajan, Chris F. Inglehearn, and Zakia Abdelhamed

Subjects

medicine.medical_specialty, Proliferation, Blotting, Western, Fluorescent Antibody Technique, Kidney development, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, medicine, Animals, Humans, Microphthalmos, Cilia, Wnt Signaling Pathway, Molecular Biology, Wnt signalling, PI3K/AKT/mTOR pathway, Cell Proliferation, Encephalocele, 030304 developmental biology, Polycystic Kidney Diseases, 0303 health sciences, Gene knockdown, Cilium, Wnt signaling pathway, Brain, Gene Expression Regulation, Developmental, Proteins, Exons, Cell Biology, Fibroblasts, Embryo, Mammalian, medicine.disease, Embryonic stem cell, Ciliopathies, Cell biology, Disease Models, Animal, Ciliopathy, Endocrinology, Embryonic development, Knockout mouse, Retinitis Pigmentosa, 030217 neurology & neurosurgery, Ciliary Motility Disorders, Hydrocephalus, Developmental Biology

Abstract

Meckel–Gruber syndrome (MKS) is an embryonic lethal ciliopathy resulting from mutations in genes encoding proteins localising to the primary cilium. Mutations in the basal body protein MKS1 account for 7% of cases of MKS. The condition affects the development of multiple organs, including brain, kidney and skeleton. Here we present a novel Mks1tm1a(EUCOMM)Wtsi knockout mouse which accurately recapitulates the human condition, consistently developing pre-axial polydactyly, complex posterior fossa defects (including the Dandy–Walker malformation), and renal cystic dysplasia. TOPFlash Wnt reporter assays in mouse embryonic fibroblasts (MEFs) showed general de-regulated high levels of canonical Wnt/β-catenin signalling in Mks1−/− cells. In addition to these signalling defects, we also observed ectopic high proliferation in the brain and kidney of mutant animals at mid- to late-gestation. The specific role of Mks1 in regulating cell proliferation was confirmed in Mks1 siRNA knockdown experiments which showed increased levels of proliferation after knockdown, an effect not seen after knockdown of other ciliopathy genes. We suggest that this is a result of the de-regulation of multiple signalling pathways (Wnt, mTOR and Hh) in the absence of functional Mks1. This novel model system offers insights into the role of MKS1 in Wnt signalling and proliferation, and the impact of deregulation of these processes on brain and kidney development in MKS, as well as expanding our understanding of the role of Mks1 in multiple signalling pathways.

Published

2013

36. Nephrocalcinosis (Enamel Renal Syndrome) Caused by Autosomal Recessive FAM20A Mutations

Author

Colin A. Johnson, Ariane Berdal, Craig B. Langman, Detlef Bockenhauer, P. Suzanne Hart, Alan J. Mighell, Pascal Houillier, Marie-Claude Addor, Denise Ruehmann, Naomi Issler, Alain Verloes, Arnaud Picard, Audrey Asselin, Gwenaelle Roussey, Mickael Quentric, Virginie Laugel, Cédric Le Caignec, H.P.N. Safatle, David A. McCredie, Hercílio Martelli-Júnior, Robert Kleta, Enriko Klootwijk, Thomas C. Hart, Agnès Bloch-Zupan, Miikka Vikkula, Toshiyasu Koike, Marie Lucile Figueres, Bertrand Isidor, Ricardo D. Coletta, Ana Carolina Acevedo, Sandra Gruessel, Hiroshi Kitagawa, Emmanuelle Ginglinger, James A. Poulter, Anita Rauch, Sue Povey, Ute Neugebauer, Graciana Jaureguiberry, Deborah Bartholdi, Stephen B. Walsh, Alexander J. Howie, Muriel De La Dure-Molla, Julien Guiol, Chris F. Inglehearn, Eberhard Schlatter, Jeremy K. Nicholson, Vaksha Patel, Markus Bleich, Robert J. Unwin, Matthieu Schmittbuhl, François Clauss, Horia Stanescu, Clare V. Logan, Steven J. Scheinman, Sandra Pajarola, Pedro E. Dos Santos Netos, Nina Himmerkus, Alan Medlar, Giuseppina Spartà, David A. Parry, Chris Laing, Aurore Coulomb, Suhaila Al-Bahlani, Carolin Sandmann, Isabelle Bailleul-Forestier, Paulo Marcio Yamaguti, Didem Ozdemir-Ozenen, Roger C. Shore, William A. Gahl, Mathilde Huckert, and Steven L. Robinette

Subjects

Male, Pathology, Amelogenesis Imperfecta, Physiology, Genome-wide association study, medicine.disease_cause, Consanguinity, 0302 clinical medicine, Urolithiasis, FAM20B, Exome, Amelogenesis imperfecta, Child, Sanger sequencing, 0303 health sciences, Mutation, Syndrome, General Medicine, Middle Aged, Pedigree, 3. Good health, Nephrocalcinosis, Nephrology, symbols, Adolescent, Adult, Amelogenesis Imperfecta/complications, Amelogenesis Imperfecta/genetics, Dental Enamel Proteins/genetics, Exome/genetics, Family Health, Female, Genes, Recessive/genetics, Genetic Predisposition to Disease/genetics, Genome-Wide Association Study, Humans, Nephrocalcinosis/complications, Nephrocalcinosis/genetics, Sequence Analysis, DNA/methods, Young Adult, medicine.medical_specialty, FAM20C, Genes, Recessive, Nephrolithiasis, 03 medical and health sciences, symbols.namesake, Dental Enamel Proteins, Physiology (medical), medicine, Genetic Predisposition to Disease, 030304 developmental biology, Original Paper, Autosome, business.industry, Sequence Analysis, DNA, 030206 dentistry, medicine.disease, business

Abstract

Background/Aims: Calcium homeostasis requires regulated cellular and interstitial systems interacting to modulate the activity and movement of this ion. Disruption of these systems in the kidney results in nephrocalcinosis and nephrolithiasis, important medical problems whose pathogenesis is incompletely understood. Methods: We investigated 25 patients from 16 families with unexplained nephrocalcinosis and characteristic dental defects (amelogenesis imperfecta, gingival hyperplasia, impaired tooth eruption). To identify the causative gene, we performed genome-wide linkage analysis, exome capture, next-generation sequencing, and Sanger sequencing. Results: All patients had bi-allelic FAM20A mutations segregating with the disease; 20 different mutations were identified. Conclusions: This au-tosomal recessive disorder, also known as enamel renal syndrome, of FAM20A causes nephrocalcinosis and amelogenesis imperfecta. We speculate that all individuals with biallelic FAM20A mutations will eventually show nephrocalcinosis.

Published

2013

37. Recessive Mutations in SLC38A8 Cause Foveal Hypoplasia and Optic Nerve Misrouting without Albinism

Author

Eamonn Sheridan, Chris F. Inglehearn, Murugan Saktivel, Phillis Lakeman, Rohit Shetty, Anandula Venkataramana, Manir Ali, Sabrina Carrella, Bishwanath Pal, Ian M. Carr, Alex W. Hewitt, James A. Poulter, Maria M. van Genderen, Musallam Al-Araimi, Govindasamy Kumaramanickavel, Vedam L. Ramprasad, Mike Shires, David A. Mackey, David A. Parry, Carmel Toomes, Kamron N. Khan, Andrew R. Webster, Panagiotis I. Sergouniotis, Anthony T. Moore, Sandro Banfi, Moin Mohamed, Alex Tai Loong Tan, Ivan Conte, John Bradbury, Poulter, J. A., Al-Araimi, M., Conte, I., Van Genderen, M. M., Sheridan, E., Carr, I. M., Parry, D. A., Shires, M., Carrella, S., Bradbury, J., Khan, K., Lakeman, P., Sergouniotis, P. I., Webster, A. R., Moore, A. T., Pal, B., Mohamed, M. D., Venkataramana, A., Ramprasad, V., Shetty, R., Saktivel, M., Kumaramanickavel, G., Tan, A., Mackey, D. A., Hewitt, A. W., Banfi, S., Ali, M., Inglehearn, C. F., Toomes, C., Human Genetics, Human genetics, Other Research, Poulter, Ja, Al Araimi, M, Conte, I, van Genderen, Mm, Sheridan, E, Carr, Im, Parry, Da, Shires, M, Carrella, S, Bradbury, J, Khan, K, Lakeman, P, Sergouniotis, Pi, Webster, Ar, Moore, At, Pal, B, Mohamed, Md, Venkataramana, A, Ramprasad, V, Shetty, R, Saktivel, M, Kumaramanickavel, G, Tan, A, Mackey, Da, Hewitt, Aw, Banfi, Sandro, Ali, M, and Inglehearn, Cf

Subjects

Male, Fovea Centralis, Amino Acid Transport Systems, genetic structures, Neutral, DNA Mutational Analysis, Neurodegenerative, Medical and Health Sciences, Consanguinity, 0302 clinical medicine, Foveal, 2.1 Biological and endogenous factors, Genetics(clinical), Aetiology, Child, Genetics (clinical), Pediatric, Genetics & Heredity, Genetics, 0303 health sciences, education.field_of_study, Homozygote, Syndrome, Biological Sciences, Hypoplasia, Pedigree, Phenotype, Optic nerve, Albinism, Female, Human, Population, Single-nucleotide polymorphism, Locus (genetics), Genes, Recessive, Biology, DNA Mutational Analysi, 03 medical and health sciences, Clinical Research, medicine, Recessive, Animals, Humans, education, Eye Disease and Disorders of Vision, 030304 developmental biology, Fovea Centrali, Animal, Neurosciences, Optic Nerve, medicine.disease, eye diseases, Amino Acid Transport Systems, Neutral, Genes, Mutation, 030221 ophthalmology & optometry, Congenital Structural Anomalies, sense organs

Abstract

Foveal hypoplasia and optic nerve misrouting are developmental defects of the visual pathway and only co-occur in connection with albinism; to date, they have only been associated with defects in the melanin-biosynthesis pathway. Here, we report that these defects can occur independently of albinism in people with recessive mutations in the putative glutamine transporter gene SLC38A8. Nine different mutations were identified in seven Asian and European families. Using morpholino-mediated ablation of Slc38a8 in medaka fish, we confirmed that pigmentation is unaffected by loss of SLC38A8. Furthermore, by undertaking an association study with SNPs at the SLC38A8 locus, we showed that common variants within this gene modestly affect foveal thickness in the general population. This study reveals a melanin-independent component underpinning the development of the visual pathway that requires a functional role for SLC38A8.

Published

2013

38. ZNF408 is mutated in familial exudative vitreoretinopathy and is crucial for the development of zebrafish retinal vasculature

Author

Johanne M. Groothuismink, Erwin van Wijk, Lisette Hetterschijt, Hiroyuki Kondo, Joris A. Veltman, Hannie Kremer, Manir Ali, Ellen A.W. Blokland, Christian Gilissen, Lea Sollfrank, Konstantinos Nikopoulos, Frans P.M. Cremers, Lucas Mohn, James A. Poulter, Alexander Hoischen, F. Nienke Boonstra, Wolfgang Berger, Tomoko Tahira, C. Erik van Nouhuys, Carmel Toomes, Tim M. Strom, Chris F. Inglehearn, Margo Dona, Eiichi Uchio, Rob W.J. Collin, Lonneke Duijkers, University of Zurich, and Cremers, Frans P M

Subjects

Male, Genetics and epigenetic pathways of disease [NCMLS 6], DNA Mutational Analysis, Mutant, medicine.disease_cause, Animals, Genetically Modified, 11124 Institute of Medical Molecular Genetics, 0302 clinical medicine, Mutant protein, Chlorocebus aethiops, Missense mutation, Zebrafish, Zinc finger, 0303 health sciences, Mutation, Multidisciplinary, Reverse Transcriptase Polymerase Chain Reaction, Biological Sciences, Pedigree, DNA-Binding Proteins, 10076 Center for Integrative Human Physiology, Gene Knockdown Techniques, COS Cells, Female, FZD4, DCN MP - Plasticity and memory, Molecular Sequence Data, 610 Medicine & health, Biology, Mental health [NCEBP 9], 03 medical and health sciences, medicine, Animals, Humans, Amino Acid Sequence, 030304 developmental biology, Cell Nucleus, Family Health, 1000 Multidisciplinary, Sequence Homology, Amino Acid, Gene Expression Profiling, Vitreoretinopathy, Proliferative, Retinal Vessels, Zebrafish Proteins, Genetics and epigenetic pathways of disease Plasticity and memory [NCMLS 6], medicine.disease, biology.organism_classification, Molecular biology, Genetics and epigenetic pathways of disease DCN MP - Plasticity and memory [NCMLS 6], Luminescent Proteins, Membrane transport and intracellular motility Renal disorder [NCMLS 5], Microscopy, Fluorescence, 030221 ophthalmology & optometry, Familial exudative vitreoretinopathy, 570 Life sciences, biology, Genetics and epigenetic pathways of disease Genomic disorders and inherited multi-system disorders [NCMLS 6], Transcription Factors

Abstract

Familial exudative vitreoretinopathy (FEVR) is a genetically heterogeneous disorder characterized by abnormal vascularization of the peripheral retina, which can result in retinal detachment and severe visual impairment. In a large Dutch FEVR family, we performed linkage analysis, exome sequencing, and segregation analysis of DNA variants. We identified putative disease-causing DNA variants in proline-alanine-rich ste20-related kinase (c.791dup; p.Ser265ValfsX64) and zinc finger protein 408 ( ZNF408 ) (c.1363C>T; p.His455Tyr), the latter of which was also present in an additional Dutch FEVR family that subsequently appeared to share a common ancestor with the original family. Sequence analysis of ZNF408 in 132 additional individuals with FEVR revealed another potentially pathogenic missense variant, p.Ser126Asn, in a Japanese family. Immunolocalization studies in COS-1 cells transfected with constructs encoding the WT and mutant ZNF408 proteins, revealed that the WT and the p.Ser126Asn mutant protein show complete nuclear localization, whereas the p.His455Tyr mutant protein was localized almost exclusively in the cytoplasm. Moreover, in a cotransfection assay, the p.His455Tyr mutant protein retains the WT ZNF408 protein in the cytoplasm, suggesting that this mutation acts in a dominant-negative fashion. Finally, morpholino-induced knockdown of znf408 in zebrafish revealed defects in developing retinal and trunk vasculature, that could be rescued by coinjection of RNA encoding human WT ZNF408 but not p.His455Tyr mutant ZNF408. Together, our data strongly suggest that mutant ZNF408 results in abnormal retinal vasculogenesis in humans and is associated with FEVR.

Published

2013

39. Variable expressivity of ciliopathy neurological phenotypes that encompass MeckelGruber syndrome and Joubert syndrome is caused by complex de-regulated ciliogenesis, Shh and Wnt signalling defects

Author

Colin A. Johnson, Katarzyna Szymanska, Carmel Toomes, Zakia Abdelhamed, Chris F. Inglehearn, Gabrielle Wheway, and Subaashini Natarajan

Subjects

TMEM67, Dishevelled Proteins, Exencephaly, Ciliopathies, Mice, 0302 clinical medicine, Genes, Reporter, Luciferases, Firefly, Cerebellum, Eye Abnormalities, Neural Tube Defects, Wnt Signaling Pathway, Genetics (clinical), Encephalocele, Genetics, Mice, Knockout, 0303 health sciences, Polycystic Kidney Diseases, Cilium, Ciliary transition zone, General Medicine, Articles, Kidney Diseases, Cystic, Protein Transport, Phenotype, Retinitis Pigmentosa, Ciliary Motility Disorders, Mice, 129 Strain, Biology, Joubert syndrome, Retina, 03 medical and health sciences, Cerebellar Diseases, Ciliogenesis, medicine, Animals, Humans, Abnormalities, Multiple, Hedgehog Proteins, Cilia, Molecular Biology, 030304 developmental biology, Adaptor Proteins, Signal Transducing, Body Patterning, urogenital system, Membrane Proteins, medicine.disease, Phosphoproteins, Mice, Inbred C57BL, Ciliopathy, Disease Models, Animal, HEK293 Cells, Gene Expression Regulation, 030217 neurology & neurosurgery

Abstract

The ciliopathies are a group of heterogeneous diseases with considerable variations in phenotype for allelic conditions such as Meckel-Gruber syndrome (MKS) and Joubert syndrome (JBTS) even at the inter-individual level within families. In humans, mutations in TMEM67 (also known as MKS3) cause both MKS and JBTS, with TMEM67 encoding the orphan receptor meckelin (TMEM67) that localizes to the ciliary transition zone. We now describe the Tmem67(tm1(Dgen/H)) knockout mouse model that recapitulates the brain phenotypic variability of these human ciliopathies, with categorization of Tmem67 mutant animals into two phenotypic groups. An MKS-like incipient congenic group (F6 to F10) manifested very variable neurological features (including exencephaly, and frontal/occipital encephalocele) that were associated with the loss of primary cilia, diminished Shh signalling and dorsalization of the caudal neural tube. The 'MKS-like' group also had high de-regulated canonical Wnt/β-catenin signalling associated with hyper-activated Dishevelled-1 (Dvl-1) localized to the basal body. Conversely, a second fully congenic group (F > 10) had less variable features pathognomonic for JBTS (including cerebellar hypoplasia), and retention of abnormal bulbous cilia associated with mild neural tube ventralization. The 'JBTS-like' group had de-regulated low levels of canonical Wnt signalling associated with the loss of Dvl-1 localization to the basal body. Our results suggest that modifier alleles partially determine the variation between MKS and JBTS, implicating the interaction between Dvl-1 and meckelin, or other components of the ciliary transition zone. The Tmem67(tm1(Dgen/H)) line is unique in modelling the variable expressivity of phenotypes in these two ciliopathies.

Published

2013

40. Mutations in the polyglutamylase gene TTLL5, expressed in photoreceptor cells and spermatozoa, are associated with cone-rod degeneration and reduced male fertility

Author

Francis L. Munier, Georgia G. Yioti, Carel B. Hoyng, Pietro Farinelli, Sara Balzano, Jamie M Ellingford, Viet H. Tran, Olivier Bonny, Christos Ikonomidis, Sten Andréasson, Veronika Vaclavik, Chris F. Inglehearn, Nicola Bedoni, Lonneke Haer-Wigman, Daniel F. Schorderet, Maria Stefaniotou, Fabien Murisier, Adam P. Booth, Mohammed E El-Asrag, Carlo Rivolta, Konstantinos Nikopoulos, Nathalie M. Bax, Yan Litzistorf, Frans P.M. Cremers, Carmel Toomes, Beryl Royer-Bertrand, Graeme C.M. Black, Caroline C W Klaver, Martin McKibbin, Manir Ali, Alberta A H J Thiadens, and Ophthalmology

Subjects

0301 basic medicine, Retinal degeneration, Male, DNA Mutational Analysis, Gene Expression, medicine.disease_cause, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], Mice, 0302 clinical medicine, Testis, Genetics (clinical), Genetics, Mutation, Homozygote, Genetic disorder, General Medicine, Middle Aged, Spermatozoa, Pedigree, medicine.anatomical_structure, Organ Specificity, Sperm Motility, Female, Photoreceptor Cells, Vertebrate, Gene isoform, Adult, Adolescent, Biology, 03 medical and health sciences, All institutes and research themes of the Radboud University Medical Center, medicine, Animals, Humans, Allele, Eye Proteins, Molecular Biology, Gene, Infertility, Male, Aged, Retina, Dystrophy, medicine.disease, Molecular biology, Rats, Disease Models, Animal, 030104 developmental biology, Carrier Proteins, 030217 neurology & neurosurgery, Cone-Rod Dystrophies

Abstract

Hereditary retinal degenerations encompass a group of genetic diseases characterized by extreme clinical variability. Following next-generation sequencing and autozygome-based screening of patients presenting with a peculiar, recessive form of cone-dominated retinopathy, we identified five homozygous variants [p.(Asp594fs), p.(Gln117*), p.(Met712fs), p.(Ile756Phe), and p.(Glu543Lys)] in the polyglutamylase-encoding gene TTLL5, in eight patients from six families. The two male patients carrying truncating TTLL5 variants also suffered from a substantial reduction in sperm motility and infertility, whereas those carrying missense changes were fertile. Defects in this polyglutamylase in humans have recently been associated with cone photoreceptor dystrophy, while mouse models carrying truncating mutations in the same gene also display reduced fertility in male animals. We examined the expression levels of TTLL5 in various human tissues and determined that this gene has multiple viable isoforms, being highly expressed in testis and retina. In addition, antibodies against TTLL5 stained the basal body of photoreceptor cells in rat and the centrosome of the spermatozoon flagellum in humans, suggesting a common mechanism of action in these two cell types. Taken together, our data indicate that mutations in TTLL5 delineate a novel, allele-specific syndrome causing defects in two as yet pathogenically unrelated functions, reproduction and vision.

Published

2016

41. Mutations in C4orf26, Encoding a Peptide with In Vitro Hydroxyapatite Crystal Nucleation and Growth Activity, Cause Amelogenesis Imperfecta

Author

Steven J. Brookes, El Mostafa Raif, Graham R. Taylor, Colin A. Johnson, Ian M. Carr, David A. Parry, Michael J. Dixon, Alan J. Mighell, Clare V. Logan, Mayssoon Dashash, James A. Poulter, Jennifer Kirkham, Suhaila Al-Bahlani, Walid El-Sayed, Joanne E. Morgan, Chris F. Inglehearn, J. Tim Wright, Martin J. Barron, Jihad Sayed, Michael J. Aldred, Roger C. Shore, and Sharifa Al Harasi

Subjects

Male, Amelogenesis Imperfecta, Nerve Tissue Proteins, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, stomatognathic system, Amelogenesis, Report, Genetics, medicine, Humans, Genetics(clinical), Amelogenesis imperfecta, Dental Enamel, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Mutation, Chemistry, Enamel organ, 030206 dentistry, medicine.disease, Tooth enamel, Molecular biology, Pedigree, stomatognathic diseases, Enamel mineralization, Durapatite, medicine.anatomical_structure, Phosphoprotein, Female, Amelogenin

Abstract

Autozygosity mapping and clonal sequencing of an Omani family identified mutations in the uncharacterized gene, C4orf26, as a cause of recessive hypomineralized amelogenesis imperfecta (AI), a disease in which the formation of tooth enamel fails. Screening of a panel of 57 autosomal-recessive AI-affected families identified eight further families with loss-of-function mutations in C4orf26. C4orf26 encodes a putative extracellular matrix acidic phosphoprotein expressed in the enamel organ. A mineral nucleation assay showed that the protein's phosphorylated C terminus has the capacity to promote nucleation of hydroxyapatite, suggesting a possible function in enamel mineralization during amelogenesis.

Published

2012

42. Mutations in NMNAT1 cause Leber congenital amaurosis and identify a new disease pathway for retinal degeneration

Author

Chris F. Inglehearn, Huidan Xu, Rui Chen, Hussain Jafri, Yasmin Rashid, Moin Mohamed, Colin A. Johnson, Jingliang Cheng, Graham R. Taylor, Mohammed Nageeb, Yiyun Chen, Clare V. Logan, Vafa Keser, Martin McKibbin, Jacek Majewski, Bruce E. Hayward, Mohammed Genead, Xia Wang, Huanan Ren, Carmel Toomes, Qing Fu, Yumei Li, Elias I. Traboulsi, David A. Parry, Gerald A. Fishman, Irma Lopez, Hui Wang, Graeme Mardon, James A. Poulter, Jeremy Schwartzentruber, Naimesh Solanki, and Robert K. Koenekoop

Subjects

Retinal degeneration, Genetics, Retina, Wallerian degeneration, genetic structures, Retinal, Biology, medicine.disease, Molecular biology, eye diseases, chemistry.chemical_compound, medicine.anatomical_structure, chemistry, NMNAT1, medicine, sense organs, NAD+ kinase, Gene, Exome sequencing

Abstract

Leber congenital amaurosis (LCA) is a blinding retinal disease that presents within the first year after birth. Using exome sequencing, we identified mutations in the nicotinamide adenine dinucleotide (NAD) synthase gene NMNAT1 encoding nicotinamide mononucleotide adenylyltransferase 1 in eight families with LCA, including the family in which LCA was originally linked to the LCA9 locus. Notably, all individuals with NMNAT1 mutations also have macular colobomas, which are severe degenerative entities of the central retina (fovea) devoid of tissue and photoreceptors. Functional assays of the proteins encoded by the mutant alleles identified in our study showed that the mutations reduce the enzymatic activity of NMNAT1 in NAD biosynthesis and affect protein folding. Of note, recent characterization of the slow Wallerian degeneration (Wlds) mouse model, in which prolonged axonal survival after injury is observed, identified NMNAT1 as a neuroprotective protein when ectopically expressed. Our findings identify a new disease mechanism underlying LCA and provide the first link between endogenous NMNAT1 dysfunction and a human nervous system disorder.

Published

2012

43. Disease Expression in Autosomal Recessive Retinal Dystrophy Associated With Mutations in the DRAM2 Gene

Author

Panagiotis I. Sergouniotis, Martin McKibbin, Anthony G. Robson, Hanno J. Bolz, Elfride De Baere, Philipp L. Müller, Raoul Heller, Mohammed E. El-Asrag, Kristof Van Schil, Vincent Plagnol, Carmel Toomes, UK Inherited Retinal Disease Consortium, Manir Ali, Graham E. Holder, Peter Charbel Issa, Bart P. Leroy, Chris F. Inglehearn, and Andrew R. Webster

Subjects

Adult, Male, Pathology, medicine.medical_specialty, Visual acuity, Visual Acuity, Asymptomatic, Retina, Nyctalopia, Young Adult, chemistry.chemical_compound, Night Blindness, Retinal Dystrophies, Journal Article, Humans, Medicine, Fluorescein Angiography, medicine.diagnostic_test, business.industry, Research Support, Non-U.S. Gov't, Membrane Proteins, Retinal, Middle Aged, Fluorescein angiography, medicine.disease, Electrophysiology, medicine.anatomical_structure, chemistry, Mutation, Disease Progression, Visual Field Tests, Maculopathy, Female, Visual Fields, medicine.symptom, business, Tomography, Optical Coherence

Abstract

PURPOSE: To determine the disease course of retinal dystrophy caused by recessive variants in the DRAM2 (damage-regulated autophagy modulator 2) gene.METHODS: Sixteen individuals with DRAM2-retinopathy were examined (six families; age range, 19-56 years, includes one pre-symptomatic case). The change in visual acuity over time was studied, and electrophysiology (n = 6), retina-tracking perimetry (n = 1), fundus autofluorescence (FAF) imaging (n = 6), and optical coherence tomography (OCT; n = 12) were performed.RESULTS: All symptomatic patients presented with central visual loss (15/15) unaccompanied either by nyctalopia or light-hypersensitivity; most (11/15) developed symptoms in the third decade of life. A granular macular appearance, often with associated white/yellow dots, was an early fundoscopic feature. There was an ill-defined ring of hyperautofluorescence on FAF. Optical coherence tomography revealed loss of the ellipsoid zone perifoveally in a 19-year-old pre-symptomatic individual. The central atrophic area enlarged over time and fundoscopy showed peripheral degeneration in seven of the nine individuals that were examined ≥ 10 years after becoming symptomatic; some of these subjects developed nyctalopia and light hypersensitivity. Electrophysiology revealed generalized retinal dysfunction in three of the five individuals that were tested ≥ 10 years after becoming symptomatic.CONCLUSIONS: Patients with DRAM2-retinopathy are typically asymptomatic in the first two decades of life and present with central visual loss and a maculopathy. A faint hyperautofluorescent ring on FAF can be a suggestive feature. The retinal periphery is frequently affected later in the disease process. Photoreceptor degeneration is likely to be the primary event and future studies on DRAM2-retinopathy are expected to provide important insights into retinal autophagy.

Published

2015

44. Next generation sequencing identifies mutations in Atonal homolog 7 (ATOH7) in families with global eye developmental defects

Author

Eamonn Sheridan, Graham R. Taylor, Joanne E. Morgan, Narcis Fernandez-Fuentes, Hussain Jafri, Ahmed Al-Maskari, Özlem Yenice, Colin A. Johnson, Clare V. Logan, Carmel Toomes, Nursel Elcioglu, Manir Ali, Yasmin Raashid, David A. Parry, Martin McKibbin, Chris F. Inglehearn, Kamron N. Khan, Moin Mohamed, Zakia Abdelhamed, James A. Poulter, Ian M. Carr, Khan, Kamron, Logan, Clare V., McKibbin, Martin, Sheridan, Eamonn, Elcioglu, Nursel H., Yenice, Ozlem, Parry, David A., Fernandez-Fuentes, Narcis, Abdelhamed, Zakia I. A., Al-Maskari, Ahmed, Poulter, James A., Mohamed, Moin D., Carr, Ian M., Morgan, Joanne E., Jafri, Hussain, Raashid, Yasmin, Taylor, Graham R., Johnson, Colin A., Inglehearn, Chris F., Toomes, Carmel, and Ali, Manir

Subjects

Male, Eye Diseases, genetic structures, DNA Mutational Analysis, Nerve Tissue Proteins, Biology, Eye, Microphthalmia, Retina, Consanguinity, 03 medical and health sciences, 0302 clinical medicine, NORRIE-DISEASE, VASCULATURE, Basic Helix-Loop-Helix Transcription Factors, Genetics, medicine, Humans, Eye Abnormalities, GENOME-WIDE ASSOCIATION, Eye Proteins, FZD4 MUTATIONS, Persistent fetal vasculature, Molecular Biology, beta Catenin, Genetics (clinical), 030304 developmental biology, 0303 health sciences, Optic nerve hypoplasia, Articles, General Medicine, EXUDATIVE VITREORETINOPATHY, medicine.disease, eye diseases, ATONAL HOMOLOG, Microcornea, medicine.anatomical_structure, Persistent hyperplastic primary vitreous, Mutation, 030221 ophthalmology & optometry, Congenital cataracts, Optic nerve, RETINAL GANGLION-CELL, FATE DETERMINATION, sense organs, OPEN-ANGLE GLAUCOMA, OPTIC-NERVE

Abstract

The atonal homolog 7 (ATOH7) gene encodes a transcription factor involved in determining the fate of retinal progenitor cells and is particularly required for optic nerve and ganglion cell development. Using a combination of autozygosity mapping and next generation sequencing, we have identified homozygous mutations in this gene, p.E49V and p.P18RfsX69, in two consanguineous families diagnosed with multiple ocular developmental defects, including severe vitreoretinal dysplasia, optic nerve hypoplasia, persistent fetal vasculature, microphthalmia, congenital cataracts, microcornea, corneal opacity and nystagmus. Most of these clinical features overlap with defects in the Norrin/beta-catenin signalling pathway that is characterized by dysgenesis of the retinal and hyaloid vasculature. Our findings document Mendelian mutations within ATOH7 and imply a role for this molecule in the development of structures at the front as well as the back of the eye. This work also provides further insights into the function of ATOH7, especially its importance in retinal vascular development and hyaloid regression.

Published

2011

45. Homozygous Mutations in PXDN Cause Congenital Cataract, Corneal Opacity, and Developmental Glaucoma

Author

Ngy Meng, Robert J Casson, Martin McKibbin, Eamonn Sheridan, Carmel Toomes, Michael Hammerton, Clare V. Logan, Colin A. Johnson, James Muecke, David A. Parry, Chris F. Inglehearn, Kathryn P. Burdon, Graham R. Taylor, Kate J. Laurie, Yasmin Raashid, Manir Ali, Ian M. Carr, Adam K Rudkin, Rhys Fogarty, Narcis Fernandez-Fuentes, Zakia Abdelhamed, Hussain Jafri, Kamron N. Khan, Horm Piseth, Mike Shires, Joanne E. Morgan, James A. Poulter, Jamie E Craig, and Moin Mohamed

Subjects

Models, Molecular, medicine.medical_specialty, genetic structures, Molecular Sequence Data, Glaucoma, medicine.disease_cause, Cataract, Cornea, Extracellular matrix, Mice, 03 medical and health sciences, Dysgenesis, Corneal Opacity, 0302 clinical medicine, Report, Ophthalmology, medicine, Genetics, Animals, Humans, Genetic Predisposition to Disease, Genetics(clinical), Genetics (clinical), Peroxidase, 030304 developmental biology, Extracellular Matrix Proteins, 0303 health sciences, Mutation, Base Sequence, business.industry, Sequence Analysis, DNA, medicine.disease, Phenotype, eye diseases, Pedigree, medicine.anatomical_structure, Microscopy, Fluorescence, Lens (anatomy), 030221 ophthalmology & optometry, Trabecular meshwork, sense organs, business

Abstract

Anterior segment dysgenesis describes a group of heterogeneous developmental disorders that affect the anterior chamber of the eye and are associated with an increased risk of glaucoma. Here, we report homozygous mutations in peroxidasin (PXDN) in two consanguineous Pakistani families with congenital cataract-microcornea with mild to moderate corneal opacity and in a consanguineous Cambodian family with developmental glaucoma and severe corneal opacification. These results highlight the diverse ocular phenotypes caused by PXDN mutations, which are likely due to differences in genetic background and environmental factors. Peroxidasin is an extracellular matrix-associated protein with peroxidase catalytic activity, and we confirmed localization of the protein to the cornea and lens epithelial layers. Our findings imply that peroxidasin is essential for normal development of the anterior chamber of the eye, where it may have a structural role in supporting cornea and lens architecture as well as an enzymatic role as an antioxidant enzyme in protecting the lens, trabecular meshwork, and cornea against oxidative damage.

Published

2011

46. Prognosis for splicing factor PRPF8 retinitis pigmentosa, novel mutations and correlation between human and yeast phenotypes

Author

Rajarshi Mukhopadhyay, Graeme C.M. Black, James O'Sullivan, Cécilia Maubaret, Athina Kipioti, Chris F. Inglehearn, Vernon Long, Martin McKibbin, Raj Ramesar, Anthony T. Moore, Parastoo Ehsani, Andrew R. Webster, Katherine V. Towns, Kelly Springell, Jean D. Beggs, Mohammed Kamal, Veronika Vaclavik, Shomi S. Bhattacharya, David A. Mackey, and Eric A. Pierce

Subjects

Adult, Male, Spliceosome, Adolescent, Mutation, Missense, RNA-binding protein, Biology, Bioinformatics, Young Adult, Exon, Splicing factor, Yeasts, Retinitis pigmentosa, Genetics, medicine, Humans, Missense mutation, Genetics(clinical), Child, Genetics (clinical), Aged, RNA-Binding Proteins, Middle Aged, Prognosis, medicine.disease, Phenotype, Child, Preschool, Mutation, RNA splicing, Female, Carrier Proteins, Retinitis Pigmentosa

Abstract

PRPF8-retinitis pigmentosa is said to be severe but there has been no overview of phenotype across different mutations. We screened RP patients for PRPF8 mutations and identified three new missense mutations, including the first documented mutation outside exon 42 and the first de novo mutation. This brings the known RP-causing mutations in PRPF8 to nineteen. We then collated clinical data from new and published cases to determine an accurate prognosis for PRPF8-RP. Clinical data for 75 PRPF8-RP patients were compared, revealing that while the effect on peripheral retinal function is severe, patients generally retain good visual acuity in at least one eye until the fifth or sixth decade. We also noted that prognosis for PRPF8-RP differs with different mutations, with p.H2309P or p.H2309R having a worse prognosis than p.R2310K. This correlates with the observed difference in growth defect severity in yeast lines carrying the equivalent mutations, though such correlation remains tentative given the limited number of mutations for which information is available. The yeast phenotype is caused by lack of mature spliceosomes in the nucleus, leading to reduced RNA splicing function. Correlation between yeast and human phenotypes suggests that splicing factor RP may also result from an underlying splicing deficit. (C) 2010 Wiley-Liss, Inc.

Published

2010

47. Mutations in the Beta Propeller WDR72 Cause Autosomal-Recessive Hypomaturation Amelogenesis Imperfecta

Author

Chris F. Inglehearn, Hussain Jafri, Walid El-Sayed, Yasmin Rashid, Mushtaq Ahmed, Alan J. Mighell, Sharifa Al Harasi, Jennifer Kirkham, Roger C. Shore, Suhaila Al-Bahlani, and David A. Parry

Subjects

Male, Candidate gene, Amelogenesis Imperfecta, Consanguinity, 0302 clinical medicine, Ameloblasts, Genetics(clinical), Pakistan, Amelogenesis imperfecta, Child, Conserved Sequence, Genetics (clinical), Genetics, 0303 health sciences, Enamel paint, FAM83H, Exons, Immunohistochemistry, Pedigree, visual_art, visual_art.visual_art_medium, Female, Ameloblast, Genetic Markers, Molecular Sequence Data, Nonsense mutation, Genes, Recessive, Biology, Polymorphism, Single Nucleotide, Nuclear Family, Young Adult, 03 medical and health sciences, stomatognathic system, Report, medicine, Humans, Point Mutation, Amino Acid Sequence, 030304 developmental biology, Chromosomes, Human, Pair 15, Sequence Homology, Amino Acid, Point mutation, Proteins, 030206 dentistry, medicine.disease, Protein Structure, Tertiary, Radiography, stomatognathic diseases, Haplotypes, Mutation, Amelogenin, Microsatellite Repeats

Abstract

Healthy dental enamel is the hardest and most highly mineralized human tissue. Though acellular, nonvital, and without capacity for turnover or repair, it can nevertheless last a lifetime. Amelogenesis imperfecta (AI) is a collective term for failure of normal enamel development, covering diverse clinical phenotypes that typically show Mendelian inheritance patterns. One subset, known as hypomaturation AI, is characterised by near-normal volumes of organic enamel matrix but with weak, creamy-brown opaque enamel that fails prematurely after tooth eruption. Mutations in genes critical to enamel matrix formation have been documented, but current understanding of other key events in enamel biomineralization is limited. We investigated autosomal-recessive hypomaturation AI in a consanguineous Pakistani family. A whole-genome SNP autozygosity screen identified a locus on chromosome 15q21.3. Sequencing candidate genes revealed a point mutation in the poorly characterized WDR72 gene. Screening of WDR72 in a panel of nine additional hypomaturation AI families revealed the same mutation in a second, apparently unrelated, Pakistani family and two further nonsense mutations in Omani families. Immunohistochemistry confirmed intracellular localization in maturation-stage ameloblasts. WDR72 function is unknown, but as a putative beta propeller is expected to be a scaffold for protein-protein interactions. The nearest homolog, WDR7, is involved in vesicle mobilization and Ca2+-dependent exocytosis at synapses. Vesicle trafficking is important in maturation-stage ameloblasts with respect to secretion into immature enamel and removal of cleaved enamel matrix proteins via endocytosis. This raises the intriguing possibility that WDR72 is critical to ameloblast vesicle turnover during enamel maturation.

Published

2009

48. Ultrastructural Analyses of Deciduous Teeth Affected by Hypocalcified Amelogenesis Imperfecta from a Family with a Novel Y458X FAM83H Nonsense Mutation

Author

Alan J. Mighell, Walid El-Sayed, Chris F. Inglehearn, David A. Parry, and R.C. Shore

Subjects

musculoskeletal diseases, Male, congenital, hereditary, and neonatal diseases and abnormalities, Histology, Amelogenesis Imperfecta, Nonsense mutation, Dentistry, Biology, Article, Gross examination, stomatognathic system, Deciduous teeth, medicine, Humans, Point Mutation, Amelogenesis imperfecta, Tooth, Deciduous, Dental Enamel, Permanent teeth, Enamel paint, business.industry, Point mutation, Proteins, Spectrometry, X-Ray Emission, FAM83H, DNA, Sequence Analysis, DNA, medicine.disease, Pedigree, stomatognathic diseases, medicine.anatomical_structure, Codon, Nonsense, visual_art, Microscopy, Electron, Scanning, visual_art.visual_art_medium, Calcium, Female, Anatomy, business

Abstract

Background: Nonsense mutations in FAM83H are a recently described underlying cause of autosomal dominant (AD) hypocalcified amelogenesis imperfecta (AI). Objective: This study aims to report a novel c.1374C>A p.Y458X nonsense mutation and describe the associated ultrastructural phenotype of deciduous teeth. Methods: A family of European origin from the Iberian Peninsula with AD-inherited AI was ascertained. Family members were assessed through clinical examination and supporting investigations. Naturally exfoliated deciduous teeth from 2 siblings were investigated by scanning electron microscopy (SEM), energy dispersive X-ray analysis (EDX) and transverse microradiography (TMR). Results: On clinical and radiographic investigation the appearances of the affected deciduous and permanent teeth were consistent with hypocalcified AI with small focal areas of more normal looking enamel. DNA sequencing identified a novel c.1374C>A p.Y458X FAM83H nonsense mutation in affected, but not in either unaffected family members or unrelated controls. Exfoliated teeth were characterised by substantial post-eruptive enamel loss on gross examination. Irregular, poor quality enamel prisms were observed on SEM. These were coated in amorphous material. TMR and EDX confirmed reduced mineral and increased organic content in enamel, respectively. Conclusions:FAM83H nonsense mutations have recently been recognised as a cause of AD hypocalcified AI. We report a novel nonsense FAM83H mutation and describe the associated preliminary ultrastructural phenotype in deciduous teeth. This is characterised by poorly formed enamel rods with inappropriate retention of amorphous material, which is likely to represent retained organic matrix that contributes to the overall hypomineralised phenotype.

Published

2009

49. Ultrastructural changes in the retinopathy, globe enlarged (rge) chick cornea

Author

Manir Ali, Christina S. Kamma-Lorger, Ahmed Elsheikh, Paul Hocking, Chris F. Inglehearn, Robert D. Young, Keith M. Meek, Sally Hayes, and Craig Boote

Subjects

Pathology, medicine.medical_specialty, Corneal stroma, Stromal cell, In Vitro Techniques, Chick, Article, Corneal Diseases, Cornea, Extracellular matrix, 03 medical and health sciences, 0302 clinical medicine, Microscopy, Electron, Transmission, Retinal Diseases, X-Ray Diffraction, Structural Biology, Scattering, Small Angle, medicine, Animals, Biomechanics, Computer Simulation, 030304 developmental biology, 0303 health sciences, Retina, biology, Chemistry, Anatomy, medicine.disease, eye diseases, Collagen fibril, medicine.anatomical_structure, Proteoglycan, 030221 ophthalmology & optometry, biology.protein, Ultrastructure, Collagen, sense organs, Chickens, Retinopathy

Abstract

In the cornea, the precise organisation of fibrillar collagen and associated proteoglycans comprising the stromal extracellular matrix plays a major role in governing tissue form and function. Recently, abnormal collagen alignment was noted in the misshapen corneas of mature chickens affected by the retinopathy, globe enlarged (rge) mutation. Here we further characterize corneal ultrastructural changes as the rge eye develops post-hatch. Wide-angle X-ray scattering disclosed alteration to dominant collagen lamellae directions in the rge chick cornea, compared to age-matched controls. These changes accompanied eye globe enlargement and corneal flattening in affected birds, manifesting as a progressive loss of circumferential collagen alignment in the peripheral cornea and limbus in birds older than I month. Collagen intermolecular separation was unchanged in rge. However, small-angle X-ray scattering results suggest collagen fibril separation and diameter increase more rapidly towards the corneal periphery in rge at 3 months post-hatch compared to controls, although central collagen fibril diameter was unchanged. By transmission electron microscopy utilising cuprolinic blue stain, the morphology and distribution of stromal proteoglycans were unaltered in rge corneas other-wise demonstrating abnormal collagen fibril organisation. From a numerical simulation of tissue mechanics, progressive remodelling of stromal collagen in rge during globe enlargement post-hatch appears to be related to the corneal morphometric changes presented by the disease. (C) 2009 Elsevier Inc. All rights reserved.

Published

2009

50. Collagen organization in the chicken cornea and structural alterations in the retinopathy, globe enlarged (rge) phenotype—An X-ray diffraction study

Author

Manir Ali, Chris F. Inglehearn, Simon Jones, Andrew J. Quantock, Paul M Hocking, Keith M. Meek, Sally Hayes, and Craig Boote

Subjects

animal structures, genetic structures, Chemistry, Anatomy, medicine.disease, Fibril, Phenotype, eye diseases, Collagen fibril, Cornea, medicine.anatomical_structure, Retinal Diseases, X-Ray Diffraction, Structural Biology, Corneal shape, Mutation, medicine, Animals, Collagen, sense organs, Flat cornea, Chickens, Retinopathy

Abstract

An investigation into the collagenous structure of the mature avian cornea is presented. Wide-angle X-ray diffraction is employed to assess collagen organization in 9-month-old chicken corneas. The central 2–4 mm corneal region features a preponderance of fibrils directed along the superior–inferior and nasal-temporal orthogonal meridians. More peripherally the orientation of fibrils alters in favor of a predominantly tangential arrangement. The chicken cornea appears to be circumscribed by an annulus of fibrils that extends into the limbus. The natural arrangement of collagen in the chicken cornea is discussed in relation to corneal shape and the mechanical requirements of avian corneal accommodation. Equivalent data are also presented from age-matched blind chickens affected with the retinopathy, globe enlarged (rge) mutation, characterized by an abnormally thick and flat cornea. The data indicate considerable realignment and redistribution of collagen lamellae in the peripheral rge cornea. In contrast to normal chickens, no obvious tangential collagen alignment was evident in the periphery of rge corneas. In mammals, the presence of a limbal fibril annulus is believed to be important in corneal shape preservation. We postulate that corneal flattening in rge chickens may be related to biomechanical changes brought about by an alteration in collagen arrangement at the corneal periphery.

Published

2008