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1. Predicting risk of cardiovascular disease using retinal OCT imaging

Author

Maldonado-Garcia, Cynthia, Bonazzola, Rodrigo, Ferrante, Enzo, Julian, Thomas H, Sergouniotis, Panagiotis I, Ravikumara, Nishant, and Frangi, Alejandro F

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning
Abstract

We investigated the potential of optical coherence tomography (OCT) as an additional imaging technique to predict future cardiovascular disease (CVD). We utilised a self-supervised deep learning approach based on Variational Autoencoders (VAE) to learn low-dimensional representations of high-dimensional 3D OCT images and to capture distinct characteristics of different retinal layers within the OCT image. A Random Forest (RF) classifier was subsequently trained using the learned latent features and participant demographic and clinical data, to differentiate between patients at risk of CVD events (MI or stroke) and non-CVD cases. Our predictive model, trained on multimodal data, was assessed based on its ability to correctly identify individuals likely to suffer from a CVD event(MI or stroke), within a 5-year interval after image acquisition. Our self-supervised VAE feature selection and multimodal Random Forest classifier differentiate between patients at risk of future CVD events and the control group with an AUC of 0.75, outperforming the clinically established QRISK3 score (AUC= 0.597). The choroidal layer visible in OCT images was identified as an important predictor of future CVD events using a novel approach to model explanability. Retinal OCT imaging provides a cost-effective and non-invasive alternative to predict the risk of cardiovascular disease and is readily accessible in optometry practices and hospitals., Comment: 18 pages for main manuscript, 7 figures, 2 pages for appendix and preprint for a journal

Published
2024

3. The co-occurrence of genetic variants in the TYR and OCA2 genes confers susceptibility to albinism

Author

David J. Green, Vincent Michaud, Eulalie Lasseaux, Claudio Plaisant, UK Biobank Eye and Vision Consortium, Tomas Fitzgerald, Ewan Birney, Graeme C. Black, Benoît Arveiler, and Panagiotis I. Sergouniotis

Subjects
Science
Abstract

Abstract Although rare genetic conditions are mostly caused by DNA sequence alterations that functionally disrupt individual genes, large-scale studies using genome sequencing have started to unmask additional complexity. Understanding how combinations of variants in different genes shape human phenotypes is expected to provide important insights into the clinical and genetic heterogeneity of rare disorders. Here, we use albinism, an archetypal rare condition associated with hypopigmentation, as an exemplar for the study of genetic interactions. We analyse data from the Genomics England 100,000 Genomes Project alongside a cohort of 1120 individuals with albinism, and investigate the effect of dual heterozygosity for the combination of two established albinism-related variants: TYR:c.1205 G > A (p.Arg402Gln) [rs1126809] and OCA2:c.1327 G > A (p.Val443Ile) [rs74653330]. As each of these changes alone is insufficient to cause disease when present in the heterozygous state, we sought evidence of synergistic effects. We show that, when both variants are present, the probability of receiving a diagnosis of albinism is significantly increased (odds ratio 12.8; 95% confidence interval 6.0 – 24.7; p-value 2.1 ×10−8). Further analyses in an independent cohort, the UK Biobank, support this finding and highlight that heterozygosity for the TYR:c.1205 G > A and OCA2:c.1327 G > A variant combination is associated with statistically significant alterations in visual acuity and central retinal thickness (traits that are considered albinism endophenotypes). The approach discussed in this report opens up new avenues for the investigation of oligogenic patterns in apparently Mendelian disorders.

Published
2024
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8. Clinical, biochemical and molecular analysis in a cohort of individuals with gyrate atrophy

Author

Eleanor Palmer, Karolina M. Stepien, Christopher Campbell, Stephanie Barton, Christos Iosifidis, Arunabha Ghosh, Alexander Broomfield, Alison Woodall, Gisela Wilcox, Panagiotis I. Sergouniotis, and Graeme C. Black

Subjects
Gyrate atrophy, Inborn errors of metabolism, Inherited retinal disorders, Hyperornithinaemia, Ornithine aminotransferase deficiency, OAT, Medicine
Abstract

Abstract Background Gyrate atrophy of the choroid and retina is a rare autosomal recessive metabolic disorder caused by biallelic variants in the OAT gene, encoding the enzyme ornithine δ-aminotransferase. Impaired enzymatic activity leads to systemic hyperornithinaemia, which in turn underlies progressive chorioretinal degeneration. In this study, we describe the clinical and molecular findings in a cohort of individuals with gyrate atrophy. Methods Study participants were recruited through a tertiary UK clinical ophthalmic genetic service. All cases had a biochemical and molecular diagnosis of gyrate atrophy. Retrospective phenotypic and biochemical data were collected using electronic healthcare records. Results 18 affected individuals from 12 families (8 male, 10 female) met the study inclusion criteria. The median age at diagnosis was 8 years (range 10 months – 33 years) and all cases had hyperornithinaemia (median: 800 micromoles/L; range: 458–1244 micromoles/L). Common features at presentation included high myopia (10/18) and nyctalopia (5/18). Ophthalmic findings were present in all study participants who were above the age of 6 years. One third of patients had co-existing macular oedema and two thirds developed pre-senile cataracts. Compliance with dietary modifications was suboptimal in most cases. A subset of participants had extraocular features including a trend towards reduced fat-free mass and developmental delay. Conclusions Our findings highlight the importance of multidisciplinary care in families with gyrate atrophy. Secondary ophthalmic complications such as macular oedema and cataract formation are common. Management of affected individuals remains challenging due to the highly restrictive nature of the recommended diet and the limited evidence-base for current strategies.

Published
2023
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9. Causal factors in primary open angle glaucoma: a phenome-wide Mendelian randomisation study

Author

Thomas H. Julian, Zain Girach, Eleanor Sanderson, Hui Guo, Jonathan Yu, Johnathan Cooper-Knock, Graeme C. Black, and Panagiotis I. Sergouniotis

Subjects
Medicine, Science
Abstract

Abstract Primary open angle glaucoma (POAG) is a chronic, adult-onset optic neuropathy associated with characteristic optic disc and/or visual field changes. With a view to identifying modifiable risk factors for this common neurodegenerative condition, we performed a ‘phenome-wide’ univariable Mendelian randomisation (MR) study that involved analysing the relationship between 9661 traits and POAG. Utilised analytical approaches included weighted mode based estimation, the weighted median method, the MR Egger method and the inverse variance weighted (IVW) approach. Eleven traits related to POAG risk were identified including: serum levels of the angiopoietin-1 receptor (OR [odds ratio] = 1.11, IVW p = 2.34E-06) and the cadherin 5 protein (OR = 1.06, IVW p = 1.31E-06); intraocular pressure (OR = 2.46–3.79, IVW p = 8.94E-44–3.00E-27); diabetes (OR = 5.17, beta = 1.64, IVW p = 9.68E-04); and waist circumference (OR = 0.79, IVW p = 1.66E-05). Future research focussing on the effects of adiposity, cadherin 5 and angiopoietin-1 receptor on POAG development and progression is expected to provide key insights that might inform the provision of lifestyle modification advice and/or the development of novel therapies.

Published
2023
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10. Beyond factor H: The impact of genetic-risk variants for age-related macular degeneration on circulating factor-H-like 1 and factor-H-related protein concentrations

Author

Cipriani, Valentina, Tierney, Anna, Griffiths, John R, Zuber, Verena, Sergouniotis, Panagiotis I, Yates, John RW, Moore, Anthony T, Bishop, Paul N, Clark, Simon J, and Unwin, Richard D

Subjects
Aging, Macular Degeneration, Neurodegenerative, Eye Disease and Disorders of Vision, Genetics, 2.1 Biological and endogenous factors, Aetiology, Aged, Case-Control Studies, Complement C3b Inactivator Proteins, Complement Factor H, Female, Genetic Predisposition to Disease, Humans, Male, Polymorphism, Single Nucleotide, Risk Factors, Mendelian randomization, age-related macular degeneration, complement factor H, factor H-related, mass spectrometry, Biological Sciences, Medical and Health Sciences, Genetics & Heredity
Abstract

Age-related macular degeneration (AMD) is a leading cause of vision loss; there is strong genetic susceptibility at the complement factor H (CFH) locus. This locus encodes a series of complement regulators: factor H (FH), a splice variant factor-H-like 1 (FHL-1), and five factor-H-related proteins (FHR-1 to FHR-5), all involved in the regulation of complement factor C3b turnover. Little is known about how AMD-associated variants at this locus might influence FHL-1 and FHR protein concentrations. We have used a bespoke targeted mass-spectrometry assay to measure the circulating concentrations of all seven complement regulators and demonstrated elevated concentrations in 352 advanced AMD-affected individuals for all FHR proteins (FHR-1, p = 2.4 × 10-10; FHR-2, p = 6.0 × 10-10; FHR-3, p = 1.5 × 10-5; FHR-4, p = 1.3 × 10-3; FHR-5, p = 1.9 × 10-4) and FHL-1 (p = 4.9 × 10-4) when these individuals were compared to 252 controls, whereas no difference was seen for FH (p = 0.94). Genome-wide association analyses in controls revealed genome-wide-significant signals at the CFH locus for all five FHR proteins, and univariate Mendelian-randomization analyses strongly supported the association of FHR-1, FHR-2, FHR-4, and FHR-5 with AMD susceptibility. These findings provide a strong biochemical explanation for how genetically driven alterations in circulating FHR proteins could be major drivers of AMD and highlight the need for research into FHR protein modulation as a viable therapeutic avenue for AMD.

Published
2021

11. An Improved Phenotype-Driven Tool for Rare Mendelian Variant Prioritization: Benchmarking Exomiser on Real Patient Whole-Exome Data.

Author

Cipriani, Valentina, Pontikos, Nikolas, Arno, Gavin, Sergouniotis, Panagiotis I, Lenassi, Eva, Thawong, Penpitcha, Danis, Daniel, Michaelides, Michel, Webster, Andrew R, Moore, Anthony T, Robinson, Peter N, Jacobsen, Julius OB, and Smedley, Damian

Subjects
bioinformatics, human phenotype ontology, inherited retinal disease, phenotypic similarity, rare disease, variant prioritization, whole-exome sequencing, whole-genome sequencing, Genetics
Abstract

Next-generation sequencing has revolutionized rare disease diagnostics, but many patients remain without a molecular diagnosis, particularly because many candidate variants usually survive despite strict filtering. Exomiser was launched in 2014 as a Java tool that performs an integrative analysis of patients' sequencing data and their phenotypes encoded with Human Phenotype Ontology (HPO) terms. It prioritizes variants by leveraging information on variant frequency, predicted pathogenicity, and gene-phenotype associations derived from human diseases, model organisms, and protein-protein interactions. Early published releases of Exomiser were able to prioritize disease-causative variants as top candidates in up to 97% of simulated whole-exomes. The size of the tested real patient datasets published so far are very limited. Here, we present the latest Exomiser version 12.0.1 with many new features. We assessed the performance using a set of 134 whole-exomes from patients with a range of rare retinal diseases and known molecular diagnosis. Using default settings, Exomiser ranked the correct diagnosed variants as the top candidate in 74% of the dataset and top 5 in 94%; not using the patients' HPO profiles (i.e., variant-only analysis) decreased the performance to 3% and 27%, respectively. In conclusion, Exomiser is an effective support tool for rare Mendelian phenotype-driven variant prioritization.

Published
2020

12. Expansion of the Human Phenotype Ontology (HPO) knowledge base and resources

Author

Köhler, Sebastian, Carmody, Leigh, Vasilevsky, Nicole, Jacobsen, Julius OB, Danis, Daniel, Gourdine, Jean-Philippe, Gargano, Michael, Harris, Nomi L, Matentzoglu, Nicolas, McMurry, Julie A, Osumi-Sutherland, David, Cipriani, Valentina, Balhoff, James P, Conlin, Tom, Blau, Hannah, Baynam, Gareth, Palmer, Richard, Gratian, Dylan, Dawkins, Hugh, Segal, Michael, Jansen, Anna C, Muaz, Ahmed, Chang, Willie H, Bergerson, Jenna, Laulederkind, Stanley JF, Yüksel, Zafer, Beltran, Sergi, Freeman, Alexandra F, Sergouniotis, Panagiotis I, Durkin, Daniel, Storm, Andrea L, Hanauer, Marc, Brudno, Michael, Bello, Susan M, Sincan, Murat, Rageth, Kayli, Wheeler, Matthew T, Oegema, Renske, Lourghi, Halima, Della Rocca, Maria G, Thompson, Rachel, Castellanos, Francisco, Priest, James, Cunningham-Rundles, Charlotte, Hegde, Ayushi, Lovering, Ruth C, Hajek, Catherine, Olry, Annie, Notarangelo, Luigi, Similuk, Morgan, Zhang, Xingmin A, Gómez-Andrés, David, Lochmüller, Hanns, Dollfus, Hélène, Rosenzweig, Sergio, Marwaha, Shruti, Rath, Ana, Sullivan, Kathleen, Smith, Cynthia, Milner, Joshua D, Leroux, Dorothée, Boerkoel, Cornelius F, Klion, Amy, Carter, Melody C, Groza, Tudor, Smedley, Damian, Haendel, Melissa A, Mungall, Chris, and Robinson, Peter N

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Networking and Information Technology R&D (NITRD), Rare Diseases, Generic health relevance, Good Health and Well Being, Biological Ontologies, Computational Biology, Congenital Abnormalities, Databases, Genetic, Genetic Predisposition to Disease, Genetic Variation, Humans, Internet, Knowledge Bases, Phenotype, Whole Genome Sequencing, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences
Abstract

The Human Phenotype Ontology (HPO)-a standardized vocabulary of phenotypic abnormalities associated with 7000+ diseases-is used by thousands of researchers, clinicians, informaticians and electronic health record systems around the world. Its detailed descriptions of clinical abnormalities and computable disease definitions have made HPO the de facto standard for deep phenotyping in the field of rare disease. The HPO's interoperability with other ontologies has enabled it to be used to improve diagnostic accuracy by incorporating model organism data. It also plays a key role in the popular Exomiser tool, which identifies potential disease-causing variants from whole-exome or whole-genome sequencing data. Since the HPO was first introduced in 2008, its users have become both more numerous and more diverse. To meet these emerging needs, the project has added new content, language translations, mappings and computational tooling, as well as integrations with external community data. The HPO continues to collaborate with clinical adopters to improve specific areas of the ontology and extend standardized disease descriptions. The newly redesigned HPO website (www.human-phenotype-ontology.org) simplifies browsing terms and exploring clinical features, diseases, and human genes.

Published
2019

13. The contribution of common regulatory and protein-coding TYR variants to the genetic architecture of albinism

Author

Vincent Michaud, Eulalie Lasseaux, David J. Green, Dave T. Gerrard, Claudio Plaisant, UK Biobank Eye and Vision Consortium, Tomas Fitzgerald, Ewan Birney, Benoît Arveiler, Graeme C. Black, and Panagiotis I. Sergouniotis

Subjects
Science
Abstract

Albinism is a rare disorder often caused by high-effect rare variants in the TYR gene. Here, the authors study a large albinism cohort and find that a common variant in the TYR promoter contributes to albinism by modifying the penetrance of other common variants, demonstrating a complex genetic architecture.

Published
2022
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14. Trends and outcomes of fertility preservation for girls, adolescents and young adults with Turner syndrome: A prospective cohort study

Author

Kenny A. Rodriguez-Wallberg, Fotios Sergouniotis, Hanna P. Nilsson, and Frida E. Lundberg

Subjects
fertility preservation, Turner syndrome, fertility, ovarian tissue cryopreservation, pre-pubertal girls, adolescents, Diseases of the endocrine glands. Clinical endocrinology, RC648-665
Abstract

BackgroundIn Scandinavian countries, programs for fertility preservation (FP) are offered free of charge at tertiary-care university hospitals to all patients facing infertility risks due to malignant diagnoses or benign conditions. In this prospective study we aimed to investigate trends and outcomes of FP indicated by a diagnosis of Turner syndrome.MethodsProspective cohort study of patients with Turner karyotype receiving fertility preservation counselling at the Karolinska University Hospital between 1 January 1999 and 31 December 2021.ResultsThe cohort included 100 women and girls that received counselling, whereof 27% were prepubertal girls, 59% were adolescents and 14% of adult age. Before 2006 all patients were referred for fertility counselling at the time of Turner diagnosis. Based on updated guidelines, mainly patients who showed signs of puberty were referred after 2006. As a result, spontaneous menarche was more common in the later period. In total, 39% of the cohort had monosomal karyotype (45X), 20% had 45X/46XX or 45X/47XXX mosaicisms and 36% had an X-chromosomal structural anomaly. Ovarian tissue cryopreservation was planned for 73% of all patients, and oocyte cryopreservation following gonadotropin stimulation was planned for 10% of the patients. Follicles were present in 25% of all biopsies analyzed. Adolescents were more likely to have follicles present (30%) than prepubertal girls (16%) or adult women (17%). The ten patients that underwent gonadotropin stimulation for oocyte cryopreservation underwent a total of 15 cycles and eight patients successfully preserved oocytes. In total, 26% of the cohort has undergone fertility treatment or expressed further interest in fertility preservation. Six women have given birth using donated oocytes and three following spontaneous conception. Two women have undergone re-transplantation of cryopreserved ovarian tissue, without regaining ovarian function, and none of the women that have cryopreserved oocytes has returned to use them.ConclusionFertility counselling for girls with Turner syndrome should ideally be offered at onset of spontaneous puberty to improve the chances of fertility preservation. Since the girls and women in this cohort are still young, the return rate and utilization of the preserved tissue and oocytes is expected to increase with time.Clinical Trial RegistrationClinicalTrials.gov, identifier NTC04602962.

Published
2023
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16. O31: Risk allele evidence curation, classification, and reporting: Recommendations from the ClinGen Low Penetrance/Risk Allele Working Group

Author

Matthew Lebo, Marcie Steeves, Katherine Benson, Laura Conlin, Mythily Ganapathi, Vaidehi Jobanputra, Minjie Luo, Deqiong Ma, Kelly McGoldrick, Blake Palculict, Heidi Rehm, Panagiotis Sergouniotis, Samantha Schilit, Pinar Bayrak-Toydemir, Tatiana Tvrdik, Nicholas Watkins, Lauren Zec, Wenying Zhang Zhang, and Ryan Schmidt

Subjects
Genetics, QH426-470, Medicine
Published
2023
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17. From genetic variation to precision medicine

Author

Panagiotis I. Sergouniotis, Tomas Fitzgerald, and Ewan Birney

Subjects
data integration, genetics, genomics, personalized medicine, Internal medicine, RC31-1245, Therapeutics. Pharmacology, RM1-950
Abstract

Genetics has been an important tool for discovering new aspects of biology across life. In humans, there is growing momentum behind the application of this knowledge to drive innovation in clinical care, most notably through developments in precision medicine. Nowhere has the impact of genetics on clinical practice been more striking than in the field of rare disorders. For most of these conditions, individual disease susceptibility is influenced by DNA sequence variation in a single or a small number of genes. In contrast, most common disorders are multifactorial and are caused by a complex interplay of multiple genetic, environmental and stochastic factors. The longstanding division of human disease genetics into rare and common components has obscured the continuum of human traits and echoes aspects of the century-old debate between the Mendelian and biometric views of human genetics. In this article, we discuss the differences in data and concepts between rare and common disease genetics. Opportunities to unify these two areas are noted and the importance of adopting a holistic perspective that integrates diverse genetic and environmental factors is discussed.

Published
2023
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18. Phenome-wide Mendelian randomisation analysis identifies causal factors for age-related macular degeneration

Author

Thomas H Julian, Johnathan Cooper-Knock, Stuart MacGregor, Hui Guo, Tariq Aslam, Eleanor Sanderson, Graeme CM Black, and Panagiotis I Sergouniotis

Subjects
age-related macular degeneration, statistics, macular degeneration, Mendelian randomisation, Mendelian randomization, causal inference, Medicine, Science, Biology (General), QH301-705.5
Abstract

Background: Age-related macular degeneration (AMD) is a leading cause of blindness in the industrialised world and is projected to affect >280 million people worldwide by 2040. Aiming to identify causal factors and potential therapeutic targets for this common condition, we designed and undertook a phenome-wide Mendelian randomisation (MR) study. Methods: We evaluated the effect of 4591 exposure traits on early AMD using univariable MR. Statistically significant results were explored further using: validation in an advanced AMD cohort; MR Bayesian model averaging (MR-BMA); and multivariable MR. Results: Overall, 44 traits were found to be putatively causal for early AMD in univariable analysis. Serum proteins that were found to have significant relationships with AMD included S100-A5 (odds ratio [OR] = 1.07, p-value = 6.80E−06), cathepsin F (OR = 1.10, p-value = 7.16E−05), and serine palmitoyltransferase 2 (OR = 0.86, p-value = 1.00E−03). Univariable MR analysis also supported roles for complement and immune cell traits. Although numerous lipid traits were found to be significantly related to AMD, MR-BMA suggested a driving causal role for serum sphingomyelin (marginal inclusion probability [MIP] = 0.76; model-averaged causal estimate [MACE] = 0.29). Conclusions: The results of this MR study support several putative causal factors for AMD and highlight avenues for future translational research. Funding: This project was funded by the Wellcome Trust (224643/Z/21/Z; 200990/Z/16/Z); the University of Manchester’s Wellcome Institutional Strategic Support Fund (Wellcome ISSF) grant (204796/Z/16/Z); the UK National Institute for Health Research (NIHR) Academic Clinical Fellow and Clinical Lecturer Programmes; Retina UK and Fight for Sight (GR586); the Australian National Health and Medical Research Council (NHMRC) (1150144).

Published
2023
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19. Comparison of in silico strategies to prioritize rare genomic variants impacting RNA splicing for the diagnosis of genomic disorders

Author

Charlie Rowlands, Huw B. Thomas, Jenny Lord, Htoo A. Wai, Gavin Arno, Glenda Beaman, Panagiotis Sergouniotis, Beatriz Gomes-Silva, Christopher Campbell, Nicole Gossan, Claire Hardcastle, Kevin Webb, Christopher O’Callaghan, Robert A. Hirst, Simon Ramsden, Elizabeth Jones, Jill Clayton-Smith, Andrew R. Webster, Genomics England Research Consortium, Andrew G. L. Douglas, Raymond T. O’Keefe, William G. Newman, Diana Baralle, Graeme C. M. Black, and Jamie M. Ellingford

Subjects
Medicine, Science
Abstract

Abstract The development of computational methods to assess pathogenicity of pre-messenger RNA splicing variants is critical for diagnosis of human disease. We assessed the capability of eight algorithms, and a consensus approach, to prioritize 249 variants of uncertain significance (VUSs) that underwent splicing functional analyses. The capability of algorithms to differentiate VUSs away from the immediate splice site as being ‘pathogenic’ or ‘benign’ is likely to have substantial impact on diagnostic testing. We show that SpliceAI is the best single strategy in this regard, but that combined usage of tools using a weighted approach can increase accuracy further. We incorporated prioritization strategies alongside diagnostic testing for rare disorders. We show that 15% of 2783 referred individuals carry rare variants expected to impact splicing that were not initially identified as ‘pathogenic’ or ‘likely pathogenic’; one in five of these cases could lead to new or refined diagnoses.

Published
2021
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20. Generation of a human induced pluripotent stem cell line carrying the TYR c.575C>A (p.Ser192Tyr) and c.1205G>A (p.Arg402Gln) variants in homozygous state using CRISPR-Cas9 genome editing

Author

Jingshu Liu, Graeme C. Black, Susan J. Kimber, and Panagiotis I. Sergouniotis

Subjects
Biology (General), QH301-705.5
Abstract

TYR encodes tyrosinase, the enzyme catalysing the first steps of melanin biosynthesis in melanocytes and retinal pigment epithelia (RPE). The TYR c.575C>A (p.Ser192Tyr) [rs1042602] and c.1205G>A (p.Arg402Gln) [rs1126809] variants are prevalent genetic changes that have been associated with multiple pigmentation traits. Notably, individuals who are homozygous for these two missense variants are predisposed to having albinism. Here we used CRISPR-Cas9 technology to generate an induced pluripotent stem cell (iPSC) line (WTSIi253-A-2) that carries both c.575C>A and c.1205G>A in homozygous state. The line expresses pluripotency markers and exhibits multi-lineage differentiation potential, providing a useful in vitro model for investigating albinism pathogenesis.

Published
2022
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21. Biallelic Mutation of ARHGEF18, Involved in the Determination of Epithelial Apicobasal Polarity, Causes Adult-Onset Retinal Degeneration

Author

Arno, Gavin, Carss, Keren J, Hull, Sarah, Zihni, Ceniz, Robson, Anthony G, Fiorentino, Alessia, Hardcastle, Alison J, Holder, Graham E, Cheetham, Michael E, Plagnol, Vincent, Moore, Anthony, Raymond, F Lucy, Matter, Karl, Balda, Maria S, Webster, Andrew R, Black, Graeme, Hall, Georgina, Ingram, Stuart, Gillespie, Rachel, Manson, Forbes, Sergouniotis, Panagiotis, Inglehearn, Chris, Toomes, Carmel, Ali, Manir, McKibbin, Martin, Poulter, James, Khan, Kamron, Lord, Emma, Nemeth, Andrea, Downes, Susan, Halford, Stephanie, Yu, Jing, Lise, Stefano, Ponitkos, Nikos, Michaelides, Michel, Webster, Andrew, van Heyningen, Veronica, Aitman, Timothy, Alachkar, Hana, Ali, Sonia, Allen, Louise, Allsup, David, Ambegaonkar, Gautum, Anderson, Julie, Antrobus, Richard, Armstrong, Ruth, Arumugakani, Gururaj, Ashford, Sofie, Astle, William, Attwood, Antony, Austin, Steve, Bacchelli, Chiara, Bakchoul, Tamam, Bariana, Tadbir K, Baxendale, Helen, Bennett, David, Bethune, Claire, Bibi, Shahnaz, Bitner-Glindzicz, Maria, Bleda, Marta, Boggard, Harm, Bolton-Maggs, Paula, Booth, Claire, Bradley, John R, Brady, Angie, Brown, Matthew, Browning, Michael, Bryson, Christine, Burns, Siobhan, Calleja, Paul, Canham, Natalie, Carmichael, Jenny, Carss, Keren, Caulfield, Mark, Chalmers, Elizabeth, Chandra, Anita, Chinnery, Patrick, Chitre, Manali, Church, Colin, Clement, Emma, Clements-Brod, Naomi, Clowes, Virginia, Coghlan, Gerry, Collins, Peter, Cooper, Nichola, Creaser-Myers, Amanda, DaCosta, Rosa, Daugherty, Louise, Davies, Sophie, Davis, John, De Vries, Minka, Deegan, Patrick, Deevi, Sri VV, and Deshpande, Charu

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Biomedical and Clinical Sciences, Genetics, Ophthalmology and Optometry, Human Genome, Rare Diseases, Neurosciences, Eye Disease and Disorders of Vision, Aetiology, 2.1 Biological and endogenous factors, Eye, Adult, Alleles, Amino Acid Sequence, Cell Polarity, Epithelial Cells, Exome, Eye Proteins, Female, Genetic Variation, Genome-Wide Association Study, Genotype, Humans, Male, Membrane Proteins, Middle Aged, Mutation, Missense, Nerve Tissue Proteins, Pedigree, Phenotype, Retina, Retinal Degeneration, Retinal Dystrophies, Rho Guanine Nucleotide Exchange Factors, rhoA GTP-Binding Protein, UK Inherited Retinal Disease Consortium, NIHR Bioresource - Rare Diseases Consortium, ARHGEF18, apicobasal polarity, inherited retinal dystrophy, p114RhoGEF, retinal degeneration, retinitis pigmentosa, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
Abstract

Mutations in more than 250 genes are implicated in inherited retinal dystrophy; the encoded proteins are involved in a broad spectrum of pathways. The presence of unsolved families after highly parallel sequencing strategies suggests that further genes remain to be identified. Whole-exome and -genome sequencing studies employed here in large cohorts of affected individuals revealed biallelic mutations in ARHGEF18 in three such individuals. ARHGEF18 encodes ARHGEF18, a guanine nucleotide exchange factor that activates RHOA, a small GTPase protein that is a key component of tight junctions and adherens junctions. This biological pathway is known to be important for retinal development and function, as mutation of CRB1, encoding another component, causes retinal dystrophy. The retinal structure in individuals with ARHGEF18 mutations resembled that seen in subjects with CRB1 mutations. Five mutations were found on six alleles in the three individuals: c.808A>G (p.Thr270Ala), c.1617+5G>A (p.Asp540Glyfs∗63), c.1996C>T (p.Arg666∗), c.2632G>T (p.Glu878∗), and c.2738_2761del (p.Arg913_Glu920del). Functional tests suggest that each disease genotype might retain some ARHGEF18 activity, such that the phenotype described here is not the consequence of nullizygosity. In particular, the p.Thr270Ala missense variant affects a highly conserved residue in the DBL homology domain, which is required for the interaction and activation of RHOA. Previously, knock-out of Arhgef18 in the medaka fish has been shown to cause larval lethality which is preceded by retinal defects that resemble those seen in zebrafish Crumbs complex knock-outs. The findings described here emphasize the peculiar sensitivity of the retina to perturbations of this pathway, which is highlighted as a target for potential therapeutic strategies.

Published
2017

22. The Human Phenotype Ontology in 2017

Author

Köhler, Sebastian, Vasilevsky, Nicole A, Engelstad, Mark, Foster, Erin, McMurry, Julie, Aymé, Ségolène, Baynam, Gareth, Bello, Susan M, Boerkoel, Cornelius F, Boycott, Kym M, Brudno, Michael, Buske, Orion J, Chinnery, Patrick F, Cipriani, Valentina, Connell, Laureen E, Dawkins, Hugh JS, DeMare, Laura E, Devereau, Andrew D, de Vries, Bert BA, Firth, Helen V, Freson, Kathleen, Greene, Daniel, Hamosh, Ada, Helbig, Ingo, Hum, Courtney, Jähn, Johanna A, James, Roger, Krause, Roland, Laulederkind, Stanley JF, Lochmüller, Hanns, Lyon, Gholson J, Ogishima, Soichi, Olry, Annie, Ouwehand, Willem H, Pontikos, Nikolas, Rath, Ana, Schaefer, Franz, Scott, Richard H, Segal, Michael, Sergouniotis, Panagiotis I, Sever, Richard, Smith, Cynthia L, Straub, Volker, Thompson, Rachel, Turner, Catherine, Turro, Ernest, Veltman, Marijcke WM, Vulliamy, Tom, Yu, Jing, von Ziegenweidt, Julie, Zankl, Andreas, Züchner, Stephan, Zemojtel, Tomasz, Jacobsen, Julius OB, Groza, Tudor, Smedley, Damian, Mungall, Christopher J, Haendel, Melissa, and Robinson, Peter N

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Networking and Information Technology R&D (NITRD), Human Genome, 2.6 Resources and infrastructure (aetiology), 4.5 Resources and infrastructure (detection), Generic health relevance, Good Health and Well Being, Algorithms, Biological Ontologies, Computational Biology, Genetic Association Studies, Genomics, Humans, Phenotype, Precision Medicine, Rare Diseases, Software, Translational Research, Biomedical, Environmental Sciences, Information and Computing Sciences, Developmental Biology, Biological sciences, Chemical sciences, Environmental sciences
Abstract

Deep phenotyping has been defined as the precise and comprehensive analysis of phenotypic abnormalities in which the individual components of the phenotype are observed and described. The three components of the Human Phenotype Ontology (HPO; www.human-phenotype-ontology.org) project are the phenotype vocabulary, disease-phenotype annotations and the algorithms that operate on these. These components are being used for computational deep phenotyping and precision medicine as well as integration of clinical data into translational research. The HPO is being increasingly adopted as a standard for phenotypic abnormalities by diverse groups such as international rare disease organizations, registries, clinical labs, biomedical resources, and clinical software tools and will thereby contribute toward nascent efforts at global data exchange for identifying disease etiologies. This update article reviews the progress of the HPO project since the debut Nucleic Acids Research database article in 2014, including specific areas of expansion such as common (complex) disease, new algorithms for phenotype driven genomic discovery and diagnostics, integration of cross-species mapping efforts with the Mammalian Phenotype Ontology, an improved quality control pipeline, and the addition of patient-friendly terminology.

Published
2017

23. Mutations in REEP6 Cause Autosomal-Recessive Retinitis Pigmentosa

Author

Arno, Gavin, Agrawal, Smriti A, Eblimit, Aiden, Bellingham, James, Xu, Mingchu, Wang, Feng, Chakarova, Christina, Parfitt, David A, Lane, Amelia, Burgoyne, Thomas, Hull, Sarah, Carss, Keren J, Fiorentino, Alessia, Hayes, Matthew J, Munro, Peter M, Nicols, Ralph, Pontikos, Nikolas, Holder, Graham E, UKIRDC, Black, Graeme, Hall, Georgina, Ingram, Stuart, Gillespie, Rachel, Manson, Forbes, Sergouniotis, Panagiotis, Inglehearn, Chris, Toomes, Carmel, Ali, Manir, McKibbin, Martin, Poulter, James, Khan, Kamron, Lord, Emma, Nemeth, Andrea, Downes, Susan, Yu, Jing, Lise, Stefano, Ponitkos, Nikos, Plagnol, Vincent, Michaelides, Michel, Hardcastle, Alison J, Cheetham, Michael E, Webster, Andrew R, van Heyningen, Veronica, Asomugha, Chinwe, Raymond, F Lucy, Moore, Anthony T, Li, Yumei, Cukras, Catherine, and Chen, Rui

Subjects
Genetics, Biotechnology, Neurodegenerative, Rare Diseases, Clinical Research, Eye Disease and Disorders of Vision, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Eye, Adolescent, Alleles, Animals, Child, Child, Preschool, Eye Proteins, Female, Genes, Recessive, Humans, Induced Pluripotent Stem Cells, Male, Membrane Proteins, Membrane Transport Proteins, Mice, Mutation, Mutation, Missense, Phenotype, Photoreceptor Cells, Vertebrate, Retinitis Pigmentosa, Young Adult, UKIRDC, Biological Sciences, Medical and Health Sciences, Genetics & Heredity
Abstract

Retinitis pigmentosa (RP) is the most frequent form of inherited retinal dystrophy. RP is genetically heterogeneous and the genes identified to date encode proteins involved in a wide range of functional pathways, including photoreceptor development, phototransduction, the retinoid cycle, cilia, and outer segment development. Here we report the identification of biallelic mutations in Receptor Expression Enhancer Protein 6 (REEP6) in seven individuals with autosomal-recessive RP from five unrelated families. REEP6 is a member of the REEP/Yop1 family of proteins that influence the structure of the endoplasmic reticulum but is relatively unstudied. The six variants identified include three frameshift variants, two missense variants, and a genomic rearrangement that disrupts exon 1. Human 3D organoid optic cups were used to investigate REEP6 expression and confirmed the expression of a retina-specific isoform REEP6.1, which is specifically affected by one of the frameshift mutations. Expression of the two missense variants (c.383C>T [p.Pro128Leu] and c.404T>C [p.Leu135Pro]) and the REEP6.1 frameshift mutant in cultured cells suggest that these changes destabilize the protein. Furthermore, CRISPR-Cas9-mediated gene editing was used to produce Reep6 knock-in mice with the p.Leu135Pro RP-associated variant identified in one RP-affected individual. The homozygous knock-in mice mimic the clinical phenotypes of RP, including progressive photoreceptor degeneration and dysfunction of the rod photoreceptors. Therefore, our study implicates REEP6 in retinal homeostasis and highlights a pathway previously uncharacterized in retinal dystrophy.

Published
2016

24. The need for widely available genomic testing in rare eye diseases: an ERN-EYE position statement

Author

Graeme C. Black, Panagiotis Sergouniotis, Andrea Sodi, Bart P. Leroy, Caroline Van Cauwenbergh, Petra Liskova, Karen Grønskov, Artur Klett, Susanne Kohl, Gita Taurina, Marius Sukys, Lonneke Haer-Wigman, Katarzyna Nowomiejska, João Pedro Marques, Dorothée Leroux, Frans P. M. Cremers, Elfride De Baere, Hélène Dollfus, and ERN-EYE study group

Subjects
Genetic and genomic testing, Rare eye diseases, ERN-EYE, Position statement, Medicine
Abstract

Abstract Background Rare Eye Diseases (RED) are the leading cause of visual impairment and blindness for children and young adults in Europe. This heterogeneous group of conditions includes over 900 disorders ranging from relatively prevalent disorders such as retinitis pigmentosa to very rare entities such as developmental eye anomalies. A significant number of patients with RED have an underlying genetic etiology. One of the aims of the European Reference Network for Rare Eye Diseases (ERN–EYE) is to facilitate improvement in diagnosis of RED in European member states. Main body Technological advances have allowed genetic and genomic testing for RED. The outcome of genetic testing allows better understanding of the condition and allows reproductive and therapeutic options. The increase of the number of clinical trials for RED has provided urgency for genetic testing in RED. A survey of countries participating in ERN-EYE demonstrated that the majority are able to access some forms of genomic testing. However, there is significant variability, particularly regarding testing as part of clinical service. Some countries have a well-delineated rare disease pathway and have a national plan for rare diseases combined or not with a national plan for genomics in medicine. In other countries, there is a well-established organization of genetic centres that offer reimbursed genomic testing of RED and other rare diseases. Clinicians often rely upon research-funded laboratories or private companies. Notably, some member states rely on cross-border testing by way of an academic research project. Consequently, many clinicians are either unable to access testing or are confronted with long turnaround times. Overall, while the cost of sequencing has dropped, the cumulative cost of a genomic testing service for populations remains considerable. Importantly, the majority of countries reported healthcare budgets that limit testing. Short conclusion Despite technological advances, critical gaps in genomic testing remain in Europe, especially in smaller countries where no formal genomic testing pathways exist. Even within larger countries, the existing arrangements are insufficient to meet the demand and to ensure access. ERN-EYE promotes access to genetic testing in RED and emphasizes the clinical need and relevance of genetic testing in RED.

Published
2021
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27. Diverse clinical phenotypes associated with a nonsense mutation in FAM161A

Author

Rose, AM, Sergouniotis, P, Alfano, G, Muspratt-Tucker, N, Barton, S, Moore, AT, Black, G, Bhattacharya, SS, and Webster, AR

Subjects
Biomedical and Clinical Sciences, Ophthalmology and Optometry, Genetics, Clinical Research, Eye Disease and Disorders of Vision, Rare Diseases, Neurodegenerative, Neurosciences, Aetiology, 2.1 Biological and endogenous factors, Adult, Asian People, Codon, Nonsense, Cohort Studies, Eye Proteins, Female, Genes, Recessive, Genetic Predisposition to Disease, Haplotypes, Homozygote, Humans, Male, Middle Aged, Mutation, Missense, Pedigree, Prevalence, Retinitis Pigmentosa, United Kingdom, Visual Acuity, White People, Clinical Sciences, Immunology, Opthalmology and Optometry, Ophthalmology & Optometry, Ophthalmology and optometry
Abstract

PurposeMutations in the FAM161A gene have been reported in association with autosomal recessive retinitis pigmentosa (arRP) in several ethnic populations. This study aimed to assess the prevalence of FAM161A-related retinopathy in a British cohort and to characterise the phenotype associated with mutations in this gene.MethodsThe FAM161A coding region and intron-exon boundaries were screened by Sanger sequencing in 120 retinitis pigmentosa (RP) patients (with likely autosomal recessive inheritance) in whom mutations in other known major RP genes have been ruled out by commercially available testing. Homozygosity mapping was performed in one consanguineous family, and high-throughput sequencing of candidate genes was performed to identify disease-associated changes. Clinical assessment of affected individuals included perimetry testing, fundus autofluorescence imaging, and optical coherence tomography.ResultsTwo patients of British origin with a homozygous mutation in FAM161A (c.1309A>T, p.Arg437*) were identified by Sanger sequencing. Homozygosity mapping and subsequent high-throughput sequencing analysis identified a further family of Pakistani origin with the same genotype. Clinical examination of affected members of these families revealed that this mutation was associated with a diverse clinical phenotype, ranging from mild disease with preservation of central acuity to severe visual impairment.ConclusionsHomozygosity for the c.1309A>T, p.Arg437* variant in FAM161A is a relatively common cause of arRP. The mutation occurs in diverse ethnic populations, associated with typical retinitis pigmentosa with disease onset usually in the second or third decade of life.

Published
2015

29. Biallelic Variants in TTLL5, Encoding a Tubulin Glutamylase, Cause Retinal Dystrophy

Author

Sergouniotis, Panagiotis I, Chakarova, Christina, Murphy, Cian, Becker, Mirjana, Lenassi, Eva, Arno, Gavin, Lek, Monkol, MacArthur, Daniel G, Consortium, UCL-Exomes, Bhattacharya, Shomi S, Moore, Anthony T, Holder, Graham E, Robson, Anthony G, Wolfrum, Uwe, Webster, Andrew R, and Plagnol, Vincent

Subjects
Clinical Research, Neurodegenerative, Genetics, Eye Disease and Disorders of Vision, Rare Diseases, Neurosciences, Detection, screening and diagnosis, 2.1 Biological and endogenous factors, Aetiology, 4.1 Discovery and preclinical testing of markers and technologies, Eye, Adult, Alleles, Animals, Carrier Proteins, Female, Genes, Recessive, Genetic Variation, Humans, Male, Mice, Middle Aged, Mutation, Pedigree, Peptide Synthases, Retinal Dystrophies, UCL-Exomes Consortium, Biological Sciences, Medical and Health Sciences, Genetics & Heredity
Abstract

In a subset of inherited retinal degenerations (including cone, cone-rod, and macular dystrophies), cone photoreceptors are more severely affected than rods; ABCA4 mutations are the most common cause of this heterogeneous class of disorders. To identify retinal-disease-associated genes, we performed exome sequencing in 28 individuals with "cone-first" retinal disease and clinical features atypical for ABCA4 retinopathy. We then conducted a gene-based case-control association study with an internal exome data set as the control group. TTLL5, encoding a tubulin glutamylase, was highlighted as the most likely disease-associated gene; 2 of 28 affected subjects harbored presumed loss-of-function variants: c.[1586_1589delAGAG];[1586_1589delAGAG], p.[Glu529Valfs(∗)2];[Glu529Valfs(∗)2], and c.[401delT(;)3354G>A], p.[Leu134Argfs(∗)45(;)Trp1118(∗)]. We then inspected previously collected exome sequence data from individuals with related phenotypes and found two siblings with homozygous nonsense variant c.1627G>T (p.Glu543(∗)) in TTLL5. Subsequently, we tested a panel of 55 probands with retinal dystrophy for TTLL5 mutations; one proband had a homozygous missense change (c.1627G>A [p.Glu543Lys]). The retinal phenotype was highly similar in three of four families; the sibling pair had a more severe, early-onset disease. In human and murine retinae, TTLL5 localized to the centrioles at the base of the connecting cilium. TTLL5 has been previously reported to be essential for the correct function of sperm flagella in mice and play a role in polyglutamylation of primary cilia in vitro. Notably, genes involved in the polyglutamylation and deglutamylation of tubulin have been associated with photoreceptor degeneration in mice. The electrophysiological and fundus autofluorescence imaging presented here should facilitate the molecular diagnosis in further families.

Published
2014

30. Retinal Structure and Function in Achromatopsia Implications for Gene Therapy

Author

Sundaram, Venki, Wilde, Caroline, Aboshiha, Jonathan, Cowing, Jill, Han, Colin, Langlo, Christopher S, Chana, Ravinder, Davidson, Alice E, Sergouniotis, Panagiotis I, Bainbridge, James W, Ali, Robin R, Dubra, Alfredo, Rubin, Gary, Webster, Andrew R, Moore, Anthony T, Nardini, Marko, Carroll, Joseph, and Michaelides, Michel

Subjects
Neurodegenerative, Eye Disease and Disorders of Vision, Genetics, Biomedical Imaging, Clinical Research, Neurosciences, 2.1 Biological and endogenous factors, Aetiology, Eye, Adolescent, Adult, Child, Color Vision Defects, Cross-Sectional Studies, Cyclic Nucleotide Phosphodiesterases, Type 6, Cyclic Nucleotide-Gated Cation Channels, Eye Proteins, Female, Genetic Association Studies, Genetic Therapy, Heterotrimeric GTP-Binding Proteins, Humans, Male, Middle Aged, Retina, Tomography, Optical Coherence, Visual Acuity, Visual Field Tests, Visual Fields, Young Adult, Clinical Sciences, Opthalmology and Optometry, Public Health and Health Services, Ophthalmology & Optometry
Abstract

PurposeTo characterize retinal structure and function in achromatopsia (ACHM) in preparation for clinical trials of gene therapy.DesignCross-sectional study.ParticipantsForty subjects with ACHM.MethodsAll subjects underwent spectral domain optical coherence tomography (SD-OCT), microperimetry, and molecular genetic testing. Foveal structure on SD-OCT was graded into 5 distinct categories: (1) continuous inner segment ellipsoid (ISe), (2) ISe disruption, (3) ISe absence, (4) presence of a hyporeflective zone (HRZ), and (5) outer retinal atrophy including retinal pigment epithelial loss. Foveal and outer nuclear layer (ONL) thickness was measured and presence of hypoplasia determined.Main outcome measuresPhotoreceptor appearance on SD-OCT imaging, foveal and ONL thickness, presence of foveal hypoplasia, retinal sensitivity and fixation stability, and association of these parameters with age and genotype.ResultsForty subjects with a mean age of 24.9 years (range, 6-52 years) were included. Disease-causing variants were found in CNGA3 (n = 18), CNGB3 (n = 15), GNAT2 (n = 4), and PDE6C (n = 1). No variants were found in 2 individuals. In all, 22.5% of subjects had a continuous ISe layer at the fovea, 27.5% had ISe disruption, 20% had an absent ISe layer, 22.5% had an HRZ, and 7.5% had outer retinal atrophy. No significant differences in age (P = 0.77), mean retinal sensitivity (P = 0.21), or fixation stability (P = 0.34) across the 5 SD-OCT categories were evident. No correlation was found between age and foveal thickness (P = 0.84) or between age and foveal ONL thickness (P = 0.12).ConclusionsThe lack of a clear association of disruption of retinal structure or function in ACHM with age suggests that the window of opportunity for intervention by gene therapy is wider in some individuals than previously indicated. Therefore, the potential benefit for a given subject is likely to be better predicted by specific measurement of photoreceptor structure rather than simply by age. The ability to directly assess cone photoreceptor preservation with SD-OCT and/or adaptive optics imaging is likely to prove invaluable in selecting subjects for future trials and measuring the trials' impact.

Published
2014

31. An ontological foundation for ocular phenotypes and rare eye diseases

Author

Panagiotis I. Sergouniotis, Emmanuel Maxime, Dorothée Leroux, Annie Olry, Rachel Thompson, Ana Rath, Peter N. Robinson, Hélène Dollfus, and for the ERN-EYE Ontology Study Group

Subjects
Evidence-based precision medicine, Rare eye disease, Human phenotype ontology, Orphanet rare disease ontology, Medicine
Abstract

Abstract Background The optical accessibility of the eye and technological advances in ophthalmic diagnostics have put ophthalmology at the forefront of data-driven medicine. The focus of this study is rare eye disorders, a group of conditions whose clinical heterogeneity and geographic dispersion make data-driven, evidence-based practice particularly challenging. Inter-institutional collaboration and information sharing is crucial but the lack of standardised terminology poses an important barrier. Ontologies are computational tools that include sets of vocabulary terms arranged in hierarchical structures. They can be used to provide robust terminology standards and to enhance data interoperability. Here, we discuss the development of the ophthalmology-related component of two well-established biomedical ontologies, the Human Phenotype Ontology (HPO; includes signs, symptoms and investigation findings) and the Orphanet Rare Disease Ontology (ORDO; includes rare disease nomenclature/nosology). Methods A variety of approaches were used including automated matching to existing resources and extensive manual curation. To achieve the latter, a study group including clinicians, patient representatives and ontology developers from 17 countries was formed. A broad range of terms was discussed and validated during a dedicated workshop attended by 60 members of the group. Results A comprehensive, structured and well-defined set of terms has been agreed on including 1106 terms relating to ocular phenotypes (HPO) and 1202 terms relating to rare eye disease nomenclature (ORDO). These terms and their relevant annotations can be accessed in http://www.human-phenotype-ontology.org/ and http://www.orpha.net/; comments, corrections, suggestions and requests for new terms can be made through these websites. This is an ongoing, community-driven endeavour and both HPO and ORDO are regularly updated. Conclusions To our knowledge, this is the first effort of such scale to provide terminology standards for the rare eye disease community. We hope that this work will not only improve coding and standardise information exchange in clinical care and research, but also it will catalyse the transition to an evidence-based precision ophthalmology paradigm.

Published
2019
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32. Recessive Mutations in SLC38A8 Cause Foveal Hypoplasia and Optic Nerve Misrouting without Albinism

Author

Poulter, James A, Al-Araimi, Musallam, Conte, Ivan, van Genderen, Maria M, Sheridan, Eamonn, Carr, Ian M, Parry, David A, Shires, Mike, Carrella, Sabrina, Bradbury, John, Khan, Kamron, Lakeman, Phillis, Sergouniotis, Panagiotis I, Webster, Andrew R, Moore, Anthony T, Pal, Bishwanath, Mohamed, Moin D, Venkataramana, Anandula, Ramprasad, Vedam, Shetty, Rohit, Saktivel, Murugan, Kumaramanickavel, Govindasamy, Tan, Alex, Mackey, David A, Hewitt, Alex W, Banfi, Sandro, Ali, Manir, Inglehearn, Chris F, and Toomes, Carmel

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Genetics, Eye Disease and Disorders of Vision, Pediatric, Neurosciences, Congenital Structural Anomalies, Clinical Research, Neurodegenerative, 2.1 Biological and endogenous factors, Aetiology, Albinism, Amino Acid Transport Systems, Neutral, Animals, Child, Consanguinity, DNA Mutational Analysis, Female, Fovea Centralis, Genes, Recessive, Homozygote, Humans, Male, Mutation, Optic Nerve, Pedigree, Phenotype, Syndrome, Medical and Health Sciences, Genetics & Heredity, Biological sciences, Biomedical and clinical sciences, Health sciences
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

33. Genetic and phenotypic heterogeneity in autosomal recessive retinal disease

Author

Sergouniotis, P. I.

Subjects
617.7
Abstract

Molecular genetics has transformed our understanding of disease and is gradually changing the way medicine is practiced. Genetic mapping provides a powerful approach to discover genes and biological processes underlying human disorders. Recent advances in DNA microarray and sequencing technology have significantly increased the power of genetic mapping studies and have ushered in a new era for biomedicine. In this thesis, linkage analysis (including homozygosity mapping), exome sequencing and candidate gene sequencing have been utilised to genetically dissect autosomal recessive retinal disease. Subsequently, clinical findings from patients found to be similar in terms of molecular pathology have been pooled. DNA and basic phenotypic data from over 500 unrelated individuals were available for the project. Disease-causing variants in three genes that have not been previously associated with human recessive disorders are reported: (a) biallelic mutations in TRPM1 abrogate ON bipolar cell function and cause complete congenital stationary night blindness; (b) biallelic mutations in KCNJ13, a gene encoding an inwardly rectifying potassium channel subunit cause Leber congenital amaurosis; (c) biallelic mutations in PLA2G5, a gene encoding group V phospholipase A2, cause benign fleck retina. The consequences of mutations in these and other disease-related genes (RDH5, GRM6, KCNV2, OAT and SAG) on retinal structure (spectral domain optical coherence tomography, fundus autofluorescence imaging) and visual function (electrophysiology, perimetry testing) have been studied; features that may have mechanistic relevance have been identified. Additionally, DNA sequence variation of a highly polymorphic gene (C2ORF71), recently associated with photoreceptor degeneration, has been studied and quantified in patient and control samples. Basic bioinformatics tools to analyse genomic data have been developed (bash, perl, python and R programming languages). Overall, results presented in this thesis contribute to an understanding of Mendelian retinal disease that is not only observational but also mechanistic.

Published
2012

34. Assessing Retinal Structure in Complete Congenital Stationary Night Blindness and Oguchi Disease

Author

Godara, Pooja, Cooper, Robert F, Sergouniotis, Panagiotis I, Diederichs, Melissa A, Streb, Megan R, Genead, Mohamed A, McAnany, J Jason, Webster, Andrew R, Moore, Anthony T, Dubis, Adam M, Neitz, Maureen, Dubra, Alfredo, Stone, Edwin M, Fishman, Gerald A, Han, Dennis P, Michaelides, Michel, and Carroll, Joseph

Subjects
Neurosciences, Eye Disease and Disorders of Vision, Eye, Adolescent, Adult, Dark Adaptation, Eye Diseases, Hereditary, Female, G-Protein-Coupled Receptor Kinase 1, Genetic Diseases, X-Linked, Humans, Male, Middle Aged, Mutation, Myopia, Night Blindness, Ophthalmoscopy, Photoreceptor Cells, Vertebrate, Polymerase Chain Reaction, Prospective Studies, Receptors, Glutamate, Retinal Bipolar Cells, Retinal Ganglion Cells, Tomography, Optical Coherence, Vision, Ocular, Visual Acuity, Young Adult, Clinical Sciences, Opthalmology and Optometry, Public Health and Health Services, Ophthalmology & Optometry
Abstract

PurposeTo examine retinal structure and changes in photoreceptor intensity after dark adaptation in patients with complete congenital stationary night blindness and Oguchi disease.DesignProspective, observational case series.MethodsWe recruited 3 patients with complete congenital stationary night blindness caused by mutations in GRM6, 2 brothers with Oguchi disease caused by mutations in GRK1, and 1 normal control. Retinal thickness was measured from optical coherence tomography images. Integrity of the rod and cone mosaic was assessed using adaptive optics scanning light ophthalmoscopy. We imaged 5 of the patients after a period of dark adaptation and examined layer reflectivity on optical coherence tomography in a patient with Oguchi disease under light- and dark-adapted conditions.ResultsRetinal thickness was reduced in the parafoveal region in patients with GRM6 mutations as a result of decreased thickness of the inner retinal layers. All patients had normal photoreceptor density at all locations analyzed. On removal from dark adaptation, the intensity of the rods (but not cones) in the patients with Oguchi disease gradually and significantly increased. In 1 Oguchi disease patient, the outer segment layer contrast on optical coherence tomography was 4-fold higher under dark-adapted versus light-adapted conditions.ConclusionsThe selective thinning of the inner retinal layers in patients with GRM6 mutations suggests either reduced bipolar or ganglion cell numbers or altered synaptic structure in the inner retina. Our finding that rods, but not cones, change intensity after dark adaptation suggests that fundus changes in Oguchi disease are the result of changes within the rods as opposed to changes at a different retinal locus.

Published
2012

35. Novel mutations in MERTK associated with childhood onset rod-cone dystrophy.

Author

Mackay, Donna S, Henderson, Robert H, Sergouniotis, Panagiotis I, Li, Zheng, Moradi, Phillip, Holder, Graham E, Waseem, Naushin, Bhattacharya, Shomi S, Aldahmesh, Mohammed A, Alkuraya, Fowzan S, Meyer, Brian, Webster, Andrew R, and Moore, Anthony T

Subjects
Fundus Oculi, Humans, Retinitis Pigmentosa, Genetic Predisposition to Disease, Receptor Protein-Tyrosine Kinases, Proto-Oncogene Proteins, Electrophoresis, Agar Gel, Polymerase Chain Reaction, Pedigree, DNA Mutational Analysis, Family, Age of Onset, Haplotypes, Mutation, Polymorphism, Single Nucleotide, Genome, Human, Exons, Adolescent, Adult, Child, Female, Male, Young Adult, Leber Congenital Amaurosis, c-Mer Tyrosine Kinase, Electrophoresis, Agar Gel, Polymorphism, Single Nucleotide, Genome, Human, Ophthalmology & Optometry, Opthalmology and Optometry
Abstract

PurposeTo report the clinical phenotype in patients with a retinal dystrophy associated with novel mutations in the MER tyrosine kinase (MERTK) gene.MethodsA consanguineous family of Middle Eastern origin was identified, and affected members underwent a full clinical evaluation. Linkage analysis was performed using the Affymetrix 50K chip. Regions of homozygosity were identified. The positional candidate genes protocadherin 21 (PCDH21), retinal G protein-coupled receptor (RGR), and MERTK were polymerase chain reaction (PCR) amplified and sequenced. Long-range PCR was performed to characterize the deletion. Two hundred and ninety-two probands with autosomal recessive, childhood onset, retinal dystrophies were analyzed using the Asper Ophthalmics Leber congenital amaurosis chip to screen for known MERTK mutations.ResultsAnalysis of a 50K-Affymetrix whole genome scan identified three regions of homozygosity on chromosomes 2 and 10. Screening of the candidate gene MERTK showed a possible deletion of exon 8. Long-range PCR identified a ~9 kb deletion within MERTK that removes exon 8. Screening of DNA from a panel of Saudi Arabian patients with autosomal recessive retinitis pigmentosa identified a second consanguineous family with the same mutation. One patient with a known MERTK mutation (p.R651X) was identified using the Asper Ophthalmics Leber congenital amaurosis chip. Further screening of the gene identified a second novel splice site mutation in intron 1. The phenotype associated with these identified MERTK mutations is of a childhood onset rod-cone dystrophy with early macular atrophy. The optical coherence tomography (OCT) appearance is distinctive with evidence of debris beneath the sensory retina.ConclusionsMutations in MERTK are a rare cause of retinal dystrophy. Non homologous recombination between Alu Y repeats near or within disease genes may be an important cause of retinal dystrophies.

Published
2010

37. Clinical and genetic variability in children with partial albinism

Author

Campbell, Patrick, Ellingford, Jamie M., Parry, Neil R. A., Fletcher, Tracy, Ramsden, Simon C., Gale, Theodora, Hall, Georgina, Smith, Katherine, Kasperaviciute, Dalia, Thomas, Ellen, Lloyd, I. Chris, Douzgou, Sofia, Clayton-Smith, Jill, Biswas, Susmito, Ashworth, Jane L., Black, Graeme C. M., and Sergouniotis, Panagiotis I.

Published
2019
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40. Correction to: An ontological foundation for ocular phenotypes and rare eye diseases

Author

Panagiotis I. Sergouniotis, Emmanuel Maxime, Dorothée Leroux, Annie Olry, Rachel Thompson, Ana Rath, Peter N. Robinson, Hélène Dollfus, and for the ERN-EYE Ontology Study Group

Subjects
Medicine
Abstract

Professor Michael Larsen, who is a member of the ERN-EYE Ontology Study Group and co-chair of Workgroup on Retinal Rare Eye Diseases (WG1), was inadvertently omitted from the author list in the Acknowledgements section of the original article [1].

Published
2019
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43. The need for widely available genomic testing in rare eye diseases: an ERN-EYE position statement

Author

Black G. C., Sergouniotis P., Sodi A., Leroy B. P., Van Cauwenbergh C., Liskova P., Gronskov K., Klett A., Kohl S., Taurina G., Sukys M., Haer-Wigman L., Nowomiejska K., Marques J. P., Leroux D., Cremers F. P. M., De Baere E., Dollfus H., Ashworth J., Audo I., Bacci G., Balciuniene V. J., Bargiacchi S., Bertelsen M., Black G., Boon C., Bremond-Gignac D., Buzzonetti L., Calvas P., Thomsen A. C., Chirita-Emandi A., Chokoshvili D., Cremers F., Daly A., Downes S., Fasolo A., Fasser C., Fischer D., Fortunato P., Gelzinis A., Hall G., Hamann S., Heon E., Iarossi G., Iberg C., Jouanjan G., Kaariainen H., Kahn K., Keegan D., Laengsfeld M., Leon A., Leroux B., Lorenz B., Maggi R., Mauring L., Melico P., Meunier I., Mohand-Said S., Monterosso C., Morandi P., Parmeggiani F., Passerini I., Pelletier V., Peluso F., Perdomo Y., Rapizzi E., Roos L., Roosing S., Rozet J. -M., Simonelli F., Sowden J., Stingl K., Suppiej A., Testa F., Tracewska A., Traficante G., Valeina S., Wheeler-Schilling T., Yu-Wai-Man P., Zeitz C., Zemaitiene R., Leroux, Dorothée [0000-0002-1412-6611], Apollo - University of Cambridge Repository, Ophthalmology, ANS - Complex Trait Genetics, Black, G. C., Sergouniotis, P., Sodi, A., Leroy, B. P., Van Cauwenbergh, C., Liskova, P., Gronskov, K., Klett, A., Kohl, S., Taurina, G., Sukys, M., Haer-Wigman, L., Nowomiejska, K., Marques, J. P., Leroux, D., Cremers, F. P. M., De Baere, E., Dollfus, H., Ashworth, J., Audo, I., Bacci, G., Balciuniene, V. J., Bargiacchi, S., Bertelsen, M., Black, G., Boon, C., Bremond-Gignac, D., Buzzonetti, L., Calvas, P., Thomsen, A. C., Chirita-Emandi, A., Chokoshvili, D., Cremers, F., Daly, A., Downes, S., Fasolo, A., Fasser, C., Fischer, D., Fortunato, P., Gelzinis, A., Hall, G., Hamann, S., Heon, E., Iarossi, G., Iberg, C., Jouanjan, G., Kaariainen, H., Kahn, K., Keegan, D., Laengsfeld, M., Leon, A., Leroux, B., Lorenz, B., Maggi, R., Mauring, L., Melico, P., Meunier, I., Mohand-Said, S., Monterosso, C., Morandi, P., Parmeggiani, F., Passerini, I., Pelletier, V., Peluso, F., Perdomo, Y., Rapizzi, E., Roos, L., Roosing, S., Rozet, J. -M., Simonelli, F., Sowden, J., Stingl, K., Suppiej, A., Testa, F., Tracewska, A., Traficante, G., Valeina, S., Wheeler-Schilling, T., Yu-Wai-Man, P., Zeitz, C., and Zemaitiene, R.

Subjects
0301 basic medicine, Eye Diseases, lcsh:Medicine, CHILDREN, Position statement, Sensory disorders Donders Center for Medical Neuroscience [Radboudumc 12], MOLECULAR-GENETICS, 0302 clinical medicine, HISTORY, Health care, Medicine and Health Sciences, Genetics(clinical), Pharmacology (medical), Child, Genetics (clinical), medicine.diagnostic_test, General Medicine, Genomics, Europe, TRIALS, ERN-EYE, Rare eye diseases, medicine.symptom, Genetic and genomic testing, Human, medicine.medical_specialty, Visual impairment, LEBER CONGENITAL AMAUROSIS, Socio-culturale, DIAGNOSIS, 03 medical and health sciences, Rare Diseases, medicine, Humans, Genetic Testing, Intensive care medicine, Genetic testing, business.industry, CLINICAL-FEATURES, lcsh:R, Rare eye disease, Eye Disease, Human genetics, Clinical trial, 030104 developmental biology, Genomic, 030221 ophthalmology & optometry, Personalized medicine, business, Rare disease
Abstract

Background Rare Eye Diseases (RED) are the leading cause of visual impairment and blindness for children and young adults in Europe. This heterogeneous group of conditions includes over 900 disorders ranging from relatively prevalent disorders such as retinitis pigmentosa to very rare entities such as developmental eye anomalies. A significant number of patients with RED have an underlying genetic etiology. One of the aims of the European Reference Network for Rare Eye Diseases (ERN–EYE) is to facilitate improvement in diagnosis of RED in European member states. Main body Technological advances have allowed genetic and genomic testing for RED. The outcome of genetic testing allows better understanding of the condition and allows reproductive and therapeutic options. The increase of the number of clinical trials for RED has provided urgency for genetic testing in RED. A survey of countries participating in ERN-EYE demonstrated that the majority are able to access some forms of genomic testing. However, there is significant variability, particularly regarding testing as part of clinical service. Some countries have a well-delineated rare disease pathway and have a national plan for rare diseases combined or not with a national plan for genomics in medicine. In other countries, there is a well-established organization of genetic centres that offer reimbursed genomic testing of RED and other rare diseases. Clinicians often rely upon research-funded laboratories or private companies. Notably, some member states rely on cross-border testing by way of an academic research project. Consequently, many clinicians are either unable to access testing or are confronted with long turnaround times. Overall, while the cost of sequencing has dropped, the cumulative cost of a genomic testing service for populations remains considerable. Importantly, the majority of countries reported healthcare budgets that limit testing. Short conclusion Despite technological advances, critical gaps in genomic testing remain in Europe, especially in smaller countries where no formal genomic testing pathways exist. Even within larger countries, the existing arrangements are insufficient to meet the demand and to ensure access. ERN-EYE promotes access to genetic testing in RED and emphasizes the clinical need and relevance of genetic testing in RED.

Published
2021

44. EyeG2P: an automated variant filtering approach improves efficiency of diagnostic genomic testing for inherited ophthalmic disorders

Author

Lenassi, Eva, Carvalho, Ana, Thormann, Anja, Abrahams, Liam, Arno, Gavin, Fletcher, Tracy, Hardcastle, Claire, Lopez, Javier, Hunt, Sarah E, Short, Patrick, Sergouniotis, Panagiotis I, Michaelides, Michel, Webster, Andrew, Cunningham, Fiona, Ramsden, Simon C, Kasperaviciute, Dalia, Fitzpatrick, David R, Black, Graeme C, and Ellingford, Jamie M

Abstract

BackgroundGenomic variant prioritisation is one of the most significant bottlenecks to mainstream genomic testing in healthcare. Tools to improve precision while ensuring high recall are critical to successful mainstream clinical genomic testing, in particular for whole genome sequencing where millions of variants must be considered for each patient.MethodsWe developed EyeG2P, a publicly available database and web application using the Ensembl Variant Effect Predictor. EyeG2P is tailored for efficient variant prioritisation for individuals with inherited ophthalmic conditions. We assessed the sensitivity of EyeG2P in 1234 individuals with a broad range of eye conditions who had previously received a confirmed molecular diagnosis through routine genomic diagnostic approaches. For a prospective cohort of 83 individuals, we assessed the precision of EyeG2P in comparison with routine diagnostic approaches. For 10 additional individuals, we assessed the utility of EyeG2P for whole genome analysis.ResultsEyeG2P had 99.5% sensitivity for genomic variants previously identified as clinically relevant through routine diagnostic analysis (n=1234 individuals). Prospectively, EyeG2P enabled a significant increase in precision (35% on average) in comparison with routine testing strategies (p<0.001). We demonstrate that incorporation of EyeG2P into whole genome sequencing analysis strategies can reduce the number of variants for analysis to six variants, on average, while maintaining high diagnostic yield.ConclusionAutomated filtering of genomic variants through EyeG2P can increase the efficiency of diagnostic testing for individuals with a broad range of inherited ophthalmic disorders.

Published
2023
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45. LASER PROPHYLAXIS IN STICKLER SYNDROME

Author

Linton, Emma, Jalil, Assad, Sergouniotis, Panagiotis, Moussa, George, Black, Graeme, Charles, Stephen, and Ivanova, Tsveta

Abstract

Individuals with Stickler syndrome are at increased risk of developing giant retinal tears and retinal detachments. Findings from 113 eyes (63 patients) show that 360° retinal laser prophylaxis can help reduce the risk of developing visual loss in Stickler syndrome.

Published
2023
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46. A multilayered approach to the analysis of genetic data from individuals with suspected albinism

Author

Sergouniotis, Panagiotis I., Michaud, Vincent, Lasseaux, Eulalie, Campbell, Christopher, Plaisant, Claudio, Javerzat, Sophie, Birney, Ewan, Ramsden, Simon C., Black, Graeme C., and Arveiler, Benoit

Abstract

Albinism is a clinically and genetically heterogeneous group of conditions characterised by visual abnormalities and variable degrees of hypopigmentation. Multiple studies have demonstrated the clinical utility of genetic investigations in individuals with suspected albinism. Despite this, the variation in the provision of genetic testing for albinism remains significant. One key issue is the lack of a standardised approach to the analysis of genomic data from affected individuals. For example, there is variation in how different clinical genetic laboratories approach genotypes that involve incompletely penetrant alleles, including the common, ‘hypomorphic’ TYRc.1205G>A (p.Arg402Gln) [rs1126809] variant. Here, we discuss the value of genetic testing as a frontline diagnostic tool in individuals with features of albinism and propose a practice pattern for the analysis of genomic data from affected families.

Published
2023
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47. Assessing the Pathogenicity of In-Frame CACNA1FIndel Variants Using Structural Modeling

Author

Sallah, Shalaw R., Sergouniotis, Panagiotis I., Hardcastle, Claire, Ramsden, Simon, Lotery, Andrew J., Lench, Nick, Lovell, Simon C., and Black, Graeme C.M.

Abstract

Small in-frame insertion-deletion (indel) variants are a common form of genomic variation whose impact on rare disease phenotypes has been understudied. The prediction of the pathogenicity of such variants remains challenging. X-linked incomplete congenital stationary night blindness type 2 (CSNB2) is a nonprogressive, inherited retinal disorder caused by variants in CACNA1F, encoding the Cav1.4α1 channel protein. Here, structural analysis was used through homology modeling to interpret 10 disease-correlated and 10 putatively benign CACNA1Fin-frame indel variants. CSNB2-correlated changes were found to be more highly conserved compared with putative benign variants. Notably, all 10 disease-correlated variants but none of the benign changes were within modeled regions of the protein. Structural analysis revealed that disease-correlated variants are predicted to destabilize the structure and function of the Cav1.4α1 channel protein. Overall, the use of structural information to interpret the consequences of in-frame indel variants provides an important adjunct that can improve the diagnosis for individuals with CSNB2.

Published
2022
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48. Improving the clinical interpretation of missense variants in X linked genes using structural analysis

Author

Sallah, Shalaw Rassul, Ellingford, Jamie M, Sergouniotis, Panagiotis I, Ramsden, Simon C, Lench, Nicholas, Lovell, Simon C, and Black, Graeme C

Abstract

BackgroundImproving the clinical interpretation of missense variants can increase the diagnostic yield of genomic testing and lead to personalised management strategies. Currently, due to the imprecision of bioinformatic tools that aim to predict variant pathogenicity, their role in clinical guidelines remains limited. There is a clear need for more accurate prediction algorithms and this study aims to improve performance by harnessing structural biology insights. The focus of this work is missense variants in a subset of genes associated with X linked disorders.MethodsWe have developed a protein-specific variant interpreter(ProSper) that combines genetic and protein structural data. This algorithm predicts missense variant pathogenicity by applying machine learning approaches to the sequence and structural characteristics of variants.ResultsProSper outperformed seven previously described tools, including meta-predictors, in correctly evaluating whether or not variants are pathogenic; this was the case for 11 of the 21 genes associated with X linked disorders that met the inclusion criteria for this study. We also determined gene-specific pathogenicity thresholds that improved the performance of VEST4, REVEL and ClinPred, the three best-performing tools out of the seven that were evaluated; this was the case in 11, 11 and 12 different genes, respectively.ConclusionProSper can form the basis of a molecule-specific prediction tool that can be implemented into diagnostic strategies. It can allow the accurate prioritisation of missense variants associated with X linked disorders, aiding precise and timely diagnosis. In addition, we demonstrate that gene-specific pathogenicity thresholds for a range of missense prioritisation tools can lead to an increase in prediction accuracy.

Published
2022
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49. Pheno4J: A gene to phenotype graph database

Author

Mughal, S, Moghul, I, Yu, J, Clark, T, Gregory, DS, Pontikos, N, Black, G, Hall, G, Ingram, S, Gillespie, R, Manson, F, Sergouniotis, P, Inglehearn, C, Toomes, C, Ali, M, McKibbin, M, Poulter, J, Khan, K, Lord, E, Nemeth, A, Downes, S, Halford, S, Lise, S, Arno, G, Fiorentino, A, Plagnol, V, Michaelides, M, Hardcastle, AJ, Cheetham, ME, Webster, AR, and van Heyningen, V

Abstract

Efficient storage and querying of large amounts of genetic and phenotypic data is crucial to contemporary clinical genetic research. This introduces computational challenges for classical relational databases, due to the sparsity and sheer volume of the data. Our Java based solution loads annotated genetic variants and well phenotyped patients into a graph database to allow fast efficient storage and querying of large volumes of structured genetic and phenotypic data. This abstracts technical problems away and lets researchers focus on the science rather than the implementation. We have also developed an accompanying webserver with end-points to facilitate querying of the database.

Published
2017

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

Author

Xu, M, Xie, YA, Abouzeid, H, Gordon, CT, Fiorentino, A, Sun, Z, Lehman, A, Osman, IS, Dharmat, R, Riveiro-Alvarez, R, Bapst-Wicht, L, Babino, D, Arno, G, Busetto, V, Zhao, L, Li, H, Lopez-Martinez, MA, Azevedo, LF, Hubert, L, Pontikos, N, Eblimit, A, Lorda-Sanchez, I, Kheir, V, Plagnol, V, Oufadem, M, Soens, ZT, Yang, L, Bole-Feysot, C, Pfundt, R, Allaman-Pillet, N, Nitschké, P, Cheetham, ME, Lyonnet, S, Agrawal, SA, Pinton, G, Michaelides, M, Besmond, C, Li, Y, Yuan, Z, von Lintig, J, Webster, AR, Le Hir, H, Stoilov, P, Amiel, J, Hardcastle, AJ, Ayuso, C, Sui, R, Chen, R, Allikmets, R, Schorderet, DF, Black, G, Hall, G, Gillespie, R, Ramsden, S, Manson, F, Sergouniotis, P, Inglehearn, C, Toomes, C, Ali, M, McKibbin, M, Poulter, J, Lord, E, Nemeth, A, Halford, S, Downes, S, and Yu, J

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

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