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1. Differential phenotypic expression of a novel PDHA1 mutation in a female monozygotic twin pair

Author

Horga, Alejandro, Woodward, Catherine E., Mills, Alberto, Pareés, Isabel, Hargreaves, Iain P., Brown, Ruth M., Bugiardini, Enrico, Brooks, Tony, Manole, Andreea, Remzova, Elena, Rahman, Shamima, Reilly, Mary M., Houlden, Henry, Sweeney, Mary G., Brown, Garry K., Polke, James M., Gago, Federico, Parton, Matthew J., Pitceathly, Robert D. S., and Hanna, Michael G.

Published
2019
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3. Translating genetic and functional data into clinical practice: a series of 223 families with myotonia

Author

Suetterlin, Karen, primary, Matthews, Emma, additional, Sud, Richa, additional, McCall, Samuel, additional, Fialho, Doreen, additional, Burge, James, additional, Jayaseelan, Dipa, additional, Haworth, Andrea, additional, Sweeney, Mary G, additional, Kullmann, Dimitri M, additional, Schorge, Stephanie, additional, Hanna, Michael G, additional, and Männikkö, Roope, additional

Published
2021
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5. Parkinson’s disease in GTP cyclohydrolase 1 mutation carriers

Author

Mencacci, Niccolò E., Isaias, Ioannis U., Reich, Martin M., Ganos, Christos, Plagnol, Vincent, Polke, James M., Bras, Jose, Hersheson, Joshua, Stamelou, Maria, Pittman, Alan M., Noyce, Alastair J., Mok, Kin Y., Opladen, Thomas, Kunstmann, Erdmute, Hodecker, Sybille, Münchau, Alexander, Volkmann, Jens, Samnick, Samuel, Sidle, Katie, Nanji, Tina, Sweeney, Mary G., Houlden, Henry, Batla, Amit, Zecchinelli, Anna L., Pezzoli, Gianni, Marotta, Giorgio, Lees, Andrew, Alegria, Paulo, Krack, Paul, Cormier-Dequaire, Florence, Lesage, Suzanne, Brice, Alexis, Heutink, Peter, Gasser, Thomas, Lubbe, Steven J., Morris, Huw R., Taba, Pille, Koks, Sulev, Majounie, Elisa, Raphael Gibbs, J., Singleton, Andrew, Hardy, John, Klebe, Stephan, Bhatia, Kailash P., and Wood, Nicholas W.

Published
2014
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6. Nonataxia symptoms in Friedreich Ataxia

Author

Reetz, Kathrin, Dogan, Imis, Schöls, Ludger, Giordano, Ilaria, Bürk, Katrin, Pandolfo, Massimo, Schulz, Jörg B, Group, EFACTS Study, Nachbauer, Wolfgang, Eigentler, Andreas, Depondt, Chantal, Benaich, Sandra, Hohenfeld, Christian, Charles, Perrine, Ewenczyk, Claire, Monin, Marie-Lorraine, Fedosov, Kathrin, Dafotakis, Manuel, Timmann, Dagmar, Karin, Ivan, Sarro, Lidia, Nanetti, Lorenzo, Castaldo, Anna, Didszun, Claire, Arpa, Javier, Sanz-Gallego, Irene, Parkinson, Michael H, Sweeney, Mary G, Giunti, Paola, Mariotti, Caterina, Durr, Alexandra, Boesch, Sylvia, Klopstock, Thomas, Rodríguez de Rivera Garrido, Francisco Javier, and Timmann, Dagmar (Beitragende*r)

Subjects
Adult, Male, 0301 basic medicine, Pediatrics, medicine.medical_specialty, Ataxia, Adolescent, Medizin, Cardiomyopathy, physiopathology [Friedreich Ataxia], Disease, Scoliosis, Translational Research, Biomedical, Cohort Studies, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Neurologie, diagnosis [Friedreich Ataxia], medicine, Humans, Medical history, ddc:610, Registries, Child, Translational Medical Research, Depression (differential diagnoses), Aged, Neurologic Examination, business.industry, epidemiology [Friedreich Ataxia], epidemiology [Europe], Middle Aged, medicine.disease, genetics [Friedreich Ataxia], Europe, Clinical trial, 030104 developmental biology, Friedreich Ataxia, Female, Neurology (clinical), medicine.symptom, business, 030217 neurology & neurosurgery, Cohort study
Abstract

OBJECTIVE: To provide a systematic evaluation of the broad clinical variability in Friedreich ataxia (FRDA), a multisystem disorder presenting mainly with afferent ataxia but also a complex phenotype of nonataxia symptoms. METHODS: From the large database of the European Friedreich's Ataxia Consortium for Translational Studies, 650 patients with genetically confirmed FRDA were included. Detailed data of medical history documentation, questionnaires, and reports on clinical features were analyzed to provide in-depth description of the clinical profile and frequency rates of phenotypical features with a focus on differences between typical-onset and late-onset FRDA. Logistic regression modeling was used to identify predictors for the presence of the most common clinical features. RESULTS: The most frequent clinical features beyond afferent ataxia were abnormal eye movements (90.5%), scoliosis (73.5%), deformities of the feet (58.8%), urinary dysfunction (42.8%), cardiomyopathy and cardiac hypertrophy (40.3%), followed by decreased visual acuity (36.8%); less frequent features were, among others, depression (14.1%) and diabetes (7.1%). Most of these features were more common in the typical-onset group compared to the late-onset group. Logistic regression models for the presence of these symptoms demonstrated the predictive value of GAA repeat length on the shorter allele and age at onset, but also severity of ataxia signs, sex, and presence of neonatal problems. CONCLUSIONS: This joint European effort demonstrates the multisystem nature of this neurodegenerative disease encompassing most the central nervous, neuromuscular, cardiologic, and sensory systems. A distinct and deeper knowledge of this rare and chronic disease is highly relevant for clinical practice and designs of clinical trials., SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2018
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8. Translating genetic and functional data into clinical practice: a series of 223 families with myotonia.

Author

Suetterlin, Karen, Matthews, Emma, Sud, Richa, McCall, Samuel, Fialho, Doreen, Burge, James, Jayaseelan, Dipa, Haworth, Andrea, Sweeney, Mary G, Kullmann, Dimitri M, Schorge, Stephanie, Hanna, Michael G, and Männikkö, Roope

Subjects
MYOTONIA congenita, NEUROMUSCULAR diseases, CHLORIDE channels, GENETIC counseling, GENETIC translation, GENETIC correlations, RECESSIVE genes, RESEARCH, GENETIC mutation, RESEARCH methodology, EVALUATION research, COMPARATIVE studies, RESEARCH funding, MEMBRANE proteins, MYOTONIA, PHENOTYPES
Abstract

High-throughput DNA sequencing is increasingly employed to diagnose single gene neurological and neuromuscular disorders. Large volumes of data present new challenges in data interpretation and its useful translation into clinical and genetic counselling for families. Even when a plausible gene is identified with confidence, interpretation of the clinical significance and inheritance pattern of variants can be challenging. We report our approach to evaluating variants in the skeletal muscle chloride channel ClC-1 identified in 223 probands with myotonia congenita as an example of these challenges. Sequencing of CLCN1, the gene that encodes CLC-1, is central to the diagnosis of myotonia congenita. However, interpreting the pathogenicity and inheritance pattern of novel variants is notoriously difficult as both dominant and recessive mutations are reported throughout the channel sequence, ClC-1 structure-function is poorly understood and significant intra- and interfamilial variability in phenotype is reported. Heterologous expression systems to study functional consequences of CIC-1 variants are widely reported to aid the assessment of pathogenicity and inheritance pattern. However, heterogeneity of reported analyses does not allow for the systematic correlation of available functional and genetic data. We report the systematic evaluation of 95 CIC-1 variants in 223 probands, the largest reported patient cohort, in which we apply standardized functional analyses and correlate this with clinical assessment and inheritance pattern. Such correlation is important to determine whether functional data improves the accuracy of variant interpretation and likely mode of inheritance. Our data provide an evidence-based approach that functional characterization of ClC-1 variants improves clinical interpretation of their pathogenicity and inheritance pattern, and serve as reference for 34 previously unreported and 28 previously uncharacterized CLCN1 variants. In addition, we identify novel pathogenic mechanisms and find that variants that alter voltage dependence of activation cluster in the first half of the transmembrane domains and variants that yield no currents cluster in the second half of the transmembrane domain. None of the variants in the intracellular domains were associated with dominant functional features or dominant inheritance pattern of myotonia congenita. Our data help provide an initial estimate of the anticipated inheritance pattern based on the location of a novel variant and shows that systematic functional characterization can significantly refine the assessment of risk of an associated inheritance pattern and consequently the clinical and genetic counselling. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Mutations in the gene LRRK2 encoding dardarin (PARK8) cause familial Parkinsonʼs disease: clinical, pathological, olfactory and functional imaging and genetic data

Author

Khan, Naheed L., Jain, Shushant, Lynch, John M., Pavese, Nicola, Abou-Sleiman, Patrick, Holton, Janice L., Healy, Daniel G., Gilks, William P., Sweeney, Mary G., Ganguly, Milan, Gibbons, Vaneesha, Gandhi, Sonia, Vaughan, Jenny, Eunson, Louise H., Katzenschlager, Regina, Gayton, Juliet, Lennox, Graham, Revesz, Tamas, Nicholl, David, Bhatia, Kailash P., Quinn, Niall, Brooks, David, Lees, Andrew J., Davis, Mary B., Piccini, Paola, Singleton, Andrew B., and Wood, Nicholas W.

Published
2005

11. Dysfunction of NaV1.4, a skeletal muscle voltage-gated sodium channel, in sudden infant death syndrome:a case-control study

Author

Männikkö, Roope, Wong, Leonie, Tester, David J, Thor, Michael G, Sud, Richa, Kullmann, Dimitri M, Sweeney, Mary G, Leu, Costin, Sisodiya, Sanjay M, FitzPatrick, David R, Evans, Margaret J, Jeffrey, Iona J M, Tfelt-Hansen, Jacob, Cohen, Marta C, Fleming, Peter J, Jaye, Amie, Simpson, Michael A, Ackerman, Michael J, Hanna, Michael G, Behr, Elijah R, and Matthews, Emma

Subjects
Adult, Male, NONDYSTROPHIC MYOTONIA, Article, PERIODIC PARALYSIS, Gene Frequency, Risk Factors, Exome Sequencing, Humans, LARYNGEAL MUSCLE, NAV1.4 Voltage-Gated Sodium Channel, Muscle, Skeletal, TRIPLE-RISK MODEL, MUTATIONS, Genetic Variation, Infant, MYASTHENIC SYNDROME, CONGENITAL MYOPATHY, Case-Control Studies, FIBER TYPES, Mutation, FAST INACTIVATION, Channelopathies, Female, SCN4A, Sudden Infant Death
Abstract

Background: Sudden infant death syndrome (SIDS) is the leading cause of post-neonatal infant death in high-income countries. Central respiratory system dysfunction seems to contribute to these deaths. Excitation that drives contraction of skeletal respiratory muscles is controlled by the sodium channel NaV1.4, which is encoded by the gene SCN4A. Variants in NaV1.4 that directly alter skeletal muscle excitability can cause myotonia, periodic paralysis, congenital myopathy, and myasthenic syndrome. SCN4A variants have also been found in infants with life-threatening apnoea and laryngospasm. We therefore hypothesised that rare, functionally disruptive SCN4A variants might be over-represented in infants who died from SIDS. Methods: We did a case-control study, including two consecutive cohorts that included 278 SIDS cases of European ancestry and 729 ethnically matched controls without a history of cardiovascular, respiratory, or neurological disease. We compared the frequency of rare variants in SCN4A between groups (minor allele frequency

Published
2018
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12. Truncating and Missense Mutations in IGHMBP2 Cause Charcot-Marie Tooth Disease Type 2

Author

Cottenie, Ellen, Kochanski, Andrzej, Jordanova, Albena, Bansagi, Boglarka, Zimon, Magdalena, Horga, Alejandro, Jaunmuktane, Zane, Saveri, Paola, Rasic, Vedrana Milic, Baets, Jonathan, Bartsakoulia, Marina, Ploski, Rafal, Teterycz, Pawel, Nikolic, Milos, Quinlivan, Ros, Laura, Matilde, Sweeney, Mary G., Taroni, Franco, Lunn, Michael P., Moroni, Isabella, Gonzalez, Michael, Hanna, Michael G., Bettencourt, Conceicao, Chabrol, Elodie, Franke, Andre, von Au, Katja, Schilhabel, Markus, Kabzińska, Dagmara, Hausmanowa-Petrusewicz, Irena, Brandner, Sebastian, Lim, Siew Choo, Song, Haiwei, Choi, Byung-Ok, Horvath, Rita, Chung, Ki-Wha, Zuchner, Stephan, Pareyson, Davide, Harms, Matthew, Reilly, Mary M., and Houlden, Henry

Subjects
Genetics, Genetics(clinical)
Abstract

Using a combination of exome sequencing and linkage analysis, we investigated an English family with two affected siblings in their 40s with recessive Charcot-Marie Tooth disease type 2 (CMT2). Compound heterozygous mutations in the immunoglobulin-helicase-μ-binding protein 2 (IGHMBP2) gene were identified. Further sequencing revealed a total of 11 CMT2 families with recessively inherited IGHMBP2 gene mutations. IGHMBP2 mutations usually lead to spinal muscular atrophy with respiratory distress type 1 (SMARD1), where most infants die before 1 year of age. The individuals with CMT2 described here, have slowly progressive weakness, wasting and sensory loss, with an axonal neuropathy typical of CMT2, but no significant respiratory compromise. Segregating IGHMBP2 mutations in CMT2 were mainly loss-of-function nonsense in the 5′ region of the gene in combination with a truncating frameshift, missense, or homozygous frameshift mutations in the last exon. Mutations in CMT2 were predicted to be less aggressive as compared to those in SMARD1, and fibroblast and lymphoblast studies indicate that the IGHMBP2 protein levels are significantly higher in CMT2 than SMARD1, but lower than controls, suggesting that the clinical phenotype differences are related to the IGHMBP2 protein levels.

Published
2014
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13. Complexity of the Genetics and Clinical Presentation of Spinocerebellar Ataxia 17

Author

Nethisinghe, Suran, primary, Lim, Wei N., additional, Ging, Heather, additional, Zeitlberger, Anna, additional, Abeti, Rosella, additional, Pemble, Sally, additional, Sweeney, Mary G., additional, Labrum, Robyn, additional, Cervera, Charisse, additional, Houlden, Henry, additional, Rosser, Elisabeth, additional, Limousin, Patricia, additional, Kennedy, Angus, additional, Lunn, Michael P., additional, Bhatia, Kailash P., additional, Wood, Nicholas W., additional, Hardy, John, additional, Polke, James M., additional, Veneziano, Liana, additional, Brusco, Alfredo, additional, Davis, Mary B., additional, and Giunti, Paola, additional

Published
2018
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15. Clinicopathologic and molecular spectrum of RNASEH1-related mitochondrial disease

Author

Bugiardini, Enrico, primary, Poole, Olivia V., additional, Manole, Andreea, additional, Pittman, Alan M., additional, Horga, Alejandro, additional, Hargreaves, Iain, additional, Woodward, Cathy E., additional, Sweeney, Mary G., additional, Holton, Janice L., additional, Taanman, Jan-Willem, additional, Plant, Gordon T., additional, Poulton, Joanna, additional, Zeviani, Massimo, additional, Ghezzi, Daniele, additional, Taylor, John, additional, Smith, Conrad, additional, Fratter, Carl, additional, Kanikannan, Meena A., additional, Paramasivam, Arumugam, additional, Thangaraj, Kumarasamy, additional, Spinazzola, Antonella, additional, Holt, Ian J., additional, Houlden, Henry, additional, Hanna, Michael G., additional, and Pitceathly, Robert D.S., additional

Published
2017
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16. Screening a UK amyotrophic lateral sclerosis cohort provides evidence of multiple origins of the C9orf72 expansion

Author

Fratta, Pietro, Polke, James M., Newcombe, Jia, Mizielinska, Sarah, Lashley, Tammaryn, Poulter, Mark, Beck, Jon, Preza, Elisavet, Devoy, Anny, Sidle, Katie, Howard, Robin, Malaspina, Andrea, Orrell, Richard W., Clarke, Jan, Lu, Ching-Hua, Mok, Kin, Collins, Toby, Shoaii, Maryam, Nanji, Tina, Wray, Selina, Adamson, Gary, Pittman, Alan, Renton, Alan E., Traynor, Bryan J., Sweeney, Mary G., Revesz, Tamas, Houlden, Henry, Mead, Simon, Isaacs, Adrian M., and Fisher, Elizabeth M.C.

Subjects
DNA Repeat Expansion, C9orf72 Protein, Neuroscience(all), Amyotrophic Lateral Sclerosis, Clinical Neurology, Proteins, United Kingdom, Cohort Studies, Ageing, Frontotemporal Dementia, Somatic instability, Humans, Genetic Report Abstract, Geriatrics and Gerontology, Developmental Biology
Abstract

An expanded hexanucleotide repeat in the C9orf72 gene is the most common genetic cause of amyotrophic lateral sclerosis and frontotemporal dementia (C9ALS/FTD). Although 0–30 hexanucleotide repeats are present in the general population, expansions >500 repeats are associated with C9ALS/FTD. Large C9ALS/FTD expansions share a common haplotype and whether these expansions derive from a single founder or occur more frequently on a predisposing haplotype is yet to be determined and is relevant to disease pathomechanisms. Furthermore, although cases carrying 50–200 repeats have been described, their role and the pathogenic threshold of the expansions remain to be identified and carry importance for diagnostics and genetic counseling. We present clinical and genetic data from a UK ALS cohort and report the detailed molecular study of an atypical somatically unstable expansion of 90 repeats. Our results across different tissues provide evidence for the pathogenicity of this repeat number by showing they can somatically expand in the central nervous system to the well characterized pathogenic range. Our results support the occurrence of multiple expansion events for C9ALS/FTD.

Published
2014

17. Cryptic Amyloidogenic Elements in the 3′ UTRs of Neurofilament Genes Trigger Axonal Neuropathy

Author

Rebelo, Adriana P., primary, Abrams, Alexander J., additional, Cottenie, Ellen, additional, Horga, Alejandro, additional, Gonzalez, Michael, additional, Bis, Dana M., additional, Sanchez-Mejias, Avencia, additional, Pinto, Milena, additional, Buglo, Elena, additional, Markel, Kasey, additional, Prince, Jeffrey, additional, Laura, Matilde, additional, Houlden, Henry, additional, Blake, Julian, additional, Woodward, Cathy, additional, Sweeney, Mary G., additional, Holton, Janice L., additional, Hanna, Michael, additional, Dallman, Julia E., additional, Auer-Grumbach, Michaela, additional, Reilly, Mary M., additional, and Zuchner, Stephan, additional

Published
2016
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19. A Clinical, Neuropathological and Genetic Study of Homozygous A467T POLG-Related Mitochondrial Disease

Author

Rajakulendran, Sanjeev, primary, Pitceathly, Robert D. S., additional, Taanman, Jan-Willem, additional, Costello, Harry, additional, Sweeney, Mary G., additional, Woodward, Cathy E., additional, Jaunmuktane, Zane, additional, Holton, Janice L., additional, Jacques, Thomas S., additional, Harding, Brian N., additional, Fratter, Carl, additional, Hanna, Michael G., additional, and Rahman, Shamima, additional

Published
2016
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20. Analysis of spinocerebellar ataxias due to expanded triplet repeats in Greek patients with cerebellar ataxia

Author

Koutsis, Georgios Pemble, Sally Sweeney, Mary G. Paudel, Reema Wood, Nicholas W. Panas, Marios Kladi, Athina and Houlden, Henry

Subjects
congenital, hereditary, and neonatal diseases and abnormalities
Abstract

The relative frequency of different autosomal dominant cerebellar ataxias, commonly referred to as spinocerebellar ataxias (SCAs), varies considerably among populations of different ethnic origin. No data exist at present on the frequency of different SCAs in the Greek population. In the present study we investigated the presence of triplet repeat expansion SCAs (SCA1, SCA2, SCA3, SCA6, SCA7, SCA8, SCA12, SCA17 and DRPLA) in a cohort of 83 Greek patients with slowly progressive cerebellar ataxia. Twenty patients came from autosomal dominant (AD) pedigrees, seven displayed recessive or unclear inheritance and 56 were sporadic. We found four patients with pathological SCA expansions, all from AD pedigrees. Two patients had SCA1, one SCA2 and one SCA7 (10.0, 5.0 and 5.0% of the AD group, respectively). The clinical features of these patients were within the expected spectrum. In total, a pathological expansion was detected in 20% of patients from AD pedigrees. Interestingly, no cases of SCA3 or SCA6 were detected in the AD group. No expansions were found in other familial cases or in sporadic patients. Overall, no cases of SCA3, SCA6, SCA12, SCA17 or DRPLA were identified in the Greek population. In conclusion, SCA1, SCA2 and SCA7 are present in Greek patients with AD cerebellar ataxia in frequencies similar to those observed in other populations. SCA3 and SCA6 appear however to be rare in Greece. The genetic cause for the majority of AD ataxias remains to be identified. (c) 2012 Elsevier B.V. All rights reserved.

Published
2012

21. The Role of Interruptions in polyQ in the Pathology of SCA1

Author

Menon, Rajesh P., primary, Nethisinghe, Suran, additional, Faggiano, Serena, additional, Vannocci, Tommaso, additional, Rezaei, Human, additional, Pemble, Sally, additional, Sweeney, Mary G., additional, Wood, Nicholas W., additional, Davis, Mary B., additional, Pastore, Annalisa, additional, and Giunti, Paola, additional

Published
2013
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22. NDUFA4 Mutations Underlie Dysfunction of a Cytochrome c Oxidase Subunit Linked to Human Neurological Disease

Author

Pitceathly, Robert D.S., primary, Rahman, Shamima, additional, Wedatilake, Yehani, additional, Polke, James M., additional, Cirak, Sebahattin, additional, Foley, A. Reghan, additional, Sailer, Anna, additional, Hurles, Matthew E., additional, Stalker, Jim, additional, Hargreaves, Iain, additional, Woodward, Cathy E., additional, Sweeney, Mary G., additional, Muntoni, Francesco, additional, Houlden, Henry, additional, Taanman, Jan-Willem, additional, and Hanna, Michael G., additional

Published
2013
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24. Mitochondrial ND5 Gene Variation Associated with Encephalomyopathy and Mitochondrial ATP Consumption

Author

McKenzie, Matthew, primary, Liolitsa, Danae, additional, Akinshina, Natalya, additional, Campanella, Michelangelo, additional, Sisodiya, Sanjay, additional, Hargreaves, Ian, additional, Nirmalananthan, Niranjanan, additional, Sweeney, Mary G., additional, Abou-Sleiman, Patrick M., additional, Wood, Nicholas W., additional, Hanna, Michael G., additional, and Duchen, Michael R., additional

Published
2007
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26. NDUFA4Mutations Underlie Dysfunction of a Cytochrome cOxidase Subunit Linked to Human Neurological Disease

Author

Pitceathly, Robert D.S., Rahman, Shamima, Wedatilake, Yehani, Polke, James M., Cirak, Sebahattin, Foley, A. Reghan, Sailer, Anna, Hurles, Matthew E., Stalker, Jim, Hargreaves, Iain, Woodward, Cathy E., Sweeney, Mary G., Muntoni, Francesco, Houlden, Henry, Taanman, Jan-Willem, and Hanna, Michael G.

Abstract

The molecular basis of cytochrome coxidase (COX, complex IV) deficiency remains genetically undetermined in many cases. Homozygosity mapping and whole-exome sequencing were performed in a consanguineous pedigree with isolated COX deficiency linked to a Leigh syndrome neurological phenotype. Unexpectedly, affected individuals harbored homozygous splice donor site mutations in NDUFA4, a gene previously assigned to encode a mitochondrial respiratory chain complex I (NADH:ubiquinone oxidoreductase) subunit. Western blot analysis of denaturing gels and immunocytochemistry revealed undetectable steady-state NDUFA4 protein levels, indicating that the mutation causes a loss-of-function effect in the homozygous state. Analysis of one- and two-dimensional blue-native polyacrylamide gels confirmed an interaction between NDUFA4 and the COX enzyme complex in control muscle, whereas the COX enzyme complex without NDUFA4 was detectable with no abnormal subassemblies in patient muscle. These observations support recent work in cell lines suggesting that NDUFA4 is an additional COX subunit and demonstrate that NDUFA4mutations cause human disease. Our findings support reassignment of the NDUFA4 protein to complex IV and suggest that patients with unexplained COX deficiency should be screened for NDUFA4mutations.

Published
2013
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27. The analysis of C9orf72 repeat expansions in a large series of clinically and pathologically diagnosed cases with atypical parkinsonism

Author

Schottlaender, Lucia V., Polke, James M., Ling, Helen, MacDoanld, Nicola D., Tucci, Arianna, Nanji, Tina, Pittman, Alan, de Silva, Rohan, Holton, Janice L., Revesz, Tamas, Sweeney, Mary G., Singleton, Andy B., Lees, Andrew J., Bhatia, Kailash P., and Houlden, Henry

Subjects
Ageing, Multiple system atrophy (MSA), Progressive supranuclear palsy (PSP), Neuroscience(all), C9orf72, Clinical Neurology, Geriatrics and Gerontology, Parkinsonism, eye diseases, Developmental Biology, Corticobasal degeneration (CBD) and corticobasal syndrome (CBS)
Abstract

A GGGGCC repeat expansion in the C9orf72 gene was recently identified as a major cause of familial and sporadic amyotrophic lateral sclerosis and frontotemporal dementia. There is suggestion that these expansions may be a rare cause of parkinsonian disorders such as progressive supranuclear palsy (PSP), multiple system atrophy (MSA), and corticobasal degeneration (CBD). Screening the C9orf72 gene in 37 patients with features of corticobasal syndrome (CBS) detected an expansion in 3 patients, confirmed by Southern blotting. In a series of 22 patients with clinically diagnosed PSP, we found 1 patient with an intermediate repeat length. We also screened for the C9orf72 expansion in a large series of neuropathologically confirmed samples with MSA (n = 96), PSP (n = 177), and CBD (n = 18). Patients were found with no more than 22 GGGGCC repeats. Although these results still need to be confirmed in a larger cohort of CBS and/or CBD patients, these data suggest that in the presence of a family history and/or motor neuron disease features, patients with CBS or clinical PSP should be screened for the C9orf72 repeat expansion. In addition, we confirm that the C9orf72 expansions are not associated with pathologically confirmed MSA, PSP, or CBD in a large series of cases.

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28. The role of interruptions in polyQ in the pathology of SCA1

Author

Tommaso Vannocci, Nicholas W. Wood, Suran Nethisinghe, Paola Giunti, Serena Faggiano, S E Pemble, Human Rezaei, Mary G. Sweeney, Mary B. Davis, Annalisa Pastore, Rajesh Menon, Medical Research Council, University College of London [London] (UCL), Unité de recherche Virologie et Immunologie Moléculaires (VIM (UR 0892)), Institut National de la Recherche Agronomique (INRA), Natl Hosp Neurol & Neurosurg, Partenaires INRAE, Institute of Neurology, Ataxia UK, MRC, Department of Health's National Institute for Health Research Biomedical Research Centres funding scheme, Dementias and Neurodegenerative Diseases Research Network (DeNDRoN), Menon Rajesh, P., Nethisinghe, Suran, Faggiano, Serena, Vannocci, Tommaso, Rezaei, Human, Pemble, Sally, Sweeney Mary, G., Wood Nicholas, W., Davis Mary, B., Pastore, Annalisa, and Giunti, Paola

Subjects
Male, Cancer Research, Neuronal, [SDV]Life Sciences [q-bio], medicine.disease_cause, 0302 clinical medicine, Missense mutation, Age of Onset, Genetics (clinical), Spinocerebellar Degenerations, Genetics, Allele, 0303 health sciences, Mutation, Ecology, Middle Aged, Pedigree, Peptide, Spinocerebellar ataxia, Medicine, Female, medicine.symptom, Research Article, Human, Behavior and Systematic, Ataxia, lcsh:QH426-470, Evolution, Cell Adhesion Molecules, Neuronal, Spinocerebellar Degeneration, Biology, 03 medical and health sciences, Genetic, medicine, Humans, Spinocerebellar Ataxias, Gene, Molecular Biology, Alleles, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Spinocerebellar Ataxia, medicine.disease, lcsh:Genetics, Cell Adhesion Molecule, Age of onset, Peptides, Trinucleotide repeat expansion, Trinucleotide Repeat Expansion, 030217 neurology & neurosurgery
Abstract

At least nine dominant neurodegenerative diseases are caused by expansion of CAG repeats in coding regions of specific genes that result in abnormal elongation of polyglutamine (polyQ) tracts in the corresponding gene products. When above a threshold that is specific for each disease the expanded polyQ repeats promote protein aggregation, misfolding and neuronal cell death. The length of the polyQ tract inversely correlates with the age at disease onset. It has been observed that interruption of the CAG tract by silent (CAA) or missense (CAT) mutations may strongly modulate the effect of the expansion and delay the onset age. We have carried out an extensive study in which we have complemented DNA sequence determination with cellular and biophysical models. By sequencing cloned normal and expanded SCA1 alleles taken from our cohort of ataxia patients we have determined sequence variations not detected by allele sizing and observed for the first time that repeat instability can occur even in the presence of CAG interruptions. We show that histidine interrupted pathogenic alleles occur with relatively high frequency (11%) and that the age at onset inversely correlates linearly with the longer uninterrupted CAG stretch. This could be reproduced in a cellular model to support the hypothesis of a linear behaviour of polyQ. We clarified by in vitro studies the mechanism by which polyQ interruption slows down aggregation. Our study contributes to the understanding of the role of polyQ interruption in the SCA1 phenotype with regards to age at disease onset, prognosis and transmission., Author Summary Spinocerebellar ataxia type 1 (SCA1) is a progressive neurodegenerative disorder resulting in loss of coordination and balance. It is caused by an expanded repeated DNA sequence (CAG) in the gene ATXN1. The CAG repeat region is normally interrupted by the DNA sequence CAT. Loss of this interruption is believed to cause instability whereby the CAG repeat expands beyond a key threshold resulting, ultimately, in polyglutamine protein aggregation and cell death. Here we examine how interruptions influence pathology in patients and establish a cellular model to support our findings. We distinguish our patients into two sub-groups based on whether or not their expanded CAG repeat stretches contained an interruption. This is not possible with conventional diagnostic techniques. Differentiating the sub-group with no interruptions led to improved accuracy in predicting their age at onset. The other sub-group, with interruptions, reveals a delay in age at onset that shows greater alignment with the longest stretch of CAG repeats. These findings are significant for genetic counselling and prognosis. Our cellular model and in vitro studies confirmed the relationship between disease severity and uninterrupted repeat length and showed that interruptions do not significantly affect the polyglutamine protein aggregation, but do slow down the aggregation rate.

Published
2013
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29. Translating genetic and functional data into clinical practice: a series of 223 families with myotonia.

Author

Suetterlin K, Matthews E, Sud R, McCall S, Fialho D, Burge J, Jayaseelan D, Haworth A, Sweeney MG, Kullmann DM, Schorge S, Hanna MG, and Männikkö R

Subjects
Chloride Channels genetics, Humans, Mutation genetics, Phenotype, Myotonia genetics, Myotonia Congenita genetics
Abstract

High-throughput DNA sequencing is increasingly employed to diagnose single gene neurological and neuromuscular disorders. Large volumes of data present new challenges in data interpretation and its useful translation into clinical and genetic counselling for families. Even when a plausible gene is identified with confidence, interpretation of the clinical significance and inheritance pattern of variants can be challenging. We report our approach to evaluating variants in the skeletal muscle chloride channel ClC-1 identified in 223 probands with myotonia congenita as an example of these challenges. Sequencing of CLCN1, the gene that encodes CLC-1, is central to the diagnosis of myotonia congenita. However, interpreting the pathogenicity and inheritance pattern of novel variants is notoriously difficult as both dominant and recessive mutations are reported throughout the channel sequence, ClC-1 structure-function is poorly understood and significant intra- and interfamilial variability in phenotype is reported. Heterologous expression systems to study functional consequences of CIC-1 variants are widely reported to aid the assessment of pathogenicity and inheritance pattern. However, heterogeneity of reported analyses does not allow for the systematic correlation of available functional and genetic data. We report the systematic evaluation of 95 CIC-1 variants in 223 probands, the largest reported patient cohort, in which we apply standardized functional analyses and correlate this with clinical assessment and inheritance pattern. Such correlation is important to determine whether functional data improves the accuracy of variant interpretation and likely mode of inheritance. Our data provide an evidence-based approach that functional characterization of ClC-1 variants improves clinical interpretation of their pathogenicity and inheritance pattern, and serve as reference for 34 previously unreported and 28 previously uncharacterized CLCN1 variants. In addition, we identify novel pathogenic mechanisms and find that variants that alter voltage dependence of activation cluster in the first half of the transmembrane domains and variants that yield no currents cluster in the second half of the transmembrane domain. None of the variants in the intracellular domains were associated with dominant functional features or dominant inheritance pattern of myotonia congenita. Our data help provide an initial estimate of the anticipated inheritance pattern based on the location of a novel variant and shows that systematic functional characterization can significantly refine the assessment of risk of an associated inheritance pattern and consequently the clinical and genetic counselling., (© The Author(s) (2021). Published by Oxford University Press on behalf of the Guarantors of Brain.)

Published
2022
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