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301 results on '"Laing, N.G."'

1. Identification of a novel heterozygous DYSF variant in a large family with a dominantly‐inherited dysferlinopathy

Author

Folland, C., Johnsen, R., Botero Gomez, A., Trajanoski, D., Davis, M.R., Moore, U., Straub, V., Barresi, R., Guglieri, M., Hayhurst, H., Schaefer, A.M., Laing, N.G., Lamont, P.J., Ravenscroft, G., Folland, C., Johnsen, R., Botero Gomez, A., Trajanoski, D., Davis, M.R., Moore, U., Straub, V., Barresi, R., Guglieri, M., Hayhurst, H., Schaefer, A.M., Laing, N.G., Lamont, P.J., and Ravenscroft, G.

Abstract

Aims Dysferlinopathy is an autosomal recessive muscular dystrophy, caused by bi-allelic variants in the gene encoding dysferlin (DYSF). Onset typically occurs in the second to third decade and is characterised by slowly progressive skeletal muscle weakness and atrophy of the proximal and/or distal muscles of the four limbs. There are rare cases of symptomatic DYSF variant carriers. Here, we report a large family with a dominantly inherited hyperCKaemia and late-onset muscular dystrophy. Methods and Results Genetic analysis identified a co-segregating novel DYSF variant [NM_003494.4:c.6207del p.(Tyr2070Metfs*4)]. No secondary variants in DYSF or other dystrophy-related genes were identified on whole genome sequencing and analysis of the proband's DNA. Skeletal muscle involvement was milder and later onset than typical dysferlinopathy presentations; these clinical signs manifested in four individuals, all between the fourth and sixth decades of life. All individuals heterozygous for the c.6207del variant had hyperCKaemia. Histological analysis of skeletal muscle biopsies across three generations showed clear dystrophic signs, including inflammatory infiltrates, regenerating myofibres, increased variability in myofibre size and internal nuclei. Muscle magnetic resonance imaging revealed fatty replacement of muscle in two individuals. Western blot and immunohistochemical analysis of muscle biopsy demonstrated consistent reduction of dysferlin staining. Allele-specific quantitative PCR analysis of DYSF mRNA from patient muscle found that the variant, localised to the extreme C-terminus of dysferlin, does not activate post-transcriptional mRNA decay. Conclusions We propose that this inheritance pattern may be underappreciated and that other late-onset muscular dystrophy cases with mono-allelic DYSF variants, particularly C-terminal premature truncation variants, may represent dominant forms of disease.

Published
2022

3. Polygenic risk score analysis for amyotrophic lateral sclerosis leveraging cognitive performance, educational attainment and schizophrenia

Author

Restuadi, R., Garton, F.C., Benyamin, B., Lin, T., Williams, K.L., Vinkhuyzen, A., van Rheenen, W., Zhu, Z., Laing, N.G., Mather, K.A., Sachdev, P.S., Ngo, S.T., Steyn, F.J., Wallace, L., Henders, A.K., Visscher, P.M., Needham, M., Mathers, S., Nicholson, G., Rowe, D.B., Henderson, R.D., McCombe, P.A., Pamphlett, R., Blair, I.P., Wray, N.R., McRae, A.F., Restuadi, R., Garton, F.C., Benyamin, B., Lin, T., Williams, K.L., Vinkhuyzen, A., van Rheenen, W., Zhu, Z., Laing, N.G., Mather, K.A., Sachdev, P.S., Ngo, S.T., Steyn, F.J., Wallace, L., Henders, A.K., Visscher, P.M., Needham, M., Mathers, S., Nicholson, G., Rowe, D.B., Henderson, R.D., McCombe, P.A., Pamphlett, R., Blair, I.P., Wray, N.R., and McRae, A.F.

Abstract

Amyotrophic Lateral Sclerosis (ALS) is recognised to be a complex neurodegenerative disease involving both genetic and non-genetic risk factors. The underlying causes and risk factors for the majority of cases remain unknown; however, ever-larger genetic data studies and methodologies promise an enhanced understanding. Recent analyses using published summary statistics from the largest ALS genome-wide association study (GWAS) (20,806 ALS cases and 59,804 healthy controls) identified that schizophrenia (SCZ), cognitive performance (CP) and educational attainment (EA) related traits were genetically correlated with ALS. To provide additional evidence for these correlations, we built single and multi-trait genetic predictors using GWAS summary statistics for ALS and these traits, (SCZ, CP, EA) in an independent Australian cohort (846 ALS cases and 665 healthy controls). We compared methods for generating the risk predictors and found that the combination of traits improved the prediction (Nagelkerke-R2) of the case–control logistic regression. The combination of ALS, SCZ, CP, and EA, using the SBayesR predictor method gave the highest prediction (Nagelkerke-R2) of 0.027 (P value = 4.6 × 10−8), with the odds-ratio for estimated disease risk between the highest and lowest deciles of individuals being 3.15 (95% CI 1.96–5.05). These results support the genetic correlation between ALS, SCZ, CP and EA providing a better understanding of the complexity of ALS.

Published
2021

4. Novel STMN2 variant linked to amyotrophic lateral sclerosis risk and clinical phenotype

Author

Theunissen, F., Anderton, R.S., Mastaglia, F.L., Flynn, L.L., Winter, S.J., James, I., Bedlack, R., Hodgetts, S., Fletcher, S., Wilton, S.D., Laing, N.G., MacShane, M., Needham, M., Saunders, A., MacKay-Sim, A., Melamed, Z., Ravits, J., Cleveland, D.W., Akkari, P.A., Theunissen, F., Anderton, R.S., Mastaglia, F.L., Flynn, L.L., Winter, S.J., James, I., Bedlack, R., Hodgetts, S., Fletcher, S., Wilton, S.D., Laing, N.G., MacShane, M., Needham, M., Saunders, A., MacKay-Sim, A., Melamed, Z., Ravits, J., Cleveland, D.W., and Akkari, P.A.

Abstract

Objective: There is a critical need to establish genetic markers that explain the complex phenotypes and pathogenicity of ALS. This study identified a polymorphism in the Stathmin-2 gene and investigated its association with sporadic ALS (sALS) disease risk, age-of onset and survival duration. Methods: The candidate CA repeat was systematically analyzed using PCR, Sanger sequencing and high throughput capillary separation for genotyping. Stathmin-2 expression was investigated using RT-PCR in patient olfactory neurosphere-derived (ONS) cells and RNA sequencing in laser-captured spinal motor neurons. Results: In a case-control analysis of a combined North American sALS cohort (n = 321) and population control group (n = 332), long/long CA genotypes were significantly associated with disease risk (p = 0.042), and most strongly when one allele was a 24 CA repeat (p = 0.0023). In addition, longer CA allele length was associated with earlier age-of-onset (p = 0.039), and shorter survival duration in bulbar-onset cases (p = 0.006). In an Australian longitudinal sALS cohort (n = 67), ALS functional rating scale scores were significantly lower in carriers of the long/long genotype (p = 0.034). Stathmin-2 mRNA expression was reduced in sporadic patient ONS cells. Additionally, sALS patients and controls exhibited variable expression of Stathmin-2 mRNA according to CA genotype in laser-captured spinal motor neurons. Conclusions: We report a novel non-coding CA repeat in Stathmin-2 which is associated with sALS disease risk and has disease modifying effects. The potential value of this variant as a disease marker and tool for cohort enrichment in clinical trials warrants further investigation.

Published
2021

5. Ovine congenital progressive muscular dystrophy (OCPMD) is a model of TNNT1 congenital myopathy

Author

Clayton, J.S., McNamara, E.L., Goullee, H., Conijn, S., Muthsam, K., Musk, G.C., Coote, D., Kijas, J., Testa, A.C., Taylor, R.L., O’Hara, A.J., Groth, D., Ottenheijm, C., Ravenscroft, G., Laing, N.G., Nowak, K.J., Clayton, J.S., McNamara, E.L., Goullee, H., Conijn, S., Muthsam, K., Musk, G.C., Coote, D., Kijas, J., Testa, A.C., Taylor, R.L., O’Hara, A.J., Groth, D., Ottenheijm, C., Ravenscroft, G., Laing, N.G., and Nowak, K.J.

Abstract

Ovine congenital progressive muscular dystrophy (OCPMD) was first described in Merino sheep flocks in Queensland and Western Australia in the 1960s and 1970s. The most prominent feature of the disease is a distinctive gait with stiffness of the hind limbs that can be seen as early as 3 weeks after birth. The disease is progressive. Histopathological examination had revealed dystrophic changes specifically in type I (slow) myofibres, while electron microscopy had demonstrated abundant nemaline bodies. Therefore, it was never certain whether the disease was a dystrophy or a congenital myopathy with dystrophic features. In this study, we performed whole genome sequencing of OCPMD sheep and identified a single base deletion at the splice donor site (+ 1) of intron 13 in the type I myofibre-specific TNNT1 gene (KT218690 c.614 + 1delG). All affected sheep were homozygous for this variant. Examination of TNNT1 splicing by RT-PCR showed intron retention and premature termination, which disrupts the highly conserved 14 amino acid C-terminus. The variant did not reduce TNNT1 protein levels or affect its localization but impaired its ability to modulate muscle contraction in response to Ca2+ levels. Identification of the causative variant in TNNT1 finally clarifies that the OCPMD sheep is in fact a large animal model of TNNT1 congenital myopathy. This model could now be used for testing molecular or gene therapies.

Published
2020

6. Significant out-of-sample classification from methylation profile scoring for amyotrophic lateral sclerosis

Author

Nabais, M.F., Lin, T., Benyamin, B., Williams, K.L., Garton, F.C., Vinkhuyzen, A.A.E., Zhang, F., Vallerga, C.L., Restuadi, R., Freydenzon, A., Zwamborn, R.A.J., Hop, P.J., Robinson, M.R., Gratten, J., Visscher, P.M., Hannon, E., Mill, J., Brown, M.A., Laing, N.G., Mather, K.A., Sachdev, P.S., Ngoh, S.T., Steyn, F.J., Wallace, L., Henders, A.K., Needham, M., Veldink, J.H., Mathers, S., Nicholson, G., Rowe, D.B., Henderson, R.D., McCombe, P.A., Pamphlett, R., Yang, J., Blair, I.P., McRae, A.F., Wray, N.R., Nabais, M.F., Lin, T., Benyamin, B., Williams, K.L., Garton, F.C., Vinkhuyzen, A.A.E., Zhang, F., Vallerga, C.L., Restuadi, R., Freydenzon, A., Zwamborn, R.A.J., Hop, P.J., Robinson, M.R., Gratten, J., Visscher, P.M., Hannon, E., Mill, J., Brown, M.A., Laing, N.G., Mather, K.A., Sachdev, P.S., Ngoh, S.T., Steyn, F.J., Wallace, L., Henders, A.K., Needham, M., Veldink, J.H., Mathers, S., Nicholson, G., Rowe, D.B., Henderson, R.D., McCombe, P.A., Pamphlett, R., Yang, J., Blair, I.P., McRae, A.F., and Wray, N.R.

Abstract

We conducted DNA methylation association analyses using Illumina 450K data from whole blood for an Australian amyotrophic lateral sclerosis (ALS) case–control cohort (782 cases and 613 controls). Analyses used mixed linear models as implemented in the OSCA software. We found a significantly higher proportion of neutrophils in cases compared to controls which replicated in an independent cohort from the Netherlands (1159 cases and 637 controls). The OSCA MOMENT linear mixed model has been shown in simulations to best account for confounders. When combined in a methylation profile score, the 25 most-associated probes identified by MOMENT significantly classified case–control status in the Netherlands sample (area under the curve, AUC = 0.65, CI95% = [0.62–0.68], p = 8.3 × 10−22). The maximum AUC achieved was 0.69 (CI95% = [0.66–0.71], p = 4.3 × 10−34) when cell-type proportion was included in the predictor.

Published
2020

8. Central core disease: clinical, pathological, and genetic features

Author

Quinlivan, R.M., Muller, C.R., Davis, M., Laing, N.G., Evans, G.A., Dwyer, J., Dove, J., Roberts, A.P., and Sewry, C.A.

Subjects
Genetic disorders -- Research -- Genetic aspects -- Diagnosis -- Development and progression, Muscle diseases -- Genetic aspects -- Diagnosis -- Development and progression -- Research, Family and marriage, Health, Diagnosis, Development and progression, Research, Genetic aspects
Abstract

Arch Dis Child 2003;88:1051-1055 Central core disease (CCD) is a dominantly inherited congenital myopathy allelic to malignant hyperthermia (MH) caused by mutations in the RYR1 gene on chromosome 19q13.1. Eleven [...]

Published
2003

9. Altered myogenesis and premature senescence underlie human TRIM32-related myopathy

Author

Servián-Morilla, E., Cabrera-Serrano, M., Rivas-Infante, E., Carvajal, A., Lamont, P.J., Pelayo-Negro, A.L., Ravenscroft, G., Junckerstorff, R., Dyke, J.M., Fletcher, S., Adams, A.M., Mavillard, F., Fernández-García, M.A., Nieto-González, J.L., Laing, N.G., Paradas, C., Servián-Morilla, E., Cabrera-Serrano, M., Rivas-Infante, E., Carvajal, A., Lamont, P.J., Pelayo-Negro, A.L., Ravenscroft, G., Junckerstorff, R., Dyke, J.M., Fletcher, S., Adams, A.M., Mavillard, F., Fernández-García, M.A., Nieto-González, J.L., Laing, N.G., and Paradas, C.

Abstract

TRIM32 is a E3 ubiquitin -ligase containing RING, B-box, coiled-coil and six C-terminal NHL domains. Mutations involving NHL and coiled-coil domains result in a pure myopathy (LGMD2H/STM) while the only described mutation in the B-box domain is associated with a multisystemic disorder without myopathy (Bardet-Biedl syndrome type11), suggesting that these domains are involved in distinct processes. Knock-out (T32KO) and knock-in mice carrying the c.1465G > A (p.D489N) involving the NHL domain (T32KI) show alterations in muscle regrowth after atrophy and satellite cells senescence. Here, we present phenotypical description and functional characterization of mutations in the RING, coiled-coil and NHL domains of TRIM32 causing a muscle dystrophy. Reduced levels of TRIM32 protein was observed in all patient muscle studied, regardless of the type of mutation (missense, single amino acid deletion, and frameshift) or the mutated domain. The affected patients presented with variable phenotypes but predominantly proximal weakness. Two patients had symptoms of both muscular dystrophy and Bardet-Biedl syndrome. The muscle magnetic resonance imaging (MRI) pattern is highly variable among patients and families. Primary myoblast culture from these patients demonstrated common findings consistent with reduced proliferation and differentiation, diminished satellite cell pool, accelerated senescence of muscle, and signs of autophagy activation.

Published
2019

10. Congenital Titinopathy: Comprehensive characterization and pathogenic insights

Author

Oates, E.C., Jones, K.J., Donkervoort, S., Charlton, A., Brammah, S., Smith, J.E., Ware, J.S., Yau, K.S., Swanson, L.C., Whiffin, N., Peduto, A.J., Bournazos, A., Waddell, L.B., Farrar, M.A., Sampaio, H.A., Teoh, H.L., Lamont, P.J., Mowat, D., Fitzsimons, R.B., Corbett, A.J., Ryan, M.M., O'Grady, G.L., Sandaradura, S.A., Ghaoui, R., Joshi, H., Marshall, J.L., Nolan, M.A., Kaur, S., Punetha, J., Topf, A., Harris, E., Bakshi, M., Genetti, C.A., Marttila, M., Werlauff, U., Streichenberger, N., Pestronk, A., Mazanti, I., Pinner, J.R., Vuillerot, C., Grosmann, C., Camacho, A., Mohassel, P., Leach, M.E., Foley, A.R., Bharucha-Goebel, D., Collins, J., Connolly, A.M., Gilbreath, H.R., Iannaccone, S.T., Castro, D., Cummings, B.B., Webster, R.I., Lazaro, L., Vissing, J., Coppens, S., Deconinck, N., Luk, H.M., Thomas, N.H., Foulds, N.C., Illingworth, M.A., Ellard, S., McLean, C.A., Phadke, R., Ravenscroft, G., Witting, N., Hackman, P., Richard, I., Cooper, S.T., Kamsteeg, E.J., Hoffman, E.P., Bushby, K., Straub, V., Udd, B., Ferreiro, A., North, K.N., Clarke, N.F., Lek, M., Beggs, A.H., Bonnemann, C.G., MacArthur, D.G., Granzier, H., Davis, M.R., Laing, N.G., Oates, E.C., Jones, K.J., Donkervoort, S., Charlton, A., Brammah, S., Smith, J.E., Ware, J.S., Yau, K.S., Swanson, L.C., Whiffin, N., Peduto, A.J., Bournazos, A., Waddell, L.B., Farrar, M.A., Sampaio, H.A., Teoh, H.L., Lamont, P.J., Mowat, D., Fitzsimons, R.B., Corbett, A.J., Ryan, M.M., O'Grady, G.L., Sandaradura, S.A., Ghaoui, R., Joshi, H., Marshall, J.L., Nolan, M.A., Kaur, S., Punetha, J., Topf, A., Harris, E., Bakshi, M., Genetti, C.A., Marttila, M., Werlauff, U., Streichenberger, N., Pestronk, A., Mazanti, I., Pinner, J.R., Vuillerot, C., Grosmann, C., Camacho, A., Mohassel, P., Leach, M.E., Foley, A.R., Bharucha-Goebel, D., Collins, J., Connolly, A.M., Gilbreath, H.R., Iannaccone, S.T., Castro, D., Cummings, B.B., Webster, R.I., Lazaro, L., Vissing, J., Coppens, S., Deconinck, N., Luk, H.M., Thomas, N.H., Foulds, N.C., Illingworth, M.A., Ellard, S., McLean, C.A., Phadke, R., Ravenscroft, G., Witting, N., Hackman, P., Richard, I., Cooper, S.T., Kamsteeg, E.J., Hoffman, E.P., Bushby, K., Straub, V., Udd, B., Ferreiro, A., North, K.N., Clarke, N.F., Lek, M., Beggs, A.H., Bonnemann, C.G., MacArthur, D.G., Granzier, H., Davis, M.R., and Laing, N.G.

Abstract

Contains fulltext : 196367.pdf (Publisher’s version ) (Open Access), OBJECTIVE: Comprehensive clinical characterization of congenital titinopathy to facilitate diagnosis and management of this important emerging disorder. METHODS: Using massively parallel sequencing we identified 30 patients from 27 families with 2 pathogenic nonsense, frameshift and/or splice site TTN mutations in trans. We then undertook a detailed analysis of the clinical, histopathological and imaging features of these patients. RESULTS: All patients had prenatal or early onset hypotonia and/or congenital contractures. None had ophthalmoplegia. Scoliosis and respiratory insufficiency typically developed early and progressed rapidly, whereas limb weakness was often slowly progressive, and usually did not prevent independent walking. Cardiac involvement was present in 46% of patients. Relatives of 2 patients had dilated cardiomyopathy. Creatine kinase levels were normal to moderately elevated. Increased fiber size variation, internalized nuclei and cores were common histopathological abnormalities. Cap-like regions, whorled or ring fibers, and mitochondrial accumulations were also observed. Muscle magnetic resonance imaging showed gluteal, hamstring and calf muscle involvement. Western blot analysis showed a near-normal sized titin protein in all samples. The presence of 2 mutations predicted to impact both N2BA and N2B cardiac isoforms appeared to be associated with greatest risk of cardiac involvement. One-third of patients had 1 mutation predicted to impact exons present in fetal skeletal muscle, but not included within the mature skeletal muscle isoform transcript. This strongly suggests developmental isoforms are involved in the pathogenesis of this congenital/early onset disorder. INTERPRETATION: This detailed clinical reference dataset will greatly facilitate diagnostic confirmation and management of patients, and has provided important insights into disease pathogenesis. Ann Neurol 2018;83:1105-1124.

Published
2018

11. CUGC for Duchenne muscular dystrophy (DMD)

Author

Coote, D.J., Davis, M.R., Cabrera, M., Needham, M., Laing, N.G., Nowak, K.J., Coote, D.J., Davis, M.R., Cabrera, M., Needham, M., Laing, N.G., and Nowak, K.J.

Abstract

No abstract available

Published
2018

14. Improved diagnosis and care for rare diseases through implementation of precision public health framework

Author

Baynam, G., Bowman, F., Lister, K., Walker, C.E., Pachter, N., Goldblatt, J., Boycott, K.M., Gahl, W.A., Kosaki, K., Adachi, T., Ishii, K., Mahede, T., McKenzie, F., Townshend, S., Slee, J., Kiraly-Borri, C., Vasudevan, A., Hawkins, A., Broley, S., Schofield, L., Verhoef, H., Groza, T., Zankl, A., Robinson, P.N., Haendel, M., Brudno, M., Mattick, J.S., Dinger, M.E., Roscioli, T., Cowley, M.J., Olry, A., Hanauer, M., Alkuraya, F.S., Taruscio, D., Posada de la Paz, M., Lochmüller, H., Bushby, K., Thompson, R., Hedley, V., Lasko, P., Mina, K., Beilby, J., Tifft, C., Davis, M., Laing, N.G., Julkowska, D., Le Cam, Y., Terry, S.F., Kaufmann, P., Eerola, I., Norstedt, I., Rath, A., Suematsu, M., Groft, S.C., Austin, C.P., Draghia-Akli, R., Weeramanthri, T.S., Molster, C., Dawkins, H.J.S., Baynam, G., Bowman, F., Lister, K., Walker, C.E., Pachter, N., Goldblatt, J., Boycott, K.M., Gahl, W.A., Kosaki, K., Adachi, T., Ishii, K., Mahede, T., McKenzie, F., Townshend, S., Slee, J., Kiraly-Borri, C., Vasudevan, A., Hawkins, A., Broley, S., Schofield, L., Verhoef, H., Groza, T., Zankl, A., Robinson, P.N., Haendel, M., Brudno, M., Mattick, J.S., Dinger, M.E., Roscioli, T., Cowley, M.J., Olry, A., Hanauer, M., Alkuraya, F.S., Taruscio, D., Posada de la Paz, M., Lochmüller, H., Bushby, K., Thompson, R., Hedley, V., Lasko, P., Mina, K., Beilby, J., Tifft, C., Davis, M., Laing, N.G., Julkowska, D., Le Cam, Y., Terry, S.F., Kaufmann, P., Eerola, I., Norstedt, I., Rath, A., Suematsu, M., Groft, S.C., Austin, C.P., Draghia-Akli, R., Weeramanthri, T.S., Molster, C., and Dawkins, H.J.S.

Abstract

Public health relies on technologies to produce and analyse data, as well as effectively develop and implement policies and practices. An example is the public health practice of epidemiology, which relies on computational technology to monitor the health status of populations, identify disadvantaged or at risk population groups and thereby inform health policy and priority setting. Critical to achieving health improvements for the underserved population of people living with rare diseases is early diagnosis and best care. In the rare diseases field, the vast majority of diseases are caused by destructive but previously difficult to identify protein-coding gene mutations. The reduction in cost of genetic testing and advances in the clinical use of genome sequencing, data science and imaging are converging to provide more precise understandings of the ‘person-time-place’ triad. That is: who is affected (people); when the disease is occurring (time); and where the disease is occurring (place). Consequently we are witnessing a paradigm shift in public health policy and practice towards ‘precision public health’. Patient and stakeholder engagement has informed the need for a national public health policy framework for rare diseases. The engagement approach in different countries has produced highly comparable outcomes and objectives. Knowledge and experience sharing across the international rare diseases networks and partnerships has informed the development of the Western Australian Rare Diseases Strategic Framework 2015–2018 (RD Framework) and Australian government health briefings on the need for a National plan. The RD Framework is guiding the translation of genomic and other technologies into the Western Australian health system, leading to greater precision in diagnostic pathways and care, and is an example of how a precision public health framework can improve health outcomes for the rare diseases population. Five vignettes are used to illustrate how policy decis

Published
2017

15. Clinical characterisation of a large international congenital titinopathy cohort

Author

Oates, E.C., primary, Yau, K.S., additional, Jones, K., additional, Smith, J.E., additional, Donkervoort, S., additional, Swanson, L., additional, Charlton, A., additional, Brammah, S., additional, Peduto, A.J., additional, Richard, I., additional, Ferreiro, A., additional, Hoffman, E., additional, Bushby, K., additional, Straub, V., additional, Udd, B., additional, Lek, M., additional, MacArthur, D.G., additional, Granzier, H., additional, Beggs, A., additional, Bönnemann, C.G., additional, North, K.N., additional, Davis, M.R., additional, and Laing, N.G., additional

Published
2017
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16. Loss-of-function mutations in SCN4A cause severe foetal hypokinesia or 'classical' congenital myopathy

Author

Zaharieva, I.T., Thor, M.G., Oates, E.C., Karnebeek, C.D. van, Hendson, G., Blom, E., Witting, N., Rasmussen, M., Gabbett, M.T., Ravenscroft, G., Sframeli, M., Suetterlin, K., Sarkozy, A., D'Argenzio, L., Hartley, L., Matthews, E., Pitt, M., Vissing, J., Ballegaard, M., Krarup, C., Slordahl, A., Halvorsen, H., Ye, X.C., Zhang, L.H., Lokken, N., Werlauff, U., Abdelsayed, M., Davis, M.R., Feng, L., Phadke, R., Sewry, C.A., Morgan, J.E., Laing, N.G., Vallance, H., Ruben, P., Hanna, M.G., Lewis, S., Kamsteeg, E.J., Mannikko, R., Muntoni, F., Zaharieva, I.T., Thor, M.G., Oates, E.C., Karnebeek, C.D. van, Hendson, G., Blom, E., Witting, N., Rasmussen, M., Gabbett, M.T., Ravenscroft, G., Sframeli, M., Suetterlin, K., Sarkozy, A., D'Argenzio, L., Hartley, L., Matthews, E., Pitt, M., Vissing, J., Ballegaard, M., Krarup, C., Slordahl, A., Halvorsen, H., Ye, X.C., Zhang, L.H., Lokken, N., Werlauff, U., Abdelsayed, M., Davis, M.R., Feng, L., Phadke, R., Sewry, C.A., Morgan, J.E., Laing, N.G., Vallance, H., Ruben, P., Hanna, M.G., Lewis, S., Kamsteeg, E.J., Mannikko, R., and Muntoni, F.

Abstract

Contains fulltext : 167925.pdf (Publisher’s version ) (Open Access), See Cannon (doi:10.1093/brain/awv400) for a scientific commentary on this article.Congenital myopathies are a clinically and genetically heterogeneous group of muscle disorders characterized by congenital or early-onset hypotonia and muscle weakness, and specific pathological features on muscle biopsy. The phenotype ranges from foetal akinesia resulting in in utero or neonatal mortality, to milder disorders that are not life-limiting. Over the past decade, more than 20 new congenital myopathy genes have been identified. Most encode proteins involved in muscle contraction; however, mutations in ion channel-encoding genes are increasingly being recognized as a cause of this group of disorders. SCN4A encodes the alpha-subunit of the skeletal muscle voltage-gated sodium channel (Nav1.4). This channel is essential for the generation and propagation of the muscle action potential crucial to muscle contraction. Dominant SCN4A gain-of-function mutations are a well-established cause of myotonia and periodic paralysis. Using whole exome sequencing, we identified homozygous or compound heterozygous SCN4A mutations in a cohort of 11 individuals from six unrelated kindreds with congenital myopathy. Affected members developed in utero- or neonatal-onset muscle weakness of variable severity. In seven cases, severe muscle weakness resulted in death during the third trimester or shortly after birth. The remaining four cases had marked congenital or neonatal-onset hypotonia and weakness associated with mild-to-moderate facial and neck weakness, significant neonatal-onset respiratory and swallowing difficulties and childhood-onset spinal deformities. All four surviving cohort members experienced clinical improvement in the first decade of life. Muscle biopsies showed myopathic features including fibre size variability, presence of fibrofatty tissue of varying severity, without specific structural abnormalities. Electrophysiology suggested a myopathic process, without myotonia. In vitr

Published
2016

17. Genotype-phenotype correlation in nemaline myopathy

Author

Ryan, M.M., Schnell, C., Strickland, C.D., Shield, L.K., Morgan, G., Iannaccone, S.T., Laing, N.G., North, K.N., and Beggs, A.H.

Subjects
Genetic disorders -- Research, Human chromosome abnormalities -- Research, Human genetics -- Research, Muscle diseases -- Genetic aspects, Gene mutations -- Physiological aspects, Biological sciences
Published
2001

19. Parkin mutations and idiopathic Parkinson disease (PD)

Author

Scott, W.K., Rogala, A.R., Rampersaud, E., Stajich, J.M., Nance, M.A., Watts, R.L., Hubble, J.P., Scott, B.L., Haines, J.L., Koller, W.C., Stern, M.B., Hiner, B.C., Jankovic, J., Allen, F.H., Goetz, C.G., Small, G.W., Laing, N.G., Pericak-Vance, M.A., and Vance, J.M.

Subjects
Genetic research -- Analysis, Human genetics -- Research, Parkinson's disease -- Genetic aspects, Biological sciences
Published
2000

20. Use of whole-exome sequencing for diagnosis of Limb-Girdle muscular dystrophy

Author

Ghaoui, R., Cooper, S.T., Lek, M., Jones, K., Corbett, A., Reddel, S.W., Needham, M., Liang, C., Waddell, L.B., Nicholson, G., O’Grady, G., Kaur, S., Ong, R., Davis, M., Sue, C.M., Laing, N.G., North, K.N., MacArthur, D.G., Clarke, N.F., Ghaoui, R., Cooper, S.T., Lek, M., Jones, K., Corbett, A., Reddel, S.W., Needham, M., Liang, C., Waddell, L.B., Nicholson, G., O’Grady, G., Kaur, S., Ong, R., Davis, M., Sue, C.M., Laing, N.G., North, K.N., MacArthur, D.G., and Clarke, N.F.

Abstract

Importance To our knowledge, the efficacy of transferring next-generation sequencing from a research setting to neuromuscular clinics has never been evaluated. Objective To translate whole-exome sequencing (WES) to clinical practice for the genetic diagnosis of a large cohort of patients with limb-girdle muscular dystrophy (LGMD) for whom protein-based analyses and targeted Sanger sequencing failed to identify the genetic cause of their disorder. Design, Setting, and Participants We performed WES on 60 families with LGMDs (100 exomes). Data analysis was performed between January 6 and December 19, 2014, using the xBrowse bioinformatics interface (Broad Institute). Patients with LGMD were ascertained retrospectively through the Institute for Neuroscience and Muscle Research Biospecimen Bank between 2006 and 2014. Enrolled patients had been extensively investigated via protein studies and candidate gene sequencing and remained undiagnosed. Patients presented with more than 2 years of muscle weakness and with dystrophic or myopathic changes present in muscle biopsy specimens. Main Outcomes and Measures The diagnostic rate of LGMD in Australia and the relative frequencies of the different LGMD subtypes. Our central goals were to improve the genetic diagnosis of LGMD, investigate whether the WES platform provides adequate coverage of known LGMD-related genes, and identify new LGMD-related genes. Results With WES, we identified likely pathogenic mutations in known myopathy genes for 27 of 60 families. Twelve families had mutations in known LGMD-related genes. However, 15 families had variants in disease-related genes not typically associated with LGMD, highlighting the clinical overlap between LGMD and other myopathies. Common causes of phenotypic overlap were due to mutations in congenital muscular dystrophy–related genes (4 families) and collagen myopathy–related genes (4 families). Less common myopathies included metabolic myopathy (2 families), congenital myasthenic s

Published
2015

21. Expanding the phenotype of GMPPB mutations

Author

Cabrera-Serrano, M., Ghaoui, R., Ravenscroft, G., Johnsen, R.D., Davis, M.R., Corbett, A., Reddel, S., Sue, C.M., Liang, C., Waddell, L.B., Kaur, S., Lek, M., North, K.N., MacArthur, D.G., Lamont, P.J., Clarke, N.F., Laing, N.G., Cabrera-Serrano, M., Ghaoui, R., Ravenscroft, G., Johnsen, R.D., Davis, M.R., Corbett, A., Reddel, S., Sue, C.M., Liang, C., Waddell, L.B., Kaur, S., Lek, M., North, K.N., MacArthur, D.G., Lamont, P.J., Clarke, N.F., and Laing, N.G.

Abstract

Dystroglycanopathies are a heterogeneous group of diseases with a broad phenotypic spectrum ranging from severe disorders with congenital muscle weakness, eye and brain structural abnormalities and intellectual delay to adult-onset limb-girdle muscular dystrophies without mental retardation. Most frequently the disease onset is congenital or during childhood. The exception is FKRP mutations, in which adult onset is a common presentation. Here we report eight patients from five non-consanguineous families where next generation sequencing identified mutations in the GMPPB gene. Six patients presented as an adult or adolescent-onset limb-girdle muscular dystrophy, one presented with isolated episodes of rhabdomyolysis, and one as a congenital muscular dystrophy. This report expands the phenotypic spectrum of GMPPB mutations to include limb-girdle muscular dystrophies with adult onset with or without intellectual disability, or isolated rhabdomyolysis.

Published
2015

23. G.O.2: Mutations in LMOD3 cause severe nemaline myopathy by disrupting thin filament organisation in skeletal muscle

Author

UCL - SSS/IONS/NEUR - Clinical Neuroscience, UCL - (SLuc) Service de neurologie, Kreissl, M., Sandaradura, S.A., Dowling, J.J., Kostyukova, A.S., Moroz, N., Quinlan, K.G., Lehtokari, V., Ravenscroft, G., Todd, E.J., Ceyhan-Birsoy, O., Gokhin, D.S., Maluenda, J., Lek, M., Nolent, F., Pappas, C.T., Novak, S.M., D’Amico, A., Malfatti, E., Thomas, B.P., Gabriel, S.B., Gupta, N., Daly, M.J., Ilkovski, B., Houweling, P.J., Swanson, L.C., Brownstein, C.A., Gupta, V.A., Medne, L., Shannon, P., Flisberg, A., Holmberg, E., Van den Bergh, Peter, Lapunzina, P., Waddell, L.B., Sloboda, D.D., Bertini, E., Chitayat, D., Telfer, W.R., Laquerrière, A., Gregorio, C.C., Ottenheijm, C.A.C., Bönnemann, C.G., Pelin, K., Beggs, A.H., Hayashi, Y.K., Romero, N.B., Laing, N.G., Nishino, I., Wallgren-Pettersson, C., Melki, J., Fowler, V.M., MacArthur, D.G., North, K.N., Clarke, N.F., UCL - SSS/IONS/NEUR - Clinical Neuroscience, UCL - (SLuc) Service de neurologie, Kreissl, M., Sandaradura, S.A., Dowling, J.J., Kostyukova, A.S., Moroz, N., Quinlan, K.G., Lehtokari, V., Ravenscroft, G., Todd, E.J., Ceyhan-Birsoy, O., Gokhin, D.S., Maluenda, J., Lek, M., Nolent, F., Pappas, C.T., Novak, S.M., D’Amico, A., Malfatti, E., Thomas, B.P., Gabriel, S.B., Gupta, N., Daly, M.J., Ilkovski, B., Houweling, P.J., Swanson, L.C., Brownstein, C.A., Gupta, V.A., Medne, L., Shannon, P., Flisberg, A., Holmberg, E., Van den Bergh, Peter, Lapunzina, P., Waddell, L.B., Sloboda, D.D., Bertini, E., Chitayat, D., Telfer, W.R., Laquerrière, A., Gregorio, C.C., Ottenheijm, C.A.C., Bönnemann, C.G., Pelin, K., Beggs, A.H., Hayashi, Y.K., Romero, N.B., Laing, N.G., Nishino, I., Wallgren-Pettersson, C., Melki, J., Fowler, V.M., MacArthur, D.G., North, K.N., and Clarke, N.F.

Abstract

Nemaline myopathy (NM) is a disorder of the skeletal muscle thin filament characterised by muscle dysfunction and electron-dense protein accumulations (nemaline bodies). Pathogenic mutations have been described in nine genes to date, but the genetic basis remains unknown in many cases. We used whole exome sequencing (WES) in two families with NM and subsequent gene sequencing in over 540 additional genetically unresolved NM patients to identify and characterise a new genetic cause of NM. We developed a knock-down zebrafish model of this condition and used immunohistochemistry, western blotting, single-fibre contractility studies and recombinant protein studies to characterise the expression, localisation and biochemical functions of the new disease-related protein. We identified homozygous or compound heterozygous variants in LMOD3, which encodes leiomodin-3 (Lmod3) in 21 patients from 14 families. Affected individuals had severe generalised weakness and hypotonia, and most affected individuals died in the neonatal period. We demonstrated that Lmod3 is expressed from early muscle differentiation, localises to thin filaments with enrichment at the pointed ends, and has strong actin nucleating activity. Loss of Lmod3 in patient muscle results in shortening and disorganisation of thin filaments. Knockdown of lmod3 in the zebrafish replicates this phenotype. These findings define a new genetic subtype of congenital myopathy and demonstrate an essential, previously unrecognised role for Lmod3 in the regulation of sarcomeric thin filaments in skeletal muscle.

Published
2014

24. G.P.51: Clinical and genetic characterization of distal myopathies

Author

Cabrera, M., Junckerstorff, R., Needham, M., Lamont, P.J., Laing, N.G., Cabrera, M., Junckerstorff, R., Needham, M., Lamont, P.J., and Laing, N.G.

Abstract

Mutations in over 20 genes are associated with distal myopathies. Yet, many patients remain unresolved. To genetically characterize a cohort of distal myopathies we recruited patients with distal weakness and normal motor nerve conduction studies. We used next generation sequencing methods to study a panel of 277 genes that have been associated with muscle and nerve diseases plus Sanger sequencing of not well covered target regions. Sixteen patients were included. Five were characterized as Oculopharyngo-dystal myopathies (OPD) and those were studied separately. In the general group all were sporadic cases. The average age of onset was 34 years old. Three patients had facial weakness, 8 had proximal weakness, in 4 the anterior compartment of lower limbs was more severely affected and 3 the posterior compartment was more affected. Muscle biopsy showed necrotic and regenerating fibres in 5 patients, vacuoles in 3, denervative features in 2, inflammation in 1 and eosinophilic aggregates in 1. Gastrocnemius was the most commonly affected muscle in the MRI. Genetic analysis showed in four patients: a known LDB3 mutation, a novel mutation in FLNC, a possible splice site mutation in FIG4 and a known mutation in SOD1. Retrospective review of this last patient confirmed a clinical diagnosis of ALS. In the OPD group, 2 patients were related. The average age of onset was 24 years old. Three patients had facial involvement, 4 had ophthalmoparesis, 4 had ptosis, 3 had proximal weakness, in 2 the posterior compartment of lower legs was predominantly involved. Two patients had muscle biopsies both having rimmed vacuoles. Expansions in PABPN1 were excluded in all. One patient was found to have a mutation in MYH2, and 1 in POLG2. The other 3 remain unresolved. Genetic causes of clinically diagnosed distal myopathies are diverse, with others yet to be identified. Even in patients with no neuropathic signs neurogenic diseases are still to be considered.

Published
2014

26. G.P.51

Author

Cabrera, M., primary, Junckerstorff, R., additional, Needham, M., additional, Lamont, P.J., additional, and Laing, N.G., additional

Published
2014
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27. G.P.31

Author

Messineo, A.M., primary, Ma, J., additional, Boutilier, J., additional, McNamara, E.L., additional, Ong, R., additional, Wallace, A., additional, Manship, G., additional, Ram, R., additional, Mehta, M., additional, Laing, N.G., additional, Morahan, G., additional, and Nowak, K.J., additional

Published
2014
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28. G.P.50

Author

Boutilier, J., primary, Ram, R., additional, Mehta, M., additional, Thien, Q., additional, McNamara, E.L., additional, Ong, R., additional, Messineo, A.M., additional, Balmer, L., additional, Wallace, A., additional, Manship, G., additional, Laing, N.G., additional, Morahan, G., additional, and Nowak, K.J., additional

Published
2014
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29. A.P.10

Author

McNamara, E.L., primary, Ravenscroft, G., additional, Duff, R.M., additional, Daniel, P.B., additional, Robertson, S.P., additional, Laing, N.G., additional, and Nowak, K.J., additional

Published
2014
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30. G.O.2

Author

Kreissl, M., primary, Sandaradura, S.A., additional, Dowling, J.J., additional, Kostyukova, A.S., additional, Moroz, N., additional, Quinlan, K.G., additional, Lehtokari, V., additional, Ravenscroft, G., additional, Todd, E.J., additional, Ceyhan-Birsoy, O., additional, Gokhin, D.S., additional, Maluenda, J., additional, Lek, M., additional, Nolent, F., additional, Pappas, C.T., additional, Novak, S.M., additional, D’Amico, A., additional, Malfatti, E., additional, Thomas, B.P., additional, Gabriel, S.B., additional, Gupta, N., additional, Daly, M.J., additional, Ilkovski, B., additional, Houweling, P.J., additional, Swanson, L.C., additional, Brownstein, C.A., additional, Gupta, V.A., additional, Medne, L., additional, Shannon, P., additional, Flisberg, A., additional, Holmberg, E., additional, den Bergh, P. Van, additional, Lapunzina, P., additional, Waddell, L.B., additional, Sloboda, D.D., additional, Bertini, E., additional, Chitayat, D., additional, Telfer, W.R., additional, Laquerrière, A., additional, Gregorio, C.C., additional, Ottenheijm, C.A.C., additional, Bönnemann, C.G., additional, Pelin, K., additional, Beggs, A.H., additional, Hayashi, Y.K., additional, Romero, N.B., additional, Laing, N.G., additional, Nishino, I., additional, Wallgren-Pettersson, C., additional, Melki, J., additional, Fowler, V.M., additional, MacArthur, D.G., additional, North, K.N., additional, and Clarke, N.F., additional

Published
2014
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31. G.P.263

Author

Sztal, T.E., primary, Zhao, M., additional, Williams, C., additional, Oorschot, V., additional, Parslow, A., additional, Hall, T.E., additional, Costin, A., additional, Ramm, G., additional, Currie, P.D., additional, Laing, N.G., additional, Nowak, K.J., additional, and Bryson-Richardson, R.J., additional

Published
2014
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32. T.P.33

Author

Cabrera, M., primary, Ghaoui, R., additional, Mourdant, D., additional, Lamont, P.J., additional, Clarke, N., additional, and Laing, N.G., additional

Published
2014
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33. G.P.273

Author

Ravenscroft, G., primary, Todd, E.J., additional, Yau, K.S., additional, Sewry, C.A., additional, McLean, C.A., additional, Ryan, M.M., additional, Allcock, R.J., additional, and Laing, N.G., additional

Published
2014
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35. Mutations in TPM3 are a common cause of congenital fiber type disproportion.

Author

Laing N.G., Lim E., Smith R.L.L., Patel R., Fahey M.C., Bellance R., Romero N.B., Johnson E.S., Labarre-Vila A., Monnier N., North K.N., Clarke N.F., Kolski H., Dye D.E., Laing N.G., Lim E., Smith R.L.L., Patel R., Fahey M.C., Bellance R., Romero N.B., Johnson E.S., Labarre-Vila A., Monnier N., North K.N., Clarke N.F., Kolski H., and Dye D.E.

Abstract

Objective: Congenital fiber type disproportion (CFTD) is a rare form of congenital myopathy in which the principal histological abnormality is hypotrophy of type 1 (slow-twitch) fibers compared with type 2 (fast-twitch) fibers. To date, mutation of ACTA1 and SEPN1 has been associated with CFTD, but the genetic basis in most patients is unclear. The gene encoding alpha-tropomyosinslow (TPM3) is a rare cause of nemaline myopathy, previously reported in only five families. We investigated whether mutation of TPM3 is a cause of CFTD. Methods and Results: We sequenced TPM3 in 23 unrelated probands with CFTD or CFTD-like presentations of unknown cause and identified novel heterozygous missense mutations in five CFTD families (p. Leu100Met, p.Arg168Cys, p.Arg168Gly, p.Lys169Glu, p.Arg245Gly). All affected family members that underwent biopsy had typical histological features of CFTD, with type 1 fibers, on average, at least 50% smaller than type 2 fibers. We also report a sixth family in which a recurrent TPM3 mutation (p.Arg168His) was associated with histological features of CFTD and nemaline myopathy in different family members. We describe the clinical features of 11 affected patients. Typically, there was proximal limb girdle weakness, prominent weakness of neck flexion and ankle dorsiflexion, mild facial weakness, and mild ptosis. The age of onset and severity varied, even within the same family. Many patients required nocturnal noninvasive ventilation despite remaining ambulant. Interpretation(s): Mutation of TPM3 is the most common cause of CFTD reported to date. © 2008 American Neurological Association. Published by Wiley-Liss, Inc.

Published
2012

36. Investigation of NOTCH4 coding region polymorphisms in sporadic inclusion body myositis

Author

Scott, A.P., Laing, N.G., Mastaglia, F., Dalakas, M., Needham, M., Allcock, R.J.N., Scott, A.P., Laing, N.G., Mastaglia, F., Dalakas, M., Needham, M., and Allcock, R.J.N.

Abstract

The NOTCH4 gene, located within the MHC region, is involved in cellular differentiation and has varying effects dependent on tissue type. Coding region polymorphisms haplotypic of the sIBM-associated 8.1 ancestral haplotype were identified in NOTCH4 and genotyped in two different Caucasian sIBM cohorts. In both cohorts the frequency of the minor allele of rs422951 and the 12-repeat variation for rs72555375 was increased and was higher than the frequency of the sIBM-associated allele HLA-DRB1*0301. These NOTCH4 polymorphisms can be considered to be markers for sIBM susceptibility, but require further investigation to determine whether they are directly involved in the disease pathogenesis.

Published
2012

37. Dominant mutations in KBTBD13, a member of the BTB/Kelch family, cause nemaline myopathy with cores.

Author

Sambuughin, N., Yau, K.S., Duff, R.M., Bayarsaikhan, M., Lu, S.J., Gonzalez-Mera, L., Sivadorai, P., Nowak, K.J., Ravenscroft, G., Mastaglia, F.L., North, K.N., Ilkovski, B., Kremer, H., Lammens, M.M., Engelen, B.G.M. van, Fabian, V., Lamont, P., Davis, M.R., Laing, N.G., Goldfarb, L.G., Sambuughin, N., Yau, K.S., Duff, R.M., Bayarsaikhan, M., Lu, S.J., Gonzalez-Mera, L., Sivadorai, P., Nowak, K.J., Ravenscroft, G., Mastaglia, F.L., North, K.N., Ilkovski, B., Kremer, H., Lammens, M.M., Engelen, B.G.M. van, Fabian, V., Lamont, P., Davis, M.R., Laing, N.G., and Goldfarb, L.G.

Abstract

Item does not contain fulltext

Published
2011

38. Recombination mapping of the susceptibility region for sporadic inclusion body myositis within the major histocompatibility complex

Author

Scott, A.P., Laing, N.G., Mastaglia, F., Needham, M., Walter, M.C., Dalakas, M.C., Allcock, R.J.N., Scott, A.P., Laing, N.G., Mastaglia, F., Needham, M., Walter, M.C., Dalakas, M.C., and Allcock, R.J.N.

Abstract

Susceptibility to sporadic inclusion body myositis (sIBM) in Caucasians has been consistently associated with alleles of the major histocompatibility complex (MHC) 8.1 ancestral haplotype (AH) (defined by HLA-B*0801 and HLA-DRB1*0301). In this study recombination mapping was utilised to further refine the known 8.1AH susceptibility region near HLA-DRB1*0301. Caucasian sIBM patients carrying part of the 8.1AH were genotyped for a selection of 8.1AH-haplotypic polymorphisms. A common 8.1AH-specific susceptibility region was defined, spanning 172 kb and encompassing three genes — HLA-DRB3, HLA-DRA and BTNL2. It is thus likely that 8.1AH-derived susceptibility to sIBM originates from at least one of these genes.

Published
2011

39. Fetal akinesia: review of the genetics of the neuromuscular causes

Author

Ravenscroft, G., Sollis, E., Charles, A.K., North, K.N., Baynam, G., Laing, N.G., Ravenscroft, G., Sollis, E., Charles, A.K., North, K.N., Baynam, G., and Laing, N.G.

Abstract

Fetal akinesia refers to a broad spectrum of disorders in which the unifying feature is a reduction or lack of fetal movement. Fetal akinesias may be caused by defects at any point along the motor system pathway including the central and peripheral nervous system, the neuromuscular junction and the muscle, as well as by restrictive dermopathy or external restriction of the fetus in utero. The fetal akinesias are clinically and genetically heterogeneous, with causative mutations identified to date in a large number of genes encoding disparate parts of the motor system. However, for most patients, the molecular cause remains unidentified. One reason for this is because the tools are only now becoming available to efficiently and affordably identify mutations in a large panel of disease genes. Next-generation sequencing offers the promise, if sufficient cohorts of patients can be assembled, to identify the majority of the remaining genes on a research basis and facilitate efficient clinical molecular diagnosis. The benefits of identifying the causative mutation(s) for each individual patient or family include accurate genetic counselling and the options of prenatal diagnosis or preimplantation genetic diagnosis. In this review, we summarise known single-gene disorders affecting the spinal cord, peripheral nerves, neuromuscular junction or skeletal muscles that result in fetal akinesia. This audit of these known molecular and pathophysiological mechanisms involved in fetal akinesia provides a basis for improved molecular diagnosis and completing disease gene discovery.

Published
2011

40. Molecular diagnosis of Duchenne muscular dystrophy: Past, present and future in relation to implementing therapies

Author

Laing, N.G., Davis, M.R., Bayley, K., Fletcher, S., Wilton, S.D., Laing, N.G., Davis, M.R., Bayley, K., Fletcher, S., and Wilton, S.D.

Abstract

Duchenne muscular dystrophy (DMD) is the commonest and best-known of the muscular dystrophies. Being an X-linked disorder, it affects mainly boys. The disease gene was identified in 1987, with the majority of mutations demonstrated to be large-scale deletions. Current best practice molecular diagnosis includes multiplex ligation-dependent probe amplification (MLPA) followed by direct sequencing of all exons at the genomic level, or from cDNA, in order to detect point and other small mutations. The difference between DMD and the allelic Becker muscular dystrophy (BMD) is whether the precise mutation in the gene is a null mutation or results in a modified still partially functional protein. Over the last few years, significant progress has been made in moving experimental therapies into clinical trials, with one of the most promising possible therapies being anti-sense oligonucleotide induced exon-skipping, which converts DMD to BMD. In order to maximise the benefit from future therapies, it will be necessary to start administering the therapies as early as possible in the life of the affected boys, before significant muscle loss occurs. This will require early diagnosis, which evidence suggests is best achieved through population screening. Population screening also allows the avoidance of multiple affected boys in families with no previous family history.

Published
2011

41. Evidence of Altered Guinea Pig Ventricular Cardiomyocyte Protein Expression and Growth in Response to a 5 min in vitro Exposure to H2O2

Author

Seenarain, V., Viola, H.M., Ravenscroft, G., Casey, T.M., Lipscombe, R.J., Ingley, E., Laing, N.G., Bringans, S.D., Hool, L.C., Seenarain, V., Viola, H.M., Ravenscroft, G., Casey, T.M., Lipscombe, R.J., Ingley, E., Laing, N.G., Bringans, S.D., and Hool, L.C.

Abstract

Oxidative stress and alterations in cellular calcium homeostasis are associated with the development of cardiac hypertrophy. However, the early cellular mechanisms for the development of hypertrophy are not well understood. Guinea pig ventricular myocytes were exposed to 30 μ H2O 2 for 5 min followed by 10 units/mL catalase to degrade the H 2O2, and effects on protein expression were examined 48 h later. Transient exposure to H2O2 increased the level of protein synthesis more than 2-fold, assessed as incorporation of [ 3H]leucine (n = 12; p < 0.05). Cell size was increased slightly, but there was no evidence of major cytoskeletal disorganization assessed using fluorescence microscopy. Changes in the expression of individual proteins were assessed using iTRAQ protein labeling followed by mass spectrometry analysis (LC-MALDI-MSMS); 669 proteins were identified, and transient exposure of myocytes to H2O2 altered expression of 35 proteins that were predominantly mitochondrial in origin, including TCA cycle enzymes and oxidative phosphorylation proteins. Consistent with changes in the expression of mitochondrial proteins, transient exposure of myocytes to H2O 2 increased the magnitude of the mitochondrial NADH signal 10.5 ± 2.3% compared to cells exposed to 0 μH2O2 for 5 min followed by 10 units/mL catalase (n = 8; p < 0.05). In addition, metabolic activity was significantly increased in the myocytes 48 h after transient exposure to H2O2, assessed as formation of formazan from tetrazolium salt. We conclude that a 5 min exposure of ventricular myocytes to 30 μ H2O2 is sufficient to significantly alter protein expression, consistent with the development of hypertrophy in the myocytes. Changes in mitochondrial protein expression and function appear to be early sequelae in the development of hypertrophy.

Published
2010

42. Dominant mutations in KBTBD13, a member of the BTB/Kelch family, cause nemaline myopathy with cores.

Author

Sambuughin, N., Yau, K.S., Olive, M., Duff, R.M., Bayarsaikhan, M., Lu, S., Gonzalez-Mera, L., Sivadorai, P., Nowak, K.J., Ravenscroft, G., Mastaglia, F.L., North, K.N., Ilkovski, B., Kremer, J.M.J., Lammens, M.M.Y., Engelen, B.G.M. van, Fabian, V., Lamont, P., Davis, M.R., Laing, N.G., Goldfarb, L.G., Sambuughin, N., Yau, K.S., Olive, M., Duff, R.M., Bayarsaikhan, M., Lu, S., Gonzalez-Mera, L., Sivadorai, P., Nowak, K.J., Ravenscroft, G., Mastaglia, F.L., North, K.N., Ilkovski, B., Kremer, J.M.J., Lammens, M.M.Y., Engelen, B.G.M. van, Fabian, V., Lamont, P., Davis, M.R., Laing, N.G., and Goldfarb, L.G.

Abstract

Contains fulltext : 88858.pdf (publisher's version ) (Closed access), We identified a member of the BTB/Kelch protein family that is mutated in nemaline myopathy type 6 (NEM6), an autosomal-dominant neuromuscular disorder characterized by the presence of nemaline rods and core lesions in the skeletal myofibers. Analysis of affected families allowed narrowing of the candidate region on chromosome 15q22.31, and mutation screening led to the identification of a previously uncharacterized gene, KBTBD13, coding for a hypothetical protein and containing missense mutations that perfectly cosegregate with nemaline myopathy in the studied families. KBTBD13 contains a BTB/POZ domain and five Kelch repeats and is expressed primarily in skeletal and cardiac muscle. The identified disease-associated mutations, C.742C>A (p.Arg248Ser), c.1170G>C (p.Lys390Asn), and c.1222C>T (p.Arg408Cys), located in conserved domains of Kelch repeats, are predicted to disrupt the molecule's beta-propeller blades. Previously identified BTB/POZ/Kelch-domain-containing proteins have been implicated in a broad variety of biological processes, including cytoskeleton modulation, regulation of gene transcription, ubiquitination, and myofibril assembly. The functional role of KBTBD13 in skeletal muscle and the pathogenesis of NEM6 are subjects for further studies.

Published
2010

45. Adult onset distal and proximal myopathy with complete ophthalmoplegia associated with a novel de novo p.( Leu1877Pro) mutation in MYH2.

Author

Cabrera‐Serrano, M., Fabian, V.A., Boutilier, J., Wise, C., Faiz, F., Lamont, P.J., and Laing, N.G.

Subjects
EYE paralysis, GENETIC mutation, MUSCLE diseases, PHENOTYPES, MYOSIN, THERAPEUTICS, GENETICS
Abstract

An MYH2 mutation p.( Glu706Lys) was originally described in a family with autosomal dominant inheritance, where the affected family members presented with multiple congenital contractures and ophthalmoplegia, progressing to a proximal myopathy in adulthood. Another patient with a dominant mutation p.( Leu1870Pro) was described, presenting as a congenital myopathy with ophthalmoplegia. Here, we present a patient with symptoms beginning at age 16 years, of prominent distal but also proximal weakness, bulbar involvement and ophthalmoplegia. Initially, clinically classified as oculopharyngodistal myopathy, the patient was found to carry a novel, de novo MYH2 mutation c. 5630T>C p.( Leu1877Pro). This expands the phenotype of dominant MYH2 myopathies with the clinical phenotype overlapping the oculopharyngodistal myopathy spectrum. [ABSTRACT FROM AUTHOR]

Published
2015
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46. INHERITED DELETION AT DUCHENNE DYSTROPHY LOCUS IN NORMAL MALE

Author

Department of Genetics, University of Michigan, Ann Arbor, Michigan, United States, Department of Medicine, Neurology Division, Duke University Medical Center, Durham, North Carolina 27710, U.S.A., Neuromuscular Research Institute, Nedlands, Western Australia, Department of Medicine, Neurology Division, Duke University Medical Center, United Kingdom, Bartlett, R.J., Walker, A.P., Laing, N.G., Koh, J., Secore, S.L., Pericak-Vance, M.A., Yamaoka, L.H., Kandt, Raymond S., Speer, M.C., Hung, W.-Y., Department of Genetics, University of Michigan, Ann Arbor, Michigan, United States, Department of Medicine, Neurology Division, Duke University Medical Center, Durham, North Carolina 27710, U.S.A., Neuromuscular Research Institute, Nedlands, Western Australia, Department of Medicine, Neurology Division, Duke University Medical Center, United Kingdom, Bartlett, R.J., Walker, A.P., Laing, N.G., Koh, J., Secore, S.L., Pericak-Vance, M.A., Yamaoka, L.H., Kandt, Raymond S., Speer, M.C., and Hung, W.-Y.

Published
2006

47. Distal myopathies

Author

Mastaglia, F.L., Lamont, P.J., Laing, N.G., Mastaglia, F.L., Lamont, P.J., and Laing, N.G.

Abstract

Purpose of review: The distal myopathies are a heterogeneous group of disorders that pose a challenge to both the clinician and geneticist. This article summarizes the findings of recent clinical, genetic and molecular studies and the current diagnostic approach to this group of patients. Recent findings: Publications over the past 5 years describe a number of new clinical phenotypes and genetic loci and further emphasize the overlap in clinical phenotype between a number of these disorders and between the distal and limb girdle myopathies and hereditary inclusion body myopathies. Recent studies have led to the identification of the genes and mutations responsible for early onset (Laing) myopathy and tibial (Udd) myopathy, and for distal myopathy with rimmed vacuoles (Nonaka), which has been shown to be allelic with quadriceps sparing hereditary inclusion body myopathy (IBM2), and have elucidated the underlying pathogenetic mechanisms in these conditions. New diagnostic approaches using magnetic resonance imaging, and a blood-based assay for dysferlin deficiency, have also been reported. Summary: These findings have important implications for future genetic linkage and gene expression studies and for the diagnostic approach to patients with a distal myopathy phenotype. They also hold promise for the eventual development of therapies for this group of disorders.

Published
2005

49. G.P.126 “Strongman syndrome”: A new autosomal dominant herculean painful myopathy

Author

Al-Bustani, N., primary, Tétreault, M., additional, Provost, S., additional, Bolduc, V., additional, Srour, M., additional, O’Ferrall, E.K., additional, Dubé, M.P., additional, Bouchard, J.P., additional, Ravenscroft, G., additional, Laing, N.G., additional, Bignell, D., additional, Lamont, P.J., additional, Mathieu, J., additional, and Brais, B., additional

Published
2012
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50. C.P.15 K7del is a recurrent TPM2 nemaline myopathy mutation associated with joint contractures and increased calcium sensitivity

Author

Mokbel, N., primary, Ilkovski, B., additional, Memo, M., additional, Marttila, M., additional, Kreissl, M., additional, Wallgren-Pettersson, C., additional, Menard, D., additional, Marcorelles, P., additional, Echaniz-Laguna, A., additional, Reimann, J., additional, Vainzof, M., additional, Monnier, N., additional, Nowak, K., additional, McNamara, E., additional, Laing, N.G., additional, Trewhella, J., additional, Jeffries, C., additional, Ottenheijm, C., additional, North, K.N., additional, and Clarke, N.F., additional

Published
2012
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