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397 results on '"Shaw, P.J."'

5. Upper and/or Lower Respiratory Tract Infection Caused by Human Metapneumovirus After Allogeneic Hematopoietic Stem Cell Transplantation

Author

Piñana, J.L., Tridello, G., Xhaard, A., Wendel, L., Montoro, J., Vazquez, L., Heras, I., Ljungman, P., Mikulska, M., Salmenniemi, U., Perez, A., Kröger, N., Cornelissen, J, Sala, E., Martino, R., Geurten, C., Byrne, J., Maertens, J., Kerre, T., Martin, M, Pascual, M.J., Yeshurun, M., Finke, J., Groll, A.H., Shaw, P.J., Blijlevens, N.M.A., Arcese, W., Ganser, A., Suarez-Lledo, M., Alzahrani, M., Choi, G., Forcade, E., Paviglianiti, A., Solano, C., Wachowiak, J., Zuckerman, T., Bader, P., Clausen, J., Mayer, J., Schroyens, W., Metafuni, E., Knelange, N., Averbuch, D., Camara, R. de la, Piñana, J.L., Tridello, G., Xhaard, A., Wendel, L., Montoro, J., Vazquez, L., Heras, I., Ljungman, P., Mikulska, M., Salmenniemi, U., Perez, A., Kröger, N., Cornelissen, J, Sala, E., Martino, R., Geurten, C., Byrne, J., Maertens, J., Kerre, T., Martin, M, Pascual, M.J., Yeshurun, M., Finke, J., Groll, A.H., Shaw, P.J., Blijlevens, N.M.A., Arcese, W., Ganser, A., Suarez-Lledo, M., Alzahrani, M., Choi, G., Forcade, E., Paviglianiti, A., Solano, C., Wachowiak, J., Zuckerman, T., Bader, P., Clausen, J., Mayer, J., Schroyens, W., Metafuni, E., Knelange, N., Averbuch, D., and Camara, R. de la

Abstract

Contains fulltext : 304925.pdf (Publisher’s version ) (Closed access), BACKGROUND: Human metapneumovirus (hMPV) epidemiology, clinical characteristics and risk factors for poor outcome after allogeneic stem cell transplantation (allo-HCT) remain a poorly investigated area. METHODS: This retrospective multicenter cohort study examined the epidemiology, clinical characteristics, and risk factors for poor outcomes associated with human metapneumovirus (hMPV) infections in recipients of allo-HCT. RESULTS: We included 428 allo-HCT recipients who developed 438 hMPV infection episodes between January 2012 and January 2019. Most recipients were adults (93%). hMPV infections were diagnosed at a median of 373 days after allo-HCT. The infections were categorized as upper respiratory tract disease (URTD) or lower respiratory tract disease (LRTD), with 60% and 40% of cases, respectively. Patients with hMPV LRTD experienced the infection earlier in the transplant course and had higher rates of lymphopenia, neutropenia, corticosteroid use, and ribavirin therapy. Multivariate analysis identified lymphopenia and corticosteroid use (>30 mg/d) as independent risk factors for LRTD occurrence. The overall mortality at day 30 after hMPV detection was 2% for URTD, 12% for possible LRTD, and 21% for proven LRTD. Lymphopenia was the only independent risk factor associated with day 30 mortality in LRTD cases. CONCLUSIONS: These findings highlight the significance of lymphopenia and corticosteroid use in the development and severity of hMPV infections after allo-HCT, with lymphopenia being a predictor of higher mortality in LRTD cases.

Published
2024

9. Creatine kinase and prognosis in amyotrophic lateral sclerosis: a literature review and multi-centre cohort analysis

Author

Gao, J., Dharmadasa, T., Malaspina, A., Shaw, P.J., Talbot, K., Turner, M.R., and Thompson, A.G.

Abstract

Background\ud \ud Amyotrophic lateral sclerosis (ALS) is a prognostically heterogeneous neurodegenerative disease. Blood creatine kinase (CK) level has been inconsistently reported as a prognostic biomarker and raised levels in some ALS patients have been presumed to reflect muscle wasting, which is also variable.\ud \ud \ud \ud Methods\ud \ud MEDLINE was systematically searched for papers related to CK in ALS and the relevant studies were reviewed. Using data from 222 ALS patients in a multi-centre, prospective, longitudinal cohort, survival analyses using Kaplan–Meier and Cox proportional hazards models were undertaken in relation to CK and other prognostic factors.\ud \ud \ud \ud Results\ud \ud Twenty-five studies investigating CK in ALS were identified, of which 10 specifically studied the link between CK and survival. Five studies observed no association, four found that higher CK levels were associated with longer survival and one, the opposite. In our cohort (n = 222), 39% of patients had a CK level above the laboratory reference range. Levels were higher in males compared to females (p

Published
2022

10. Atypical TDP-43 protein expression in an ALS pedigree carrying a p.Y374X truncation mutation in TARDBP

Author

Cooper‐Knock, J., Julian, T.H., Feneberg, E., Highley, J.R., Sidra, M., Turner, M.R., Talbot, K., Ansorge, O., Allen, S.P., Moll, T., Shelkovnikova, T., Castelli, L., Hautbergue, G.M., Hewitt, C., Kirby, J., Wharton, S.B., Mead, R.J., and Shaw, P.J.

Abstract

We describe an autosomal dominant, multi-generational, amyotrophic lateral sclerosis (ALS) pedigree in which disease co-segregates with a heterozygous p.Y374X nonsense mutation within TDP-43. Mislocalization of TDP-43 and formation of insoluble TDP-43-positive neuronal cytoplasmic inclusions is the hallmark pathology in >95% of ALS patients. Neuropathological examination of the single case for which CNS tissue was available indicated typical TDP-43 pathology within lower motor neurons, but classical TDP-43-positive inclusions were absent from motor cortex. The mutated allele is transcribed and translated in patient fibroblasts and motor cortex tissue, but overall TDP-43 protein expression is reduced compared to wild-type controls. Despite absence of TDP-43-positive inclusions we confirmed deficient TDP-43 splicing function within motor cortex tissue. Furthermore, urea fractionation and mass spectrometry of motor cortex tissue carrying the mutation revealed atypical TDP-43 protein species but not typical C-terminal fragments. We conclude that the p.Y374X mutation underpins a monogenic, fully penetrant form of ALS. Reduced expression of TDP-43 combined with atypical TDP-43 protein species and absent C-terminal fragments extends the molecular phenotypes associated with TDP-43 mutations and with ALS more broadly. Future work will need to include the findings from this pedigree in dissecting the mechanisms of TDP-43-mediated toxicity.

Published
2022

11. Comparison of King’s clinical staging in multinational amyotrophic lateral sclerosis cohorts

Author

Balendra, R., Jones, A.R., Al Khleifat, A., Chiwera, T., Wicks, P., Young, C.A., Shaw, P.J., Turner, M.R., Leigh, P.N., and Al-Chalabi, A.

Abstract

Background: Amyotrophic lateral sclerosis (ALS) shows considerable clinical heterogeneity, which affects clinical trials. A clinical staging system has been proposed for ALS with potential applications in patient care, research, trial design and health economic analyses. The King’s system consists of five stages. We have previously shown that progressive clinical stages were reached at predictable proportions through the disease course, but this needs to be validated in other independent samples. Objectives: We aimed to compare King’s clinical staging in ALS in four patient groups, located in different regions and countries and using different health care systems from the original study population in South London. Methods: Clinical data were extracted from two European phase 3 randomized controlled trials (MitoTarget and LiCALS) and from two databases predominately from the United States: the PRO-ACT Consortium Database and a database of patients from the PatientsLikeMe website. Clinical stage was estimated using an algorithm, and standardized time to each clinical stage was calculated in deceased patients. Results: 8,796 patients were included, of whom 1,959 had died by the end of follow-up. Stages occurred in the same order as in the original study for all cohorts. Median standardized times to stages (interquartile range) were Stage 2: 0.61 (0.47–0.75), Stage 3: 0.68 (0.56–0.81), Stage 4A: 0.82 (0.71–0.91), Stage 4B: 0.82 (0.69–0.92) and Stage 4 0.80 (0.67–0.91). Discussion: Timings for all stages were similar to those reported in the original study, except Stage 2 which occurred later in the clinical trial databases due to recruitment occurring after diagnosis.

Published
2022

12. Fiber optic Raman spectroscopy for the evaluation of disease state in Duchenne muscular dystrophy: An assessment using the mdx model and human muscle

Author

Alix, J.J.P., Plesia, M., Hool, S.A., Coldicott, I., Kendall, C.A., Shaw, P.J., Mead, R.J., and Day, J.C.

Abstract

Introduction/Aims\ud \ud Raman spectroscopy is an emerging technique for the evaluation of muscle disease. Here, we evaluate the ability of in vivo intramuscular Raman spectroscopy to detect the effects of voluntary running in the mdx model of Duchenne muscular dystrophy (DMD). We also compare mdx data to muscle spectra from human patients.\ud \ud \ud \ud Methods\ud \ud Thirty 90-day old mdx mice were randomly allocated to an exercised group (48 hours access to a running wheel) and an unexercised group (n=15 per group). In vivo Raman spectra were collected from both gastrocnemius muscles and histopathological assessment subsequently performed. Raman data were analysed using principal component analysis fed linear discriminant analysis (PCA-LDA). Exercised and unexercised mdx muscle spectra were compared to human DMD samples using cosine similarity.\ud \ud \ud \ud Results\ud \ud Exercised mice ran an average of 6.5km over 48 hours which induced a significant increase in muscle necrosis (P=0.03). PCA-LDA scores were significantly different between the exercised and unexercised groups (P

Published
2022

13. Tensor electrical impedance myography identifies bulbardisease progression in amyotrophic lateral sclerosis

Author

Schooling, C.N., Healey, T.J., McDonough, H.E., French, S.J., McDermott, C.J., Shaw, P.J., Kadirkamanathan, V., and Alix, J.J.P.

Abstract

Objective\ud \ud Electrical impedance myography (EIM) is a promising biomarker for amyotrophic lateral sclerosis (ALS). A key issue is how best to utilise the complex high dimensional, multi-frequency data output by EIM to fully characterise the progression of disease.\ud \ud \ud \ud Methods\ud \ud Muscle volume conduction properties were obtained from EIM recordings of the tongue across three electrode configurations and 14 input frequencies (76 Hz–625 kHz). Analyses of individual frequencies, averaged EIM spectra and non-negative tensor factorisation were undertaken. Longitudinal data were collected from 28 patients and 17 healthy volunteers at 3-monthly intervals for a maximum of 9 months. EIM was evaluated against the Amyotrophic Lateral Sclerosis Functional Rating Scale-Revised (ALSFRS-R) bulbar sub-score, tongue strength and an overall bulbar disease burden score.\ud \ud \ud \ud Results\ud \ud Longitudinal changes to individual patient EIM spectra demonstrated complex shifts in the spectral shape. At a group level, a clear pattern emerged over time, characterised by an increase in centre frequency and general shift to the right of the spectral shape. Tensor factorisation reduced the spectral data from a total of 168 data points per participant per recording to a single value which captured the complexity of the longitudinal data and which we call tensor EIM (T-EIM). The absolute change in tensor EIM significantly increased within 3 months and continued to do so over the 9-month study duration. In a hypothetical clinical trial scenario tensor EIM required fewer participants (n = 64 at 50% treatment effect), than single frequency measures (n range 87–802) or ALSFRS-R bulbar subscore (n = 298).\ud \ud \ud \ud Conclusions\ud \ud Changes to tongue EIM spectra over time in ALS are complex. Tensor EIM captured and quantified disease progression and was more sensitive to changes than single frequency EIM measures and other biomarkers of bulbar disease.\ud \ud \ud \ud Significance\ud \ud Objective biomarkers for the assessment of bulbar disease in ALS are lacking. Tensor EIM enhances the biomarker potential of EIM data and can improve bulbar symptom monitoring in clinical trials.

Published
2022

14. Neurotoxic astrocytes directly converted from sporadic and familial ALS patient fibroblasts reveal signature diversities and miR-146a theragnostic potential in specific subtypes

Author

Gomes, C., Sequeira, C., Likhite, S., Dennys, C.N., Kolb, S.J., Shaw, P.J., Vaz, A.R., Kaspar, B.K., Meyer, K., and Brites, D.

Abstract

A lack of stratification methods in patients with amyotrophic lateral sclerosis (ALS) is likely implicated in therapeutic failures. Regional diversities and pathophysiological abnormalities in astrocytes from mice with SOD1 mutations (mSOD1-ALS) can now be explored in human patients using somatic cell reprogramming. Here, fibroblasts from four sporadic (sALS) and three mSOD1-ALS patients were transdifferentiated into induced astrocytes (iAstrocytes). ALS iAstrocytes were neurotoxic toward HB9-GFP mouse motor neurons (MNs) and exhibited subtype stratification through GFAP, CX43, Ki-67, miR-155 and miR-146a expression levels. Up- (two cases) and down-regulated (three cases) miR-146a values in iAstrocytes were recapitulated in their secretome, either free or as cargo in small extracellular vesicles (sEVs). We previously showed that the neuroprotective phenotype of depleted miR-146 mSOD1 cortical astrocytes was reverted by its mimic. Thus, we tested such modulation in the most miR-146a-depleted patient-iAstrocytes (one sALS and one mSOD1-ALS). The miR-146a mimic in ALS iAstrocytes counteracted their reactive/inflammatory profile and restored miR-146a levels in sEVs. A reduction in lysosomal activity and enhanced synaptic/axonal transport-related genes in NSC-34 MNs occurred after co-culture with miR-146a-modulated iAstrocytes. In summary, the regulation of miR-146a in depleted ALS astrocytes may be key in reestablishing their normal function and in restoring MN lysosomal/synaptic dynamic plasticity in disease sub-groups.

Published
2022

15. The application of Raman spectroscopy to the diagnosis of mitochondrial muscle disease : a preliminary comparison between fibre optic probe and microscope formats

Author

Alix, J.J.P., Plesia, M., Lloyd, G.R., Dudgeon, A.P., Kendall, C.A., McDermott, C.J., Gorman, G.S., Taylor, R.W., Shaw, P.J., and Day, J.C.

Abstract

Muscle biopsy remains an important component of the diagnostic repertoire for patients with suspected mitochondrial disease, underpinning specialist histopathological and biochemical analyses. Raman spectroscopy has not yet been applied to mitochondrial disease, and new fibre optic systems, with advantages in terms of cost and portability, could provide a rapid means to identify muscle pathology. In this study, we aimed to explore the potential of two different formats of Raman spectroscopy to identify mitochondrial disease: a miniaturised fibre optic Raman system and a standard commercial Raman microscope. Raman spectra were recorded from muscle samples from healthy volunteers (n = 10) and patients with genetically confirmed mitochondrial disease (n = 15). Multivariate classification algorithms demonstrated a high level of disease classification performance with both the fibre optic probe system and microscope (area under receiver operating characteristic curves 0.80–0.82). Key spectral changes associated with mitochondrial disease concerned the α-helical configuration of proteins. The results suggest that Raman spectroscopy of muscle is worthy of further investigation as a technique for the rapid identification of mitochondrial disease.

Published
2022

16. Genome-wide study of DNA methylation shows alterations in metabolic, inflammatory, and cholesterol pathways in ALS

Author

Hop, P.J., Zwamborn, R.A.J., Hannon, E., Shireby, G.L., Nabais, M.F., Walker, E.M., van Rheenen, W., van Vugt, J.J.F.A., Dekker, A.M., Westeneng, H-J, Tazelaar, G.H.P., van Eijk, K.R., Moisse, M., Baird, D., Al Khleifat, A., Iacoangeli, A., Ticozzi, N., Ratti, A., Cooper-Knock, J., Morrison, K.E., Shaw, P.J., Basak, A.N., Chiò, A., Calvo, A., Moglia, C., Canosa, A., Brunetti, M., Grassano, M., Gotkine, M., Lerner, Y., Zabari, M., Vourc’h, P., Corcia, P., Couratier, P., Mora Pardina, J.S., Salas, T., Dion, P., Ross, J.P., Henderson, R.D., Mathers, S., McCombe, P.A., Needham, M., Nicholson, G., Rowe, D.B., Pamphlett, R., Mather, K.A., Sachdev, P.S., Furlong, S., Garton, F.C., Henders, A.K., Lin, T., Ngo, S.T., Steyn, F.J., Wallace, L., Williams, K.L., Neto, M.M., Cauchi, R.J., Blair, I.P., Kiernan, M.C., Drory, V., Povedano, M., de Carvalho, M., Pinto, S., Weber, M., Rouleau, G.A., Silani, V., Landers, J.E., Shaw, C.E., Andersen, P.M., McRae, A.F., van Es, M.A., Pasterkamp, R.J., Wray, N.R., McLaughlin, R.L., Hardiman, O., Kenna, K.P., Tsai, E., Runz, H., Al-Chalabi, A., van den Berg, L.H., Van Damme, P., Mill, J., Veldink, J.H., Heijmans, B.T., t Hoen, P.A.C., van Meurs, J., Jansen, R., Franke, L., Boomsma, D.I., Pool, R., van Dongen, J., Hottenga, J.J., van Greevenbroek, M.M.J., Stehouwer, C.D.A., van der Kallen, C.J.H., Schalkwijk, C.G., Wijmenga, C., Zhernakova, S., Tigchelaar, E.F., Slagboom, P.E., Beekman, M., Deelen, J., Van Heemst, D., van Duijn, C.M., Hofman, B.A., Isaacs, A., Uitterlinden, A.G., van Meurs, J.B.C., Jhamai, P.M., Verbiest, M., Suchiman, H.E.D., Verkerk, M., van der Breggen, R., van Rooij, J., Lakenberg, N., Mei, H., van Iterson, M., van Galen, M., Bot, J., Zhernakova, D.V., van ‘t Hof, P., Deelen, P., Nooren, I., Moed, M., Vermaat, M., Luijk, R., Jan Bonder, M., van Dijk, F., Arindrarto, W., Kielbasa, S.M., Swertz, M.A., van Zwet, E.W., Hoen, P.A.C., Bensimon, G., Chio, A., Smith, G.D., Hop, P.J., Zwamborn, R.A.J., Hannon, E., Shireby, G.L., Nabais, M.F., Walker, E.M., van Rheenen, W., van Vugt, J.J.F.A., Dekker, A.M., Westeneng, H-J, Tazelaar, G.H.P., van Eijk, K.R., Moisse, M., Baird, D., Al Khleifat, A., Iacoangeli, A., Ticozzi, N., Ratti, A., Cooper-Knock, J., Morrison, K.E., Shaw, P.J., Basak, A.N., Chiò, A., Calvo, A., Moglia, C., Canosa, A., Brunetti, M., Grassano, M., Gotkine, M., Lerner, Y., Zabari, M., Vourc’h, P., Corcia, P., Couratier, P., Mora Pardina, J.S., Salas, T., Dion, P., Ross, J.P., Henderson, R.D., Mathers, S., McCombe, P.A., Needham, M., Nicholson, G., Rowe, D.B., Pamphlett, R., Mather, K.A., Sachdev, P.S., Furlong, S., Garton, F.C., Henders, A.K., Lin, T., Ngo, S.T., Steyn, F.J., Wallace, L., Williams, K.L., Neto, M.M., Cauchi, R.J., Blair, I.P., Kiernan, M.C., Drory, V., Povedano, M., de Carvalho, M., Pinto, S., Weber, M., Rouleau, G.A., Silani, V., Landers, J.E., Shaw, C.E., Andersen, P.M., McRae, A.F., van Es, M.A., Pasterkamp, R.J., Wray, N.R., McLaughlin, R.L., Hardiman, O., Kenna, K.P., Tsai, E., Runz, H., Al-Chalabi, A., van den Berg, L.H., Van Damme, P., Mill, J., Veldink, J.H., Heijmans, B.T., t Hoen, P.A.C., van Meurs, J., Jansen, R., Franke, L., Boomsma, D.I., Pool, R., van Dongen, J., Hottenga, J.J., van Greevenbroek, M.M.J., Stehouwer, C.D.A., van der Kallen, C.J.H., Schalkwijk, C.G., Wijmenga, C., Zhernakova, S., Tigchelaar, E.F., Slagboom, P.E., Beekman, M., Deelen, J., Van Heemst, D., van Duijn, C.M., Hofman, B.A., Isaacs, A., Uitterlinden, A.G., van Meurs, J.B.C., Jhamai, P.M., Verbiest, M., Suchiman, H.E.D., Verkerk, M., van der Breggen, R., van Rooij, J., Lakenberg, N., Mei, H., van Iterson, M., van Galen, M., Bot, J., Zhernakova, D.V., van ‘t Hof, P., Deelen, P., Nooren, I., Moed, M., Vermaat, M., Luijk, R., Jan Bonder, M., van Dijk, F., Arindrarto, W., Kielbasa, S.M., Swertz, M.A., van Zwet, E.W., Hoen, P.A.C., Bensimon, G., Chio, A., and Smith, G.D.

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease with an estimated heritability between 40 and 50%. DNA methylation patterns can serve as proxies of (past) exposures and disease progression, as well as providing a potential mechanism that mediates genetic or environmental risk. Here, we present a blood-based epigenome-wide association study meta-analysis in 9706 samples passing stringent quality control (6763 patients, 2943 controls). We identified a total of 45 differentially methylated positions (DMPs) annotated to 42 genes, which are enriched for pathways and traits related to metabolism, cholesterol biosynthesis, and immunity. We then tested 39 DNA methylation–based proxies of putative ALS risk factors and found that high-density lipoprotein cholesterol, body mass index, white blood cell proportions, and alcohol intake were independently associated with ALS. Integration of these results with our latest genome-wide association study showed that cholesterol biosynthesis was potentially causally related to ALS. Last, DNA methylation at several DMPs and blood cell proportion estimates derived from DNA methylation data were associated with survival rate in patients, suggesting that they might represent indicators of underlying disease processes potentially amenable to therapeutic interventions.

Published
2022

17. Author Correction: Common and rare variant association analyses in amyotrophic lateral sclerosis identify 15 risk loci with distinct genetic architectures and neuron-specific biology

Author

van Rheenen, W., van der Spek, R.A.A., Bakker, M.K., van Vugt, J.J.F.A., Hop, P.J., Zwamborn, R.A.J., de Klein, N., Westra, H-J, Bakker, O.B., Deelen, P., Shireby, G., Hannon, E., Moisse, M., Baird, D., Restuadi, R., Dolzhenko, E., Dekker, A.M., Gawor, K., Westeneng, H-J, Tazelaar, G.H.P., van Eijk, K.R., Kooyman, M., Byrne, R.P., Doherty, M., Heverin, M., Al Khleifat, A., Iacoangeli, A., Shatunov, A., Ticozzi, N., Cooper-Knock, J., Smith, B.N., Gromicho, M., Chandran, S., Pal, S., Morrison, K.E., Shaw, P.J., Hardy, J., Orrell, R.W., Sendtner, M., Meyer, T., Başak, N., van der Kooi, A.J., Ratti, A., Fogh, I., Gellera, C., Lauria, G., Corti, S., Cereda, C., Sproviero, D., D’alfonso, S., Sorarù, G., Siciliano, G., Filosto, M., Padovani, A., Chiò, A., Calvo, A., Moglia, C., Brunetti, M., Canosa, A., Grassano, M., Beghi, E., Pupillo, E., Logroscino, G., Nefussy, B., Osmanovic, A., Nordin, A., Lerner, Y., Zabari, M., Gotkine, M., Baloh, R.H., Bell, S., Vourc’h, P., Corcia, P., Couratier, P., Millecamps, S., Meininger, V., Salachas, F., Mora Pardina, J.S., Assialioui, A., Rojas-García, R., Dion, P.A., Ross, J.P., Ludolph, A.C., Weishaupt, J.H., Brenner, D., Freischmidt, A., Bensimon, G., Brice, A., Durr, A., Payan, C.A.M., Saker-Delye, S., Wood, N.W., Topp, S., Rademakers, R., Tittmann, L., Lieb, W., Franke, A., Ripke, S., Braun, A., Kraft, J., Whiteman, D.C., Olsen, C.M., Uitterlinden, A.G., Hofman, A., Rietschel, M., Cichon, S., Nöthen, M.M., Amouyel, P., Comi, G., Riva, N., Lunetta, C., Gerardi, F., Cotelli, M.S., Rinaldi, F., Chiveri, L., Guaita, M.C., Perrone, P., Ceroni, M., Diamanti, L., Ferrarese, C., Tremolizzo, L., Delodovici, M.L., Bono, G., Manera, U., Vasta, R., Bombaci, A., Casale, F., Fuda, G., Salamone, P., Iazzolino, B., Peotta, L., Cugnasco, P., De Marco, G., Torrieri, M.C., Palumbo, F., Gallone, S., Barberis, M., Sbaiz, L., Gentile, S., Mauro, A., Mazzini, L., De Marchi, F., Corrado, L., D’Alfonso, S., Bertolotto, A., Gionco, M., Leotta, D., Odddenino, E., Imperiale, D., Cavallo, R., Pignatta, P., De Mattei, M., Geda, C., Papurello, D.M., Gusmaroli, G., Comi, C., Labate, C., Ruiz, L., Ferrandi, D., Rota, E., Aguggia, M., Di Vito, N., Meineri, P., Ghiglione, P., Launaro, N., Dotta, M., Di Sapio, A., Giardini, G., Tiloca, C., Peverelli, S., Taroni, F., Pensato, V., Castellotti, B., Comi, G.P., Del Bo, R., Gagliardi, S., Raggi, F., Simoncini, C., Lo Gerfo, A., Inghilleri, M., Ferlini, A., Simone, I.L., Passarella, B., Guerra, V., Zoccolella, S., Nozzoli, C., Mundi, C., Leone, M., Zarrelli, M., Tamma, F., Valluzzi, F., Calabrese, G., Boero, G., Rini, A., Traynor, B.J., Singleton, A.B., Mitne Neto, M., Cauchi, R.J., Ophoff, R.A., Wiedau-Pazos, M., Lomen-Hoerth, C., van Deerlin, V.M., Grosskreutz, J., Roediger, A., Gaur, N., Jörk, A., Barthel, T., Theele, E., Ilse, B., Stubendorff, B., Witte, O.W., Steinbach, R., Hübner, C.A., Graff, C., Brylev, L., Fominykh, V., Demeshonok, V., Ataulina, A., Rogelj, B., Koritnik, B., Zidar, J., Ravnik-Glavač, M., Glavač, D., Stević, Z., Drory, V., Povedano, M., Blair, I.P., Kiernan, M.C., Benyamin, B., Henderson, R.D., Furlong, S., Mathers, S., McCombe, P.A., Needham, M., Ngo, S.T., Nicholson, G.A., Pamphlett, R., Rowe, D.B., Steyn, F.J., Williams, K.L., Mather, K.A., Sachdev, P.S., Henders, A.K., Wallace, L., de Carvalho, M., Pinto, S., Petri, S., Weber, M., Rouleau, G.A., Silani, V., Curtis, C.J., Breen, G., Glass, J.D., Brown, R.H., Landers, J.E., Shaw, C.E., Andersen, P.M., Groen, E.J.N., van Es, M.A., Pasterkamp, R.J., Fan, D., Garton, F.C., McRae, A.F., Davey Smith, G., Gaunt, T.R., Eberle, M.A., Mill, J., McLaughlin, R.L., Hardiman, O., Kenna, K.P., Wray, N.R., Tsai, E., Runz, H., Franke, L., Al-Chalabi, A., Van Damme, P., van den Berg, L.H., Veldink, J.H., van Rheenen, W., van der Spek, R.A.A., Bakker, M.K., van Vugt, J.J.F.A., Hop, P.J., Zwamborn, R.A.J., de Klein, N., Westra, H-J, Bakker, O.B., Deelen, P., Shireby, G., Hannon, E., Moisse, M., Baird, D., Restuadi, R., Dolzhenko, E., Dekker, A.M., Gawor, K., Westeneng, H-J, Tazelaar, G.H.P., van Eijk, K.R., Kooyman, M., Byrne, R.P., Doherty, M., Heverin, M., Al Khleifat, A., Iacoangeli, A., Shatunov, A., Ticozzi, N., Cooper-Knock, J., Smith, B.N., Gromicho, M., Chandran, S., Pal, S., Morrison, K.E., Shaw, P.J., Hardy, J., Orrell, R.W., Sendtner, M., Meyer, T., Başak, N., van der Kooi, A.J., Ratti, A., Fogh, I., Gellera, C., Lauria, G., Corti, S., Cereda, C., Sproviero, D., D’alfonso, S., Sorarù, G., Siciliano, G., Filosto, M., Padovani, A., Chiò, A., Calvo, A., Moglia, C., Brunetti, M., Canosa, A., Grassano, M., Beghi, E., Pupillo, E., Logroscino, G., Nefussy, B., Osmanovic, A., Nordin, A., Lerner, Y., Zabari, M., Gotkine, M., Baloh, R.H., Bell, S., Vourc’h, P., Corcia, P., Couratier, P., Millecamps, S., Meininger, V., Salachas, F., Mora Pardina, J.S., Assialioui, A., Rojas-García, R., Dion, P.A., Ross, J.P., Ludolph, A.C., Weishaupt, J.H., Brenner, D., Freischmidt, A., Bensimon, G., Brice, A., Durr, A., Payan, C.A.M., Saker-Delye, S., Wood, N.W., Topp, S., Rademakers, R., Tittmann, L., Lieb, W., Franke, A., Ripke, S., Braun, A., Kraft, J., Whiteman, D.C., Olsen, C.M., Uitterlinden, A.G., Hofman, A., Rietschel, M., Cichon, S., Nöthen, M.M., Amouyel, P., Comi, G., Riva, N., Lunetta, C., Gerardi, F., Cotelli, M.S., Rinaldi, F., Chiveri, L., Guaita, M.C., Perrone, P., Ceroni, M., Diamanti, L., Ferrarese, C., Tremolizzo, L., Delodovici, M.L., Bono, G., Manera, U., Vasta, R., Bombaci, A., Casale, F., Fuda, G., Salamone, P., Iazzolino, B., Peotta, L., Cugnasco, P., De Marco, G., Torrieri, M.C., Palumbo, F., Gallone, S., Barberis, M., Sbaiz, L., Gentile, S., Mauro, A., Mazzini, L., De Marchi, F., Corrado, L., D’Alfonso, S., Bertolotto, A., Gionco, M., Leotta, D., Odddenino, E., Imperiale, D., Cavallo, R., Pignatta, P., De Mattei, M., Geda, C., Papurello, D.M., Gusmaroli, G., Comi, C., Labate, C., Ruiz, L., Ferrandi, D., Rota, E., Aguggia, M., Di Vito, N., Meineri, P., Ghiglione, P., Launaro, N., Dotta, M., Di Sapio, A., Giardini, G., Tiloca, C., Peverelli, S., Taroni, F., Pensato, V., Castellotti, B., Comi, G.P., Del Bo, R., Gagliardi, S., Raggi, F., Simoncini, C., Lo Gerfo, A., Inghilleri, M., Ferlini, A., Simone, I.L., Passarella, B., Guerra, V., Zoccolella, S., Nozzoli, C., Mundi, C., Leone, M., Zarrelli, M., Tamma, F., Valluzzi, F., Calabrese, G., Boero, G., Rini, A., Traynor, B.J., Singleton, A.B., Mitne Neto, M., Cauchi, R.J., Ophoff, R.A., Wiedau-Pazos, M., Lomen-Hoerth, C., van Deerlin, V.M., Grosskreutz, J., Roediger, A., Gaur, N., Jörk, A., Barthel, T., Theele, E., Ilse, B., Stubendorff, B., Witte, O.W., Steinbach, R., Hübner, C.A., Graff, C., Brylev, L., Fominykh, V., Demeshonok, V., Ataulina, A., Rogelj, B., Koritnik, B., Zidar, J., Ravnik-Glavač, M., Glavač, D., Stević, Z., Drory, V., Povedano, M., Blair, I.P., Kiernan, M.C., Benyamin, B., Henderson, R.D., Furlong, S., Mathers, S., McCombe, P.A., Needham, M., Ngo, S.T., Nicholson, G.A., Pamphlett, R., Rowe, D.B., Steyn, F.J., Williams, K.L., Mather, K.A., Sachdev, P.S., Henders, A.K., Wallace, L., de Carvalho, M., Pinto, S., Petri, S., Weber, M., Rouleau, G.A., Silani, V., Curtis, C.J., Breen, G., Glass, J.D., Brown, R.H., Landers, J.E., Shaw, C.E., Andersen, P.M., Groen, E.J.N., van Es, M.A., Pasterkamp, R.J., Fan, D., Garton, F.C., McRae, A.F., Davey Smith, G., Gaunt, T.R., Eberle, M.A., Mill, J., McLaughlin, R.L., Hardiman, O., Kenna, K.P., Wray, N.R., Tsai, E., Runz, H., Franke, L., Al-Chalabi, A., Van Damme, P., van den Berg, L.H., and Veldink, J.H.

Abstract

Correction to: Nature Genetics https://doi.org/10.1038/s41588-021-00973-1, published online 6 December 2021. In the version of this article initially published, the affiliation for Nazli Başak appeared incorrectly. Nazli Başak is at Koç University, School of Medicine, KUTTAM-NDAL, Istanbul, Turkey, and not Bogazici University. The error has been corrected in the HTML and PDF versions of the article.

Published
2022

18. Common Genetic Variants Contribute to Risk of Transposition of the Great Arteries

Author

Škorić-Milosavljević, D., Tadros, R., Bosada, F.M., Tessadori, F., Weerd, J.H. van, Woudstra, O.I., Tjong, F.V.Y., Lahrouchi, N., Bajolle, F., Cordell, H.J., Agopian, A.J., Blue, G.M., Barge-Schaapveld, D., Gewillig, M., Preuss, C., Lodder, E.M., Barnett, P., Ilgun, A., Beekman, L., Duijvenboden, K. van, Bokenkamp, R., Müller-Nurasyid, M., Vliegen, H.W., Konings, T.C., Melle, J.P. van, Dijk, A.P.J. van, Kimmenade, R.R.J. van, Roos-Hesselink, J.W., Sieswerda, G.T., Meijboom, F., Abdul-Khaliq, H., Berger, F, Dittrich, S., Hitz, M.P., Moosmann, J., Riede, F.T., Schubert, S., Galan, P., Lathrop, M., Munter, H.M., Al-Chalabi, A., Shaw, C.E., Shaw, P.J., Morrison, K.E., Veldink, J.H., Berg, L.H. van den, Evans, S., Nobrega, M.A., Aneas, I., Radivojkov-Blagojević, M., Meitinger, T., Oechslin, E., Mondal, T., Bergin, L., Smythe, J.F., Altamirano-Diaz, L., Lougheed, J., Bouma, B.J., Chaix, M.A., Kline, J., Bassett, A.S., Andelfinger, G., Palen, R.L.F. van der, Bouvagnet, P., Clur, S.B., Breckpot, J., Kerstjens-Frederikse, W.S., Winlaw, D.S., Bauer, U.M.M., Mital, S., Goldmuntz, E., Keavney, B., Bonnet, D., Mulder, B. J. M., Tanck, M.W.T., Bakkers, J., Christoffels, V.M., Boogerd, C.J., Postma, A.V., Bezzina, C.R., Škorić-Milosavljević, D., Tadros, R., Bosada, F.M., Tessadori, F., Weerd, J.H. van, Woudstra, O.I., Tjong, F.V.Y., Lahrouchi, N., Bajolle, F., Cordell, H.J., Agopian, A.J., Blue, G.M., Barge-Schaapveld, D., Gewillig, M., Preuss, C., Lodder, E.M., Barnett, P., Ilgun, A., Beekman, L., Duijvenboden, K. van, Bokenkamp, R., Müller-Nurasyid, M., Vliegen, H.W., Konings, T.C., Melle, J.P. van, Dijk, A.P.J. van, Kimmenade, R.R.J. van, Roos-Hesselink, J.W., Sieswerda, G.T., Meijboom, F., Abdul-Khaliq, H., Berger, F, Dittrich, S., Hitz, M.P., Moosmann, J., Riede, F.T., Schubert, S., Galan, P., Lathrop, M., Munter, H.M., Al-Chalabi, A., Shaw, C.E., Shaw, P.J., Morrison, K.E., Veldink, J.H., Berg, L.H. van den, Evans, S., Nobrega, M.A., Aneas, I., Radivojkov-Blagojević, M., Meitinger, T., Oechslin, E., Mondal, T., Bergin, L., Smythe, J.F., Altamirano-Diaz, L., Lougheed, J., Bouma, B.J., Chaix, M.A., Kline, J., Bassett, A.S., Andelfinger, G., Palen, R.L.F. van der, Bouvagnet, P., Clur, S.B., Breckpot, J., Kerstjens-Frederikse, W.S., Winlaw, D.S., Bauer, U.M.M., Mital, S., Goldmuntz, E., Keavney, B., Bonnet, D., Mulder, B. J. M., Tanck, M.W.T., Bakkers, J., Christoffels, V.M., Boogerd, C.J., Postma, A.V., and Bezzina, C.R.

Abstract

Item does not contain fulltext, RATIONALE: Dextro-transposition of the great arteries (D-TGA) is a severe congenital heart defect which affects approximately 1 in 4,000 live births. While there are several reports of D-TGA patients with rare variants in individual genes, the majority of D-TGA cases remain genetically elusive. Familial recurrence patterns and the observation that most cases with D-TGA are sporadic suggest a polygenic inheritance for the disorder, yet this remains unexplored. OBJECTIVE: We sought to study the role of common single nucleotide polymorphisms (SNPs) in risk for D-TGA. METHODS AND RESULTS: We conducted a genome-wide association study in an international set of 1,237 patients with D-TGA and identified a genome-wide significant susceptibility locus on chromosome 3p14.3, which was subsequently replicated in an independent case-control set (rs56219800, meta-analysis P=8.6x10(-10), OR=0.69 per C allele). SNP-based heritability analysis showed that 25% of variance in susceptibility to D-TGA may be explained by common variants. A genome-wide polygenic risk score derived from the discovery set was significantly associated to D-TGA in the replication set (P=4x10(-5)). The genome-wide significant locus (3p14.3) co-localizes with a putative regulatory element that interacts with the promoter of WNT5A, which encodes the Wnt Family Member 5A protein known for its role in cardiac development in mice. We show that this element drives reporter gene activity in the developing heart of mice and zebrafish and is bound by the developmental transcription factor TBX20. We further demonstrate that TBX20 attenuates Wnt5a expression levels in the developing mouse heart. CONCLUSIONS: This work provides support for a polygenic architecture in D-TGA and identifies a susceptibility locus on chromosome 3p14.3 near WNT5A. Genomic and functional data support a causal role of WNT5A at the locus.

Published
2022

19. Assessment of the precision in measuring glutathione at 3 T with a MEGA-PRESS sequence in primary motor cortex and occipital cortex

Author

Anton, A., Mead, R.J., Shaw, P.J., Edden, R.A.E., Bigley, J., Jenkins, T.M., Wild, J.M., Hoggard, N., and Wilkinson, I.D.

Abstract

Background\ud \ud Glutathione (GSH) is an important brain antioxidant and a number of studies have reported its measurement by edited and nonedited localized 1H spectroscopy techniques within a range of applications in healthy volunteers and disease states. Good test–retest reproducibility is key when assessing the efficacy of treatments aimed at modulating GSH levels within the central nervous system or when noninvasively assessing changes in GSH content over time.\ud \ud \ud \ud Purpose\ud \ud To evaluate the intraday (in vitro and in vivo) and 1-month apart (in vivo) test–retest reproducibility of GSH measurements from GSH-edited MEGA-PRESS acquisitions at 3 T in a phantom and in the brain of a cohort of middle-aged and older healthy volunteers.\ud \ud \ud \ud Study Type\ud \ud Prospective.\ud \ud \ud \ud Subjects/Phantoms\ud \ud A phantom containing physiological concentrations of GSH and metabolites with overlapping spectral signatures and 10 healthy volunteers (4 F, 6 M, 55 ± 14 years old).\ud \ud \ud \ud Field strength/Sequence\ud \ud GSH-edited spectra were acquired at 3 T using the MEGA-PRESS sequence.\ud \ud \ud \ud Assessment\ud \ud The phantom was scanned twice and the healthy subjects were scanned three times (on two separate days, 1 month apart). GSH was quantified from each acquisition, with the in vivo voxels placed at the primary motor cortex (PMC) and the occipital cortex (OCC).\ud \ud \ud \ud Statistical Tests\ud \ud Mean coefficients of variation (CV) were used to assess short-term (in vitro and in vivo) and longer-term (in vivo) test–retest reproducibility.\ud \ud \ud \ud Results\ud \ud In vitro, the CV was 2.3%. In vivo, the mean intraday CV was 3.3% in the PMC and 2.4% in the OCC, while the CVs at 1 month apart were 4.6% in the PMC and 7.8% in the OCC.\ud \ud \ud \ud Data Conclusion\ud \ud GSH-edited MEGA-PRESS spectroscopy allows measurement of GSH with excellent precision.\ud \ud \ud \ud Evidence Level\ud \ud 1\ud \ud \ud \ud Technical Efficacy\ud \ud Stage 2

Published
2022

20. Genome-wide identification of the genetic basis of amyotrophic lateral sclerosis

Author

Zhang, S., Cooper-Knock, J., Weimer, A.K., Shi, M., Moll, T., Marshall, J.N.G., Harvey, C., Nezhad, H.G., Franklin, J., Souza, C.D.S., Ning, K., Wang, C., Li, J., Dilliott, A.A., Farhan, S., Elhaik, E., Pasniceanu, I., Livesey, M.R., Eitan, C., Hornstein, E., Kenna, K.P., Project MinE ALS Sequencing Consortium, (The), Veldink, J.H., Ferraiuolo, L., Shaw, P.J., and Snyder, M.P.

Abstract

Amyotrophic lateral sclerosis (ALS) is a complex disease that leads to motor neuron death. Despite heritability estimates of 52%, genome-wide association studies (GWASs) have discovered relatively few loci. We developed a machine learning approach called RefMap, which integrates functional genomics with GWAS summary statistics for gene discovery. With transcriptomic and epigenetic profiling of motor neurons derived from induced pluripotent stem cells (iPSCs), RefMap identified 690 ALS-associated genes that represent a 5-fold increase in recovered heritability. Extensive conservation, transcriptome, network, and rare variant analyses demonstrated the functional significance of candidate genes in healthy and diseased motor neurons and brain tissues. Genetic convergence between common and rare variation highlighted KANK1 as a new ALS gene. Reproducing KANK1 patient mutations in human neurons led to neurotoxicity and demonstrated that TDP-43 mislocalization, a hallmark pathology of ALS, is downstream of axonal dysfunction. RefMap can be readily applied to other complex diseases.

Published
2022

21. Reinnervation as measured by the motor unit size index is associated with preservation of muscle strength in amyotrophic lateral sclerosis but not all muscles reinnervate

Author

Chan, Y., Alix, J.J.P., Neuwirth, C., Barkhaus, P.E., Castro Tech, J., Jenkins, T.M., McDermott, C.J., Shaw, P.J., Carvalho, M., Nandedkar, S., Stålberg, E., and Weber, M.

Abstract

Introduction\ud \ud The motor unit size index (MUSIX) may provide insight into reinnervation patterns in diseases such as amyotrophic lateral sclerosis (ALS). However, it is not known if MUSIX detects clinically relevant changes in reinnervation, or if all muscles manifest changes in MUSIX in response reinnervation following motor unit loss.\ud \ud \ud \ud Methods\ud \ud 57 patients with ALS were assessed at 3-monthly intervals for 12 months in 4 centres. Muscles examined were abductor pollicis brevis, abductor digiti minimi, biceps brachii and tibialis anterior. Results were split into two groups: muscles with increases in MUSIX and those without. Longitudinal changes in MUSIX, motor unit number index (MUNIX), compound muscle action potential (CMAP) amplitude and medical research council (MRC) strength score were investigated.\ud \ud \ud \ud Results\ud \ud 133 muscles were examined. 59% of muscles exhibited an increase in MUSIX during the study. Muscles with MUSIX increases lost more motor units (MUNIX decline at 12 months -58%, p

Published
2022

22. Proteinopathies as hallmarks of impaired gene expression, proteostasis and mitochondrial function in amyotrophic lateral sclerosis

Author

Benson, B.C., Shaw, P.J., Azzouz, M., Highley, J.R., and Hautbergue, G.M.

Abstract

Amyotrophic lateral sclerosis (ALS) is a fatal adult-onset neurodegenerative disease characterized by progressive degeneration of upper and lower motor neurons. As with the majority of neurodegenerative diseases, the pathological hallmarks of ALS involve proteinopathies which lead to the formation of various polyubiquitylated protein aggregates in neurons and glia. ALS is a highly heterogeneous disease, with both familial and sporadic forms arising from the convergence of multiple disease mechanisms, many of which remain elusive. There has been considerable research effort invested into exploring these disease mechanisms and in recent years dysregulation of RNA metabolism and mitochondrial function have emerged as of crucial importance to the onset and development of ALS proteinopathies. Widespread alterations of the RNA metabolism and post-translational processing of proteins lead to the disruption of multiple biological pathways. Abnormal mitochondrial structure, impaired ATP production, dysregulation of energy metabolism and calcium homeostasis as well as apoptosis have been implicated in the neurodegenerative process. Dysfunctional mitochondria further accumulate in ALS motor neurons and reflect a wider failure of cellular quality control systems, including mitophagy and other autophagic processes. Here, we review the evidence for RNA and mitochondrial dysfunction as some of the earliest critical pathophysiological events leading to the development of ALS proteinopathies, explore their relative pathological contributions and their points of convergence with other key disease mechanisms. This review will focus primarily on mutations in genes causing four major types of ALS (C9ORF72, SOD1, TARDBP/TDP-43, and FUS) and in protein homeostasis genes (SQSTM1, OPTN, VCP, and UBQLN2) as well as sporadic forms of the disease. Finally, we will look to the future of ALS research and how an improved understanding of central mechanisms underpinning proteinopathies might inform research directions and have implications for the development of novel therapeutic approaches.

Published
2021

23. Tensor electrical impedance myography identifies clinically relevant features in amyotrophic lateral sclerosis

Author

Schooling, C.N., Healey, T.J., McDonough, H.E., French, S.J., McDermott, C.J., Shaw, P.J., Kadirkamanathan, V., and Alix, J.J.P.

Abstract

Objective. Electrical impedance myography (EIM) shows promise as an effective biomarker in amyotrophic lateral sclerosis (ALS). EIM applies multiple input frequencies to characterise muscle properties, often via multiple electrode configurations. Herein, we assess if non-negative tensor factorisation (NTF) can provide a framework for identifying clinically relevant features within a high dimensional EIM dataset. Approach. EIM data were recorded from the tongue of healthy and ALS diseased individuals. Resistivity and reactivity measurements were made for 14 frequencies, in three electrode configurations. This gives 84 (2 × 14 × 3) distinct data points per participant. NTF was applied to the dataset for dimensionality reduction, termed tensor EIM. Significance tests, symptom correlation and classification approaches were explored to compare NTF to using all raw data and feature selection. Main Results. Tensor EIM provides highly significant differentiation between healthy and ALS patients (p < 0.001, AUROC = 0.78). Similarly tensor EIM differentiates between mild and severe disease states (p < 0.001, AUROC = 0.75) and significantly correlates with symptoms (ρ = 0.7, p < 0.001). A trend of centre frequency shifting to the right was identified in diseased spectra, which is in line with the electrical changes expected following muscle atrophy. Significance. Tensor EIM provides clinically relevant metrics for identifying ALS-related muscle disease. This procedure has the advantage of using the whole spectral dataset, with reduced risk of overfitting. The process identifies spectral shapes specific to disease allowing for a deeper clinical interpretation.

Published
2021

25. Innovating clinical trials for amyotrophic lateral sclerosis : challenging the established order

Author

van Eijk, R.P.A., Nikolakopoulos, S., Roes, K.C.B., Kendall, L., Han, S.S., Lavrov, A., Epstein, N., Kliest, T., de Jongh, A.D., Westeneng, H.-J., Al-Chalabi, A., Van Damme, P., Hardiman, O., Shaw, P.J., McDermott, C.J., Eijkemans, M.J.C., and van den Berg, L.H.

Abstract

Development of effective treatments for amyotrophic lateral sclerosis (ALS) has been hampered by disease heterogeneity, a limited understanding of underlying pathophysiology, and methodologic design challenges. We have evaluated 2 major themes in the design of pivotal, phase 3 clinical trials for ALS—(1) patient selection and (2) analytical strategy—and discussed potential solutions with the European Medicines Agency. Several design considerations were assessed using data from 5 placebo-controlled clinical trials (n = 988), 4 population-based cohorts (n = 5,100), and 2,436 placebo-allocated patients from the Pooled Resource Open-Access ALS Clinical Trials (PRO-ACT) database. The validity of each proposed design modification was confirmed by means of simulation and illustrated for a hypothetical setting. Compared to classical trial design, the proposed design modifications reduce the sample size by 30.5% and placebo exposure time by 35.4%. By making use of prognostic survival models, one creates a potential to include a larger proportion of the population and maximize generalizability. We propose a flexible design framework that naturally adapts the trial duration when inaccurate assumptions are made at the design stage, such as enrollment or survival rate. In case of futility, the follow-up time is shortened and patient exposure to ineffective treatments or placebo is minimized. For diseases such as ALS, optimizing the use of resources, widening eligibility criteria, and minimizing exposure to futile treatments and placebo is critical to the development of effective treatments. Our proposed design modifications could circumvent important pitfalls and may serve as a blueprint for future clinical trials in this population.

Published
2021

26. Extensive phenotypic characterisation of a human TDP-43^Q331K transgenic mouse model of amyotrophic lateral sclerosis (ALS)

Author

Watkins, J.A., Alix, J.J.P., Shaw, P.J., and Mead, R.J.

Abstract

The majority of preclinical studies in ALS have relied on transgenic models with overexpression of mutant human superoxide dismutase 1 (SOD1), widely regarded to have failed in terms of translation of therapeutic effects. However, there are still no widely accepted models of other genetic subtypes of ALS. The majority of patients show ubiquitinated cytoplasmic inclusions of TAR DNA binding protein of 43 kilodaltons (TDP-43) in spinal motor neurons at the end stage of disease and a small proportion have mutations in TARDBP, the gene encoding TDP-43. TDP-43 transgenic mouse models have been produced, but have not been widely adopted. Here, we characterised one of these models available from the Jackson Laboratory in detail. Compared to TDP-43WT mice, TDP-43Q331K mice had 43% less hindlimb muscle mass at 6 months and a 73% reduction in hindlimb compound muscle action potential at 8 months of age. Rotarod and gait analysis indicated motor system decline with elevated weight gain. At the molecular level, the lack of TDP-43 cellular pathology was confirmed with a surprising increase in nuclear TDP-43 in motor neurons. Power analysis indicated group sizes of 12–14 mice are needed to detect 10–20% changes in measured parameters with a power of 80%, providing valid readouts for preclinical testing. Overall, this model may represent a useful component of multi-model pre-clinical therapeutic studies for ALS.

Published
2021

28. Adipose-derived stem cells protect motor neurons and reduce glial activation in both in vitro and in vivo models of ALS

Author

Ciervo, Y., Gatto, N., Allen, C., Grierson, A., Ferraiuolo, L., Mead, R.J., and Shaw, P.J.

Abstract

Amyotrophic lateral sclerosis (ALS) is a devastating neurodegenerative condition for which new therapeutic options are urgently needed. We injected GFP+ adipose-derived stem cells (EGFP-ADSCs) directly into the cerebrospinal fluid (CSF) of transgenic SOD1G93A mice, a well-characterized model of familial ALS. Despite short-term survival of the injected cells and limited engraftment efficiency, EGFP-ADSCs improved motor function and delayed disease onset by promoting motor neuron (MN) survival and reducing glial activation. We then tested the in vitro neuroprotective potential of mouse ADSCs in astrocyte/MN co-cultures where ALS astrocytes show neurotoxicity. ADSCs were able to rescue MN death caused by ALS astrocytes derived from symptomatic SOD1G93A mice. Further, ADSCs were found to reduce the inflammatory signature of ALS astrocytes by inhibiting the release of pro-inflammatory mediators and inducing the secretion of neuroprotective factors. Finally, mouse ADSCs were able to protect MNs from the neurotoxicity mediated by human induced astrocytes (iAstrocytes) derived from patients with either sporadic or familial ALS, thus for the first time showing the potential therapeutic translation of ADSCs across the spectrum of human ALS. These data in two translational models of ALS show that, through paracrine mechanisms, ADSCs support MN survival and modulate the toxic microenvironment that contributes to neurodegeneration in ALS.

Published
2021

29. Proteomic approaches to study cysteine oxidation: applications in neurodegenerative diseases

Author

Pham, T.K., Buczek, W.A., Mead, R.J., Shaw, P.J., and Collins, M.O.

Abstract

Oxidative stress appears to be a key feature of many neurodegenerative diseases either as a cause or consequence of disease. A range of molecules are subject to oxidation, but in particular, proteins are an important target and measure of oxidative stress. Proteins are subject to a range of oxidative modifications at reactive cysteine residues, and depending on the level of oxidative stress, these modifications may be reversible or irreversible. A range of experimental approaches has been developed to characterize cysteine oxidation of proteins. In particular, mass spectrometry-based proteomic methods have emerged as a powerful means to identify and quantify cysteine oxidation sites on a proteome scale; however, their application to study neurodegenerative diseases is limited to date. Here we provide a guide to these approaches and highlight the under-exploited utility of these methods to measure oxidative stress in neurodegenerative diseases for biomarker discovery, target engagement and to understand disease mechanisms.

Published
2021

30. Physical exercise is a risk factor for amyotrophic lateral sclerosis: Convergent evidence from Mendelian randomisation, transcriptomics and risk genotypes

Author

Julian, T.H., Glascow, N., Barry, A.D.F., Moll, T., Harvey, C., Klimentidis, Y.C., Newell, M., Zhang, S., Snyder, M.P., Cooper-Knock, J., and Shaw, P.J.

Abstract

Background\ud \ud Amyotrophic lateral sclerosis (ALS) is a universally fatal neurodegenerative disease. ALS is determined by gene-environment interactions and improved understanding of these interactions may lead to effective personalised medicine. The role of physical exercise in the development of ALS is currently controversial.\ud \ud \ud Methods\ud \ud First, we dissected the exercise-ALS relationship in a series of two-sample Mendelian randomisation (MR) experiments. Next we tested for enrichment of ALS genetic risk within exercise-associated transcriptome changes. Finally, we applied a validated physical activity questionnaire in a small cohort of genetically selected ALS patients.\ud \ud \ud Findings\ud \ud We present MR evidence supporting a causal relationship between genetic liability to frequent and strenuous leisure-time exercise and ALS using a liberal instrument (multiplicative random effects IVW, p=0.01). Transcriptomic analysis revealed that genes with altered expression in response to acute exercise are enriched with known ALS risk genes (permutation test, p=0.013) including C9ORF72, and with ALS-associated rare variants of uncertain significance. Questionnaire evidence revealed that age of onset is inversely proportional to historical physical activity for C9ORF72-ALS (Cox proportional hazards model, Wald test p=0.007, likelihood ratio test p=0.01, concordance=74%) but not for non-C9ORF72-ALS. Variability in average physical activity was lower in C9ORF72-ALS compared to both non-C9ORF72-ALS (F-test, p=0.002) and neurologically normal controls (F-test, p=0.049) which is consistent with a homogeneous effect of physical activity in all C9ORF72-ALS patients.\ud \ud \ud Interpretation\ud \ud Our MR approach suggests a positive causal relationship between ALS and physical exercise. Exercise is likely to cause motor neuron injury only in patients with a risk-genotype. Consistent with this we have shown that ALS risk genes are activated in response to exercise. In particular, we propose that G4C2-repeat expansion of C9ORF72 predisposes to exercise-induced ALS.\ud \ud \ud Funding\ud \ud We acknowledge support from the Wellcome Trust (JCK, 216596/Z/19/Z), NIHR (PJS, NF-SI-0617-10077; IS-BRC-1215-20017) and NIH (MPS, CEGS 5P50HG00773504, 1P50HL083800, 1R01HL101388, 1R01-HL122939, S10OD025212, P30DK116074, and UM1HG009442).

Published
2021

31. Value of systematic genetic screening of patients with amyotrophic lateral sclerosis

Author

Shepheard, S.R., Parker, M.D., Cooper-Knock, J., Verber, N.S., Tuddenham, L., Heath, P., Beauchamp, N., Place, E., Sollars, E.S.A., Turner, M.R., Malaspina, A., Fratta, P., Hewamadduma, C., Jenkins, T.M., McDermott, C.J., Wang, D., Kirby, J., and Shaw, P.J.

Abstract

Objective The clinical utility of routine genetic sequencing in amyotrophic lateral sclerosis (ALS) is uncertain. Our aim was to determine whether routine targeted sequencing of 44 ALS-relevant genes would have a significant impact on disease subclassification and clinical care.\ud \ud \ud Methods We performed targeted sequencing of a 44-gene panel in a prospective case series of 100 patients with ALS recruited consecutively from the Sheffield Motor Neuron Disorders Clinic, UK. All participants were diagnosed with ALS by a specialist Consultant Neurologist. 7/100 patients had familial ALS, but the majority were apparently sporadic cases.\ud \ud \ud Results 21% of patients with ALS carried a confirmed pathogenic or likely pathogenic mutation, of whom 93% had no family history of ALS. 15% met the inclusion criteria for a current ALS genetic-therapy trial. 5/21 patients with a pathogenic mutation had an additional variant of uncertain significance (VUS). An additional 21% of patients with ALS carried a VUS in an ALS-associated gene. Overall, 13% of patients carried more than one genetic variant (pathogenic or VUS). Patients with ALS carrying two variants developed disease at a significantly earlier age compared with patients with a single variant (median age of onset=56 vs 60 years, p=0.0074).\ud \ud \ud Conclusions Routine screening for ALS-associated pathogenic mutations in a specialised ALS referral clinic will impact clinical care in 21% of cases. An additional 21% of patients have variants in the ALS gene panel currently of unconfirmed significance after removing non-specific or predicted benign variants. Overall, variants within known ALS-linked genes are of potential clinical importance in 42% of patients.

Published
2021

32. TDP43 proteinopathy is associated with aberrant DNA methylation in human amyotrophic lateral sclerosis

Author

Appleby‐Mallinder, C., Schaber, E., Kirby, J., Shaw, P.J., Cooper‐Knock, J., Heath, P.R., and Highley, J.R.

Abstract

Background\ud Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease characterized by motor neurone (MN) degeneration and death. ALS can be sporadic (sALS) or familial, with a number of associated gene mutations, including C9orf72 (C9ALS). DNA methylation is an epigenetic mechanism whereby a methyl group is attached to a cytosine (5mC), resulting in gene expression repression. 5mC can be further oxidized to 5‐hydroxymethylcytosine (5hmC). DNA methylation has been studied in other neurodegenerative diseases, but little work has been conducted in ALS.\ud \ud Aims\ud To assess differences in DNA methylation in individuals with ALS and the relationship between DNA methylation and TDP43 pathology.\ud \ud Methods\ud Post mortem tissue from controls, sALS cases and C9ALS cases were assessed by immunohistochemistry for 5mC and 5hmC in spinal cord, motor cortex and prefrontal cortex. LMNs were extracted from a subset of cases using laser capture microdissection. DNA from these underwent analysis using the MethylationEPIC array to determine which molecular processes were most affected.\ud \ud Results\ud There were higher levels of 5mC and 5hmC in sALS and C9ALS in the residual lower motor neurones (LMNs) of the spinal cord. Importantly, in LMNs with TDP43 pathology there was less nuclear 5mC and 5hmC compared to the majority of residual LMNs that lacked TDP43 pathology. Enrichment analysis of the array data suggested RNA metabolism was particularly affected.\ud \ud Conclusions\ud DNA methylation is a contributory factor in ALS LMN pathology. This is not so for glia or neocortical neurones.

Published
2021

36. Establishing the role of pre-implantation genetic diagnosis with human leucocyte antigen typing: what place do 'saviour siblings' have in paediatric transplantation

Author

Samuel, G.N., Strong, K.A., Kerridge, I., Jordens, C.F.C., Ankeny, R.A., and Shaw, P.J.

Subjects
Histocompatibility antigens -- Physiological aspects, Histocompatibility antigens -- Research, HLA histocompatibility antigens -- Physiological aspects, HLA histocompatibility antigens -- Research, Fetal blood -- Transplantation, Fetal blood -- Research
Published
2009

37. The gut microbiome: a key player in the complexity of amyotrophic lateral sclerosis (ALS)

Author

Boddy, S.L., Giovannelli, I., Sassani, M., Cooper-Knock, J., Snyder, M.P., Segal, E., Elinav, E., Barker, L.A., Shaw, P.J., and McDermott, C.J.

Abstract

Background\ud \ud Much progress has been made in mapping genetic abnormalities linked to amyotrophic lateral sclerosis (ALS), but the majority of cases still present with no known underlying cause. Furthermore, even in families with a shared genetic abnormality there is significant phenotypic variability, suggesting that non-genetic elements may modify pathogenesis. Identification of such disease-modifiers is important as they might represent new therapeutic targets. A growing body of research has begun to shed light on the role played by the gut microbiome in health and disease with a number of studies linking abnormalities to ALS.\ud \ud \ud Main body\ud \ud The microbiome refers to the genes belonging to the myriad different microorganisms that live within and upon us, collectively known as the microbiota. Most of these microbes are found in the intestines, where they play important roles in digestion and the generation of key metabolites including neurotransmitters. The gut microbiota is an important aspect of the environment in which our bodies operate and inter-individual differences may be key to explaining the different disease outcomes seen in ALS. Work has begun to investigate animal models of the disease, and the gut microbiomes of people living with ALS, revealing changes in the microbial communities of these groups. The current body of knowledge will be summarised in this review. Advances in microbiome sequencing methods will be highlighted, as their improved resolution now enables researchers to further explore differences at a functional level. Proposed mechanisms connecting the gut microbiome to neurodegeneration will also be considered, including direct effects via metabolites released into the host circulation and indirect effects on bioavailability of nutrients and even medications.\ud \ud \ud Conclusion\ud \ud Profiling of the gut microbiome has the potential to add an environmental component to rapidly advancing studies of ALS genetics and move research a step further towards personalised medicine for this disease. Moreover, should compelling evidence of upstream neurotoxicity or neuroprotection initiated by gut microbiota emerge, modification of the microbiome will represent a potential new avenue for disease modifying therapies. For an intractable condition with few current therapeutic options, further research into the ALS microbiome is of crucial importance.

Published
2021

38. Directly converted astrocytes retain the ageing features of the donor fibroblasts and elucidate the astrocytic contribution to human CNS health and disease

Author

Gatto, N., Dos Santos Souza, C., Shaw, A.C., Bell, S.M., Myszczynska, M.A., Powers, S., Meyer, K., Castelli, L.M., Karyka, E., Mortiboys, H., Azzouz, M., Hautbergue, G.M., Márkus, N.M., Shaw, P.J., and Ferraiuolo, L.

Abstract

Astrocytes are highly specialised cells, responsible for CNS homeostasis and neuronal activity. Lack of human in vitro systems able to recapitulate the functional changes affecting astrocytes during ageing represents a major limitation to studying mechanisms and potential therapies aiming to preserve neuronal health. Here, we show that induced astrocytes from fibroblasts donors in their childhood or adulthood display age‐related transcriptional differences and functionally diverge in a spectrum of age‐associated features, such as altered nuclear compartmentalisation, nucleocytoplasmic shuttling properties, oxidative stress response and DNA damage response. Remarkably, we also show an age‐related differential response of induced neural progenitor cells derived astrocytes (iNPC‐As) in their ability to support neurons in co‐culture upon pro‐inflammatory stimuli. These results show that iNPC‐As are a renewable, readily available resource of human glia that retain the age‐related features of the donor fibroblasts, making them a unique and valuable model to interrogate human astrocyte function over time in human CNS health and disease.

Published
2021

39. Type 2 diabetes mellitus-associated transcriptome alterations in cortical neurones and associated neurovascular unit cells in the ageing brain

Author

Bury, J.J., Chambers, A., Heath, P.R., Ince, P.G., Shaw, P.J., Matthews, F.E., Brayne, C., Simpson, J.E., and Wharton, S.B.

Abstract

Type 2 diabetes mellitus (T2D), characterised by peripheral insulin resistance, is a risk factor for dementia. In addition to its contribution to small and large vessel disease, T2D may directly damage cells of the brain neurovascular unit. In this study, we investigated the transcriptomic changes in cortical neurones, and associated astrocytes and endothelial cells of the neurovascular unit, in the ageing brain. Neurone, astrocyte, and endothelial cell-enriched mRNA, obtained by immuno-laser capture microdissection of temporal cortex (Brodmann area 21/22) from 6 cases with self-reported T2D in the Cognitive Function and Ageing Study neuropathology cohort, and an equal number of age and sex-matched controls, was assessed by microarray analysis. Integrated Molecular Pathway Level Analysis was performed using the Kyoto Encyclopaedia of Genes and Genomes database on significantly differentially expressed genes, defined as P

Published
2021

40. Cross-reactive probes on Illumina DNA methylation arrays: a large study on ALS shows that a cautionary approach is warranted in interpreting epigenome-wide association studies

Author

Hop, P.J., Zwamborn, R.A.J., Hannon, E.J., Dekker, A.M., van Eijk, K.R., Walker, E.M., Iacoangeli, A., Jones, A.R., Shatunov, A., Khleifat, A.A., Opie-Martin, S., Shaw, C.E., Morrison, K.E., Shaw, P.J., McLaughlin, R.L., Hardiman, O., Al-Chalabi, A., Van Den Berg, L.H., Mill, J., and Veldink, J.H.

Abstract

Illumina DNA methylation arrays are a widely used tool for performing genome-wide DNA methylation analyses. However, measurements obtained from these arrays may be affected by technical artefacts that result in spurious associations if left unchecked. Cross-reactivity represents one of the major challenges, meaning that probes may map to multiple regions in the genome. Although several studies have reported on this issue, few studies have empirically examined the impact of cross-reactivity in an epigenome-wide association study (EWAS). In this paper, we report on cross-reactivity issues that we discovered in a large EWAS on the presence of the C9orf72 repeat expansion in ALS patients. Specifically, we found that that the majority of the significant probes inadvertently cross-hybridized to the C9orf72 locus. Importantly, these probes were not flagged as cross-reactive in previous studies, leading to novel insights into the extent to which cross-reactivity can impact EWAS. Our findings are particularly relevant for epigenetic studies into diseases associated with repeat expansions and other types of structural variation. More generally however, considering that most spurious associations were not excluded based on pre-defined sets of cross-reactive probes, we believe that the presented data-driven flag and consider approach is relevant for any type of EWAS.

Published
2020

41. Simultaneous ALS and SCA2 associated with an intermediate-length ATXN2 CAG-repeat expansion

Author

Ghahremani Nezhad, H., Franklin, J.P., Alix, J.J.P., Moll, T., Pattrick, M., Cooper-Knock, J., Shanmugarajah, P., Beauchamp, N.J., Hadjivissiliou, M., Paling, D., Mcdermott, C., Shaw, P.J., and Jenkins, T.M.

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, mental disorders, nervous system diseases
Abstract

Spinocerebellar ataxia type 2 (SCA2) and amyotrophic lateral sclerosis (ALS) share a common molecular basis: both are associated with CAG-repeat expansion of ATXN2 and TDP-43-positive neuronal cytoplasmic inclusions. To date, the two disorders are viewed as clinically distinct with ALS resulting from 30-33 CAG-repeats and SCA2 from >34 CAG-repeats. We describe a 67-year old with a 32 CAG-repeat expansion of ATXN2 who presented with simultaneous symptoms of ALS and SCA2. Our case demonstrates that the clinical dichotomy between SCA2 and ATXN2-ALS is false. We suggest instead that CAG-repeat expansion length determines the timing of SCA2 clinical symptoms relative to onset of ALS; consistent with this age of onset of SCA2 but not ATXN2-ALS, is dependent upon expansion length. Review of the literature and our local cohort provides evidence for occurrence of ALS in late stage SCA2, which may be under-recognised by clinicians who think of the two diseases as distinct.

Published
2020

43. Modelling and analysis of electrical impedance myography of the lateral tongue

Author

Schooling, C.N., Jamie Healey, T., McDonough, H.E., French, S.J., McDermott, C.J., Shaw, P.J., Kadirkamanathan, V., and Alix, J.J.P.

Abstract

Objective: Electrical impedance myography (EIM) performed on the centre of the tongue shows promise in detecting amyotrophic lateral sclerosis (ALS). Lateral recordings may improve diagnostic performance and provide pathophysiological insights through the assessment of asymmetry. However, it is not known if electrode proximity to the muscle edge, or electrode rotation, distort spectra. We evaluated this using finite element-based modelling. Approach: Nine thousand EIM from patients and healthy volunteers were used to develop a finite element model for phase and magnitude. Simulations varied electrode proximity to the muscle edge and electrode rotation. LT-Spice simulations assessed disease effects. Patient data were assessed for reliability, agreement and classification performance. Main results: No effect on phase spectra was seen if all electrodes remained in contact with the tissue. Small effects on magnitude were observed. Cole-Cole circuit simulations indicated capacitance reduced with disease severity. Lateral tongue muscle recordings in both patients and healthy volunteers were reproducible and symmetrical. Combined lateral/central tongue EIM improved disease classification compared to either placement alone. Significance: Lateral EIM tongue measurements using phase angle are feasible. Such measurements are reliable, find no evidence of tongue muscle asymmetry in ALS and improve disease classification. Lateral measurements enhance tongue EIM in ALS.

Published
2020

44. SOD1-targeting therapies for neurodegenerative diseases : a review of current findings and future potential

Author

Franklin, J.P., Azzouz, M., and Shaw, P.J.

Subjects
nervous system, animal diseases, nutritional and metabolic diseases, nervous system diseases
Abstract

Introduction: Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease with limited effective treatments. Mutations in the SOD1 gene are causative in approximately 2% of ALS cases. As the first ALS-associated gene to be discovered, efforts in the development of therapies targeting SOD1 are advanced relative to other genetic causes of ALS. Two SOD1-targeting strategies: antisense oligonucleotides and microRNA, have been trialled in humans to date, with preliminary evidence of disease-modifying activity.\ud \ud \ud \ud Areas covered: In this review, the following areas are discussed: 1) the pathophysiology of mutant SOD1-ALS, and the rationale for targeting the SOD1 gene; 2) the strategies that have been used to target mutant SOD1 in clinical and preclinical studies; 3) the role of misfolded wild-type SOD1 in sporadic ALS and other neurodegenerative diseases, and the potential for targeting SOD1 in these patients; 4) future avenues for research. A literature search of publications pertaining to SOD1-ALS and its treatment from 1992-present using the MEDLINE database form the basis for this review.\ud \ud \ud \ud Expert opinion: Central nervous system SOD1 knockdown is achievable in SOD1-ALS patients with intrathecal antisense oligonucleotide therapy, and is both safe and well-tolerated: phase III study outcomes are awaited. Well-designed virus-based delivery strategies for RNA interference therapies targeting SOD1 show promise in animal models and may, with caution, provide an effective treatment strategy if these results can be recreated in future clinical studies.

Published
2020

45. Advanced glycation end product formation in human cerebral cortex increases with Alzheimer-type neuropathologic changes but is not independently associated with dementia in a population-derived aging brain cohort

Author

Chambers, A., Bury, J.J., Minett, T., Richardson, C.D., Brayne, C., Ince, P.G., Shaw, P.J., Garwood, C.J., Heath, P.R., Simpson, J.E., Matthews, F.E., and Wharton, S.B.

Subjects
mental disorders
Abstract

Diabetes mellitus is a risk factor for dementia, and nonenzymatic glycosylation of macromolecules results in formation of advanced glycation end-products (AGEs). We determined the variation in AGE formation in brains from the Cognitive Function and Ageing Study population-representative neuropathology cohort. AGEs were measured on temporal neocortex by enzyme-linked immunosorbent assay (ELISA) and cell-type specific expression on neurons, astrocytes and endothelium was detected by immunohistochemistry and assessed semiquantitatively. Fifteen percent of the cohort had self-reported diabetes, which was not significantly associated with dementia status at death or neuropathology measures. AGEs were expressed on neurons, astrocytes and endothelium and overall expression showed a positively skewed distribution in the population. AGE measures were not significantly associated with dementia. AGE measured by ELISA increased with Consortium to Establish a Registry for Alzheimer’s Disease (CERAD) neurofibrillary tangle score (p = 0.03) and Thal Aβ phase (p = 0.04), while AGE expression on neurons (and astrocytes), detected immunohistochemically, increased with increasing Braak tangle stage (p

Published
2020

46. Phase 1–2 Trial of Antisense Oligonucleotide Tofersen for SOD1 ALS

Author

Miller, T., Cudkowicz, M., Shaw, P.J., Andersen, P.M., Atassi, N., Bucelli, R.C., Genge, A., Glass, J., Ladha, S., Ludolph, A.L., Maragakis, N.J., McDermott, C.J., Pestronk, A., Ravits, J., Salachas, F., Trudell, R., Van Damme, P., Zinman, L., Bennett, C.F., Lane, R., Sandrock, A., Runz, H., Graham, D., Houshyar, H., McCampbell, A., Nestorov, I., Chang, I., McNeill, M., Fanning, L., Fradette, S., and Ferguson, T.A.

Abstract

BACKGROUND\ud \ud Tofersen is an antisense oligonucleotide that mediates the degradation of superoxide dismutase 1 (SOD1) messenger RNA to reduce SOD1 protein synthesis. Intrathecal administration of tofersen is being studied for the treatment of amyotrophic lateral sclerosis (ALS) due to SOD1 mutations.\ud \ud \ud METHODS\ud \ud We conducted a phase 1–2 ascending-dose trial evaluating tofersen in adults with ALS due to SOD1 mutations. In each dose cohort (20, 40, 60, or 100 mg), participants were randomly assigned in a 3:1 ratio to receive five doses of tofersen or placebo, administered intrathecally for 12 weeks. The primary outcomes were safety and pharmacokinetics. The secondary outcome was the change from baseline in the cerebrospinal fluid (CSF) SOD1 concentration at day 85. Clinical function and vital capacity were measured.\ud \ud \ud RESULTS\ud \ud A total of 50 participants underwent randomization and were included in the analyses; 48 participants received all five planned doses. Lumbar puncture–related adverse events were observed in most participants. Elevations in CSF white-cell count and protein were reported as adverse events in 4 and 5 participants, respectively, who received tofersen. Among participants who received tofersen, one died from pulmonary embolus on day 137, and one from respiratory failure on day 152; one participant in the placebo group died from respiratory failure on day 52. The difference at day 85 in the change from baseline in the CSF SOD1 concentration between the tofersen groups and the placebo group was 2 percentage points (95% confidence interval [CI], −18 to 27) for the 20-mg dose, −25 percentage points (95% CI, −40 to −5) for the 40-mg dose, −19 percentage points (95% CI, −35 to 2) for the 60-mg dose, and −33 percentage points (95% CI, −47 to −16) for the 100-mg dose.\ud \ud \ud CONCLUSIONS\ud \ud In adults with ALS due to SOD1 mutations, CSF SOD1 concentrations decreased at the highest concentration of tofersen administered intrathecally over a period of 12 weeks. CSF pleocytosis occurred in some participants receiving tofersen. Lumbar puncture–related adverse events were observed in most participants. (Funded by Biogen; ClinicalTrials.gov number, NCT02623699. opens in new tab; EudraCT number, 2015-004098-33. opens in new tab.)

Published
2020

47. Concurrent sodium channelopathies and amyotrophic lateral sclerosis supports shared pathogenesis

Author

Franklin, J.P., Cooper-Knock, J., Baheerathan, A., Moll, T., Männikkö, R., Heverin, M., Hardiman, O., Shaw, P.J., and Hanna, M.G.

Abstract

Amyotrophic lateral sclerosis (ALS) is an invariably fatal adult-onset neurodegenerative disorder; approximately 10% of ALS is monogenic but all ALS exhibits significant heritability. The skeletal muscle sodium channelopathies are a group of inherited, non-dystrophic ion channel disorders caused by heterozygous point mutations in the SCN4A gene, leading to clinical manifestations of congenital myotonia, paramyotonia, and periodic paralysis syndromes. We provide clinical and genetic evidence of concurrence of these two rare disorders which implies a possible shared underlying pathophysiology in two patients. We then identify an enrichment of ALS-associated mutations in another sodium channel, SCN7A, from whole genome sequencing data of 4495 ALS patients and 1925 controls passing multiple testing correction (67 variants, p = 0.0002, Firth logistic regression). These findings suggest dysfunctional sodium channels may play a role upstream in the pathogenesis of ALS in a subset of patients, potentially opening the door to novel personalized medicine approaches.

Published
2020

48. Neuropathological characterisation of a novel TBK1 loss of function mutation associated with amyotrophic lateral sclerosis

Author

Weinreich, M., Shepheard, S., Verber, N., Wyles, M., Heath, P.R., Highley, J.R., Kirby, J., and Shaw, P.J.

Abstract

Mutations in TANK binding kinase gene (TBK1) have been identified as causative in amyotrophic lateral sclerosis (ALS). Here, we examine the spectrum of TBK1 mutations in a cohort of ALS patients from Northern England, comparing missense and loss of function mutations with clinical phenotype. Analysis of 290 ALS cases identified seven variants, including one novel in-frame deletion (p.Ile85del). In silico analysis and review of the literature suggested that four variants, one nonsense mutation (p.Glu2Ter), two in-frame deletions (p.Ile85del, p.Glu643del) and one missense mutation (p.Gln565Pro) were pathogenic, whilst the remaining three missense mutations were variants of uncertain significance or benign. Post-mortem material was available from the patient with the novel in-frame deletion. Neuropathological examination established this individual had classical ALS pathology, with moderate phosphorylated TDP-43 neuronal and glial cytoplasmic inclusions in the motor cortex, skein-like inclusions in the lower motor neurons and “pre-inclusions” in the medulla. This corresponds to Type B FTLD-TDP pathology and is consistent with previously published literature on TBK1 mutants. In addition to demonstrating no changes in TBK1 staining, we are the first to show there was no differential expression of interferon regulatory factor IRF3, a downstream effector of TBK1 in the innate immunity pathway, in the TBK1-mutant tissue compared to controls. Comparison of clinical and neuropathological data, however, suggests that TBK1-ALS cases show classical ALS pathology but no specific phenotype.

Published
2020

49. Multi-dimensional electrical impedance myography of the tongue as a potential biomarker for amyotrophic lateral sclerosis

Author

Alix, J.J.P., McDonough, H.E., Sonbas, B., French, S.J., Rao, D.G., Kadirkamanathan, V., McDermott, C.J., Healey, T.J., and Shaw, P.J.

Abstract

Objective\ud In amyotrophic lateral sclerosis (ALS) bulbar disease biomarkers are lacking. We evaluated a novel tongue electrical impedance myography (EIM) system, utilising both 2D and 3D electrode configurations for detection of tongue pathology.\ud \ud Methods\ud Longitudinal multi-frequency phase angle spectra were recorded from 41 patients with ALS (baseline, 3 and 6 months) and 30 healthy volunteers (baseline and 6 months). ALS functional rating scale-revised (ALSFRS-R) data and quantitative tongue strength measurements were collected. EIM data were analysed for reliability (intra-class correlation coefficient; ICC) and differences between patients and volunteers ascertained using both univariate (Mann-Whitney U test) and multivariate techniques (feature selection and L2 norm).\ud \ud Results\ud The device produced highly reliable data (pooled ICC: 0.836). Significant EIM differences were apparent between ALS patients and healthy volunteers (P

Published
2020

50. Meta-analysis of genome-wide DNA methylation identifies shared associations across neurodegenerative disorders

Author

Nabais, M.F., Laws, S.M., Lin, T., Vallerga, C.L., Armstrong, N.J., Blair, I.P., Kwok, J.B., Mather, K.A., Mellick, G.D., Sachdev, P.S., Wallace, L., Henders, A.K., Zwamborn, R.A.J., Hop, P.J., Lunnon, K., Pishva, E., Roubroeks, J.A.Y., Soininen, H., Tsolaki, M., Mecocci, P., Lovestone, S., Kłoszewska, I., Vellas, B., Furlong, S., Garton, F.C., Henderson, R.D., Mathers, S., McCombe, P.A., Needham, M., Ngo, S.T., Nicholson, G., Pamphlett, R., Rowe, D.B., Steyn, F.J., Williams, K.L., Anderson, T.J., Bentley, S.R., Dalrymple-Alford, J., Fowder, J., Gratten, J., Halliday, G., Hickie, I.B., Kennedy, M., Lewis, S.J.G., Montgomery, G.W., Pearson, J., Pitcher, T.L., Silburn, P., Zhang, F., Visscher, P.M., Yang, J., Stevenson, A.J., Hillary, R.F., Marioni, R.E., Harris, S.E., Deary, I.J., Jones, A.R., Shatunov, A., Iacoangeli, A., van Rheenen, W., van den Berg, L.H., Shaw, P.J., Shaw, C.E., Morrison, K.E., Al-Chalabi, A., Veldink, J.H., Hannon, E., Mill, J., Wray, N.R., McRae, A.F., Nabais, M.F., Laws, S.M., Lin, T., Vallerga, C.L., Armstrong, N.J., Blair, I.P., Kwok, J.B., Mather, K.A., Mellick, G.D., Sachdev, P.S., Wallace, L., Henders, A.K., Zwamborn, R.A.J., Hop, P.J., Lunnon, K., Pishva, E., Roubroeks, J.A.Y., Soininen, H., Tsolaki, M., Mecocci, P., Lovestone, S., Kłoszewska, I., Vellas, B., Furlong, S., Garton, F.C., Henderson, R.D., Mathers, S., McCombe, P.A., Needham, M., Ngo, S.T., Nicholson, G., Pamphlett, R., Rowe, D.B., Steyn, F.J., Williams, K.L., Anderson, T.J., Bentley, S.R., Dalrymple-Alford, J., Fowder, J., Gratten, J., Halliday, G., Hickie, I.B., Kennedy, M., Lewis, S.J.G., Montgomery, G.W., Pearson, J., Pitcher, T.L., Silburn, P., Zhang, F., Visscher, P.M., Yang, J., Stevenson, A.J., Hillary, R.F., Marioni, R.E., Harris, S.E., Deary, I.J., Jones, A.R., Shatunov, A., Iacoangeli, A., van Rheenen, W., van den Berg, L.H., Shaw, P.J., Shaw, C.E., Morrison, K.E., Al-Chalabi, A., Veldink, J.H., Hannon, E., Mill, J., Wray, N.R., and McRae, A.F.

Abstract

Background People with neurodegenerative disorders show diverse clinical syndromes, genetic heterogeneity, and distinct brain pathological changes, but studies report overlap between these features. DNA methylation (DNAm) provides a way to explore this overlap and heterogeneity as it is determined by the combined effects of genetic variation and the environment. In this study, we aim to identify shared blood DNAm differences between controls and people with Alzheimer’s disease, amyotrophic lateral sclerosis, and Parkinson’s disease. Results We use a mixed-linear model method (MOMENT) that accounts for the effect of (un)known confounders, to test for the association of each DNAm site with each disorder. While only three probes are found to be genome-wide significant in each MOMENT association analysis of amyotrophic lateral sclerosis and Parkinson’s disease (and none with Alzheimer’s disease), a fixed-effects meta-analysis of the three disorders results in 12 genome-wide significant differentially methylated positions. Predicted immune cell-type proportions are disrupted across all neurodegenerative disorders. Protein inflammatory markers are correlated with profile sum-scores derived from disease-associated immune cell-type proportions in a healthy aging cohort. In contrast, they are not correlated with MOMENT DNAm-derived profile sum-scores, calculated using effect sizes of the 12 differentially methylated positions as weights. Conclusions We identify shared differentially methylated positions in whole blood between neurodegenerative disorders that point to shared pathogenic mechanisms. These shared differentially methylated positions may reflect causes or consequences of disease, but they are unlikely to reflect cell-type proportion differences.

Published
2021

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