ORCID Profile
0000-0001-5490-1697
Current Organisation
University of Oxford
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Publisher: Elsevier BV
Date: 10-2010
Publisher: Elsevier BV
Date: 03-2016
Publisher: Oxford University Press (OUP)
Date: 20-12-2005
DOI: 10.1093/HMG/DDI452
Abstract: Distal hereditary motor neuronopathies (dHMNs) are a clinically and genetically heterogeneous group of disorders in which motor neurons selectively undergo age-dependant degeneration. Mutations in the small heat-shock protein HSPB1 (HSP27) are responsible for one form of dHMN. In this study, we have analysed the effect of expressing a form of mutant HSPB1 in primary neuronal cells in culture. Mutant (P182L) but not wild-type HSPB1 led to the formation of insoluble intracellular aggregates and to the sequestration in the cytoplasm of selective cellular components, including neurofilament middle chain subunit (NF-M) and p150 dynactin. These findings suggest a possible pathogenic mechanism for HSPB1 whereby the mutation may lead to preferential motor neuron loss by disrupting selective components essential for axonal structure and transport.
Publisher: Springer Science and Business Media LLC
Date: 25-07-2016
DOI: 10.1038/NG.3626
Publisher: Hindawi Limited
Date: 11-10-2012
DOI: 10.1002/HUMU.22210
Publisher: JMIR Publications Inc.
Date: 18-01-2019
Abstract: bjective symptom monitoring of patients with Amyotrophic Lateral Sclerosis (ALS) has the potential to provide an important source of information to evaluate the impact of the disease on aspects of real-world functional capacity and activities of daily living in the home setting, providing useful objective outcome measures for clinical trials. his study aimed to investigate the feasibility of a novel digital platform for remote data collection of multiple symptoms—physical activity, heart rate variability (HRV), and digital speech characteristics—in 25 patients with ALS in an observational clinical trial setting to explore the impact of the devices on patients’ everyday life and to record tolerability related to the devices and study procedures over 48 weeks. n this exploratory, noncontrolled, nondrug study, patients attended a clinical site visit every 3 months to perform activity reference tasks while wearing a sensor, to conduct digital speech tests and for conventional ALS monitoring. In addition, patients wore the sensor in their daily life for approximately 3 days every month for the duration of the study. he amount and quality of digital speech data captured at the clinical sites were as intended, and there were no significant issues. All the home monitoring sensor data available were propagated through the system and were received as expected. However, the amount and quality of physical activity home monitoring data were lower than anticipated. A total of 3 or more days (or partial days) of data were recorded for 65% of protocol time points, with no data collected for 24% of time points. At baseline, 24 of 25 patients provided data, reduced to 13 of 18 patients at Week 48. Lower-than-expected quality HRV data were obtained, likely because of poor contact between the sensor and the skin. In total, 6 of 25 patients had mild or moderate adverse events (AEs) in the skin and subcutaneous tissue disorders category because of skin irritation caused by the electrode patch. There were no reports of serious AEs or deaths. Most patients found the sensor comfortable, with no or minimal impact on daily activities. he platform can measure physical activity in patients with ALS in their home environment patients used the equipment successfully, and it was generally well tolerated. The quantity of home monitoring physical activity data was lower than expected, although it was sufficient to allow investigation of novel physical activity end points. Good-quality in-clinic speech data were successfully captured for analysis. Future studies using objective patient monitoring approaches, combined with the most current technological advances, may be useful to elucidate novel digital biomarkers of disease progression.
Publisher: Wiley
Date: 10-2015
DOI: 10.1111/IMJ.12874
Abstract: Motor neuron disease (MND) is characterised by progressive neurological deterioration and coexistence of upper and lower motor neuron signs. Over the past decade, evidence has emerged of unique pathophysiological processes, including glutamate-mediated excitotoxicity, which has resulted in the development of novel diagnostic investigations and uncovered potential therapeutic targets. Advances in genetics, including the recently discovered C9orf72 gene, have radically changed the pathological mindset, from MND being classified as a neuromuscular disease to one that MND forms a continuum with other primary neurodegenerative disorders, including frontotemporal dementia. The present review will highlight the improvements that have occurred in clinical care, in conjunction with recent scientific developments.
Publisher: BMJ
Date: 22-01-2023
Abstract: Distal hereditary motor neuropathy, also known as distal spinal muscular atrophy, is characterised by slowly progressive weakness and wasting of the hands and feet and has a heterogeneous genetic basis. One form of distal hereditary motor neuropathy is associated with mutations in the gene for the small heat shock protein HSPB1 (hsp27). Families have been described in which slowly progressive, symmetrical, lower limb predominant motor weakness is usually evident by middle age. Here we report a novel mutation, G84R, in an elderly patient presenting with strikingly asymmetrical weakness. Expression of this and other known mutations in cell culture demonstrated enhanced aggregation of mutant HSPB1 protein compared with wild-type.
Publisher: Elsevier BV
Date: 11-2006
DOI: 10.1016/J.BBADIS.2006.04.003
Abstract: Hereditary disorders of voluntary motor neurons are in idually relatively uncommon, but have the potential to provide significant insights into motor neuron function in general and into the mechanisms underlying the more common form of sporadic Amyotrophic Lateral Sclerosis. Recently, mutations in a number of novel genes have been associated with Lower Motor Neuron (HSPB1, HSPB8, GARS, Dynactin), Upper Motor Neuron (Spastin, Atlastin, Paraplegin, HSP60, KIF5A, NIPA1) or mixed ALS-like phenotypes (Alsin, Senataxin, VAPB, BSCL2). In comparison to sporadic ALS these conditions are usually associated with slow progression, but as experience increases, a wide variation in clinical phenotype has become apparent. At the molecular level common themes are emerging that point to areas of specific vulnerability for motor neurons such as axonal transport, endosomal trafficking and RNA processing. We review the clinical and molecular features of this erse group of genetically determined conditions and consider the implications for the broad group of motor neuron diseases in general.
Publisher: Wiley
Date: 06-1999
Abstract: Spinal muscular atrophy is a common cause of disability in childhood and is characterized by weakness and wasting of voluntary muscle. It is frequently fatal. The gene for this disorder has been identified as the SMN gene and is part of a highly complex duplicated region of chromosome 5 that is subject to a high rate of gene deletion and gene conversion. The severity of muscle weakness correlates with the amount of full-length SMN protein produced. Molecular genetic studies support a model in which patients are compound heterozygotes of deleted and converted alleles that predicts a progressively decreasing amount of protein product with severity of muscle weakness. The function of SMN is beginning to be understood and it appears to be involved in ribonucleoprotein biogenesis and thus indirectly in post-transcriptional processing of mRNA. There are theoretical grounds for motor neurons having a cell-specific vulnerability to disturbances of mRNA processing and transport and these are briefly reviewed.
Publisher: Proceedings of the National Academy of Sciences
Date: 12-09-2016
Abstract: Splice-switching oligonucleotide (SSO) treatment in spinal muscular atrophy (SMA) has quickly become a clinical reality, but without an effective delivery system, the practicalities of delivering SSO therapy efficiently might preclude its widespread use. Our peptide-conjugated SSOs are being designed for clinical trials for the treatment of Duchenne muscular dystrophy. Here, we report advanced phosphorodiamidate oligomer (PMO) internalizing peptide (Pip) peptides that effectively deliver SSOs bodywide and at doses an order-of-magnitude lower than required by naked SSOs in a mouse model of SMA. Furthermore, our peptide-SSO is able to deliver to the CNS of adult mice. This study thus presents an oligonucleotide showing activity in the CNS following a systemic route with peptide delivery.
Publisher: Oxford University Press (OUP)
Date: 03-2007
DOI: 10.1016/J.TRSTMH.2006.09.005
Abstract: Murray Valley encephalitis (MVE) virus, a mosquito-borne flavivirus, is the most common cause of viral encephalitis in the tropical 'Top End' of northern Australia. Clinical encephalitis due to MVE virus has a mortality rate of approximately 30%, with a similar proportion of patients being left with significant neurological deficits. We report the case of a 25-year-old man from the UK who acquired MVE while travelling through northern Australia. He required prolonged admission to the Intensive Care Unit and several years later remains partly ventilator-dependent, with flaccid quadriparesis. To our knowledge, this is the first reported case of MVE virus-induced flaccid paralysis in an adult in northern Australia, although it is well described in children. Paralysis was thought to be due to anterior horn cell involvement in the spinal cord and extensive bilateral thalamic destruction, both of which are well recognised complications of infection with MVE virus. Cases of flaccid paralysis with similar pathology have been described following infection with the related flavivirus Japanese encephalitis virus as well as more recently with West Nile virus. Our case highlights the potential severity of flavivirus-induced encephalitis and the importance of avoiding mosquito bites while travelling through endemic areas.
Publisher: Elsevier BV
Date: 05-2008
DOI: 10.1016/J.PNEUROBIO.2008.01.001
Abstract: Gain-of-function mutations in the Cu,Zn-superoxide dismutase (SOD1) gene are implicated in progressive motor neuron death and paralysis in one form of inherited amyotrophic lateral sclerosis (ALS). At present, transgenic expression of 12 human SOD1 mutations driven by the endogenous promoter is disease-causative and uniformly lethal in mice and rats, despite tremendous biochemical and biophysical variation between the mutants tested. This contrasts with the subclinical motor neuron disease phenotypes of wild-type SOD1 transgenic and knockout mice. Molecular mechanisms such as glutamate-induced excitotoxicity, axonal transport blockade, mitochondrial dysfunction, neuroinflammation and apoptosis triggered by mutant SOD1 catalysed oxidative reactions and/or protein misfolding are proposed to drive ALS pathogenesis. Around 100 genetic cross-breeding experiments with transgenic mutant SOD1 mice have been performed to verify these mechanisms in vivo. Furthermore, mounting evidence from mice with cell restrictive, repressible or chimeric expression of mutant SOD1 transgenes and bone marrow transplants supports non-neuronal origins of neuroprotection in ALS. Transgenic mutant SOD1 rodents have also provided the benchmark preclinical tool for evaluation of over 150 potential therapeutic anti-oxidant, anti-aggregation, anti-glutamatergic, anti-inflammatory, anti-apoptotic and neurotrophic pharmacological agents. Recent promising findings from gene and antisense therapies, cell replacement and combinatorial drug approaches in transgenic mutant SOD1 rodents are also emerging, but await successful translation in patients. This review summarises the wealth of known genetic and therapeutic modifiers in rodent models with SOD1 mutations and discusses these in the wider context of ALS pathoetiology and treatment.
Publisher: SAGE Publications
Date: 05-02-2014
Abstract: Neuroinflammation has been identified as a potential therapeutic target in amyotrophic lateral sclerosis (ALS), but relevant biomarkers are needed. The superoxide dismutase (SOD1) G93A transgenic mouse model of ALS offers a unique opportunity to study and potentially manipulate presymptomatic pathology. While T 2 -weighted magnetic resonance imaging (MRI) has been shown to be sensitive to pathologic changes at symptom onset, no earlier biomarkers were previously identified and the underlying histopathologic correlates remain uncertain. To address these issues, we used a multimodal MRI approach targeting structural ( T 2 , T 2 , apparent diffusion coefficient (ADC), magnetization transfer ratio (MTR)), vascular (gadolinium diethylene triamine pentaacetic acid), and endothelial (vascular cell adhesion molecule-microparticles of iron oxide) changes, together with histopathologic analysis from presymptomatic to symptomatic stages of disease. Presymptomatic changes in brainstem nuclei were evident on T 2 -weighted images from as early as 60 days ( P .05). Histologic indices of vacuolation, astro- and microglial activation all correlated with T 2 -weighted changes. Significant reductions in ADC ( P .01) and MTR ( P .05) were found at 120 days in the same brainstem nuclei. No changes in T 1 relaxation, vascular permeability, or endothelial activation were found at any stage of disease. These findings suggest that T 2 -weighted MRI offers the strongest biomarker potential in this model, and that MRI has unique potential for noninvasive and longitudinal assessment of presymptomatically applied therapeutic and neuroprotective agents.
Publisher: Informa UK Limited
Date: 05-06-2014
DOI: 10.3109/21678421.2014.920033
Abstract: Mutations in the gene encoding the RNA-binding protein fused in sarcoma (FUS) account for 4 - 5% of familial cases of amyotrophic lateral sclerosis (ALS). We describe the identification and in vitro cellular characterization of a genetic mutation in a family in which the index case, and subsequently her two children, each developed rapidly progressive ALS at a young age and died within a year of onset. Exome capture and sequencing revealed a mutation in the FUS gene consisting of a 2-bp deletion, c.1509_1510delAG, resulting in a predicted truncated protein, p.G504Wfs * 12, lacking the nuclear localization signal. Expression of this mutation in HEK293 and NSC-34 cells demonstrated severe cytoplasmic mislocalization of mutant FUS, and colocalization with stress granules when compared to wild-type, R521C and P525L mutant FUS. This study provides further evidence of a broad correlation between clinical severity of FUS-related ALS and mislocalization of the protein to the cytoplasm.
Publisher: Oxford University Press (OUP)
Date: 15-12-2009
DOI: 10.1093/HMG/DDP550
Abstract: Mutant superoxide dismutase 1 (SOD1) action within non-neuronal cells is implicated in damage to spinal motor neurons in a genetic form of amyotrophic lateral sclerosis (ALS). Central nervous system glial cells such as astrocytes and microglia drive progression in transgenic mutant SOD1 mice, however, the role of myelinating glia remains unclear. Specifically, peripheral myelinating glial cells are likely candidates for mediating degeneration of distal synapses and axons of motor neurons in ALS. Here, we examine the potential contribution of peripheral axon ensheathing Schwann cells to ALS by constructing transgenic mice expressing dismutase active mutant SOD1(G93A) driven by the myelin protein zero (P0) promoter. In this model, mutant SOD1 accumulation in Schwann cells was comparable to levels in mice ubiquitously expressing a SOD1(G93A) transgene that become paralysed. Growth, locomotion and survival of these P0-SOD1(G93A) mice were indistinguishable from normal animals. There was no evidence for spinal motor neuron loss, distal axonal degeneration and p75 neurotrophin receptor (p75(NTR)) upregulation in the periphery of P0-SOD1(G93A) mice, unlike transgenic SOD1(G93A) mice with presymptomatic p75(NTR) induction and death-signalling. Furthermore, Schwann cells were resistant to mutant SOD1 aggregation in vivo and in transfected primary cultures. Increasing mutant SOD1 synthesis in Schwann cells by cross-breeding transgenic P0-SOD1(G93A) and SOD1(G93A) mice did not affect disease onset or survival. We conclude that dismutase-competent mutant SOD1 accumulation within Schwann cells is not pathological to spinal motor neurons or deleterious to disease course in transgenic ALS model mice, in contrast to astrocytes and microglia.
Publisher: Hindawi Limited
Date: 18-02-2014
DOI: 10.1002/HUMU.22527
Publisher: Elsevier BV
Date: 04-2014
Publisher: BMJ
Date: 26-07-2018
Abstract: The thalamus is a major neural hub, with selective connections to virtually all cortical regions of the brain. The multisystem neurodegenerative syndrome amyotrophic lateral sclerosis (ALS) has pathogenic overlap with frontotemporal dementia, and objective in vivo markers of extra-motor pathological spread are lacking. To better consider the role of the thalamus in neurodegeneration, the present study assessed the integrity of the thalamus and its connectivity to major cortical regions of the brain in a longitudinal manner. Diffusion-based MRI tractography was used to parcellate the thalamus into distinct regions based on structural thalamo-cortical connectivity in 20 patients with ALS, half of whom were scanned at two time points, and 31 matched controls scanned on a single occasion. At baseline, widespread diffusivity alterations in motor- and extramotor-associated thalamic parcellations were detectable. Longitudinal decline selectively affected thalamic regions associated with frontal and temporal lobe connectivity. Diffusivity measures were significantly correlated with clinical measures of disease burden. Progression of functional disability, as indicated by change on the ALS functional rating scale, was associated with longitudinal change in mean diffusivity of the right frontal lobe thalamic parcellation (r=0.59, p=0.05). Regional thalamic connectivity changes mirror the progressive frontotemporal cortical involvement associated with the motor functional decline in ALS. Longitudinal MRI thalamic parcellation has potential as a non-invasive surrogate marker of cortical dysfunction in ALS.
Publisher: BMJ
Date: 22-06-2017
Publisher: Springer Science and Business Media LLC
Date: 28-10-2008
Abstract: Redistribution of nuclear TAR DNA binding protein 43 (TDP-43) to the cytoplasm and ubiquitinated inclusions of spinal motor neurons and glial cells is characteristic of amyotrophic lateral sclerosis (ALS) pathology. Recent evidence suggests that TDP-43 pathology is common to sporadic ALS and familial ALS without SOD1 mutation, but not SOD1-related fALS cases. Furthermore, it remains unclear whether TDP-43 abnormalities occur in non-ALS forms of motor neuron disease. Here, we characterise TDP-43 localisation, expression levels and post-translational modifications in mouse models of ALS and spinal muscular atrophy (SMA). TDP-43 mislocalisation to ubiquitinated inclusions or cytoplasm was notably lacking in anterior horn cells from transgenic mutant SOD1 G93A mice. In addition, abnormally phosphorylated or truncated TDP-43 species were not detected in fractionated ALS mouse spinal cord or brain. Despite partial colocalisation of TDP-43 with SMN, depletion of SMN- and coilin-positive Cajal bodies in motor neurons of affected SMA mice did not alter nuclear TDP-43 distribution, expression or biochemistry in spinal cords. These results emphasise that TDP-43 pathology characteristic of human sporadic ALS is not a core component of the neurodegenerative mechanisms caused by SOD1 mutation or SMN deficiency in mouse models of ALS and SMA, respectively.
Publisher: Wiley
Date: 29-05-2007
DOI: 10.1016/J.FEBSLET.2007.05.046
Abstract: Dominant mutations in the ubiquitous enzyme glycyl-tRNA synthetase (GlyRS), including S581L, lead to motor nerve degeneration. We have determined crystal structures of wildtype and S581L-mutant human GlyRS. The S581L mutation is approximately 50A from the active site, and yet gives reduced aminoacylation activity. The overall structures of wildtype and S581L-GlyRS, including the active site, are very similar. However, residues 567-575 of the anticodon-binding domain shift position and in turn could indirectly affect glycine binding via the tRNA or alternatively inhibit conformational changes. Reduced enzyme activity may underlie neuronal degeneration, although a dominant-negative effect is more likely in this autosomal dominant disorder.
Publisher: Wiley
Date: 06-01-2014
DOI: 10.1002/MDS.25748
Publisher: Informa UK Limited
Date: 23-06-2020
Publisher: Elsevier BV
Date: 06-2009
DOI: 10.1016/J.NBD.2009.03.005
Abstract: Mutations in the ubiquitously expressed survival motor neuron 1 (SMN1) and superoxide dismutase 1 (SOD1) genes are selectively lethal to motor neurons in spinal muscular atrophy (SMA) and familial amyotrophic lateral sclerosis (ALS), respectively. Genetic association studies provide compelling evidence that SMN1 and SMN2 genotypes encoding lower SMN protein levels are implicated in sporadic ALS, suggesting that SMN expression is a potential determinant of ALS severity. We therefore sought genetic evidence of SMN involvement in ALS by generating transgenic mutant SOD1 mice on an Smn deficient background. Partial genetic disruption of Smn significantly worsened motor performance and survival in transgenic SOD1(G93A) mice. Furthermore, ALS-linked mutant SOD1 expression severely reduced SMN protein levels, but not transcript, in neuronal culture and mouse models from early presymptomatic disease. SMN protein depletion was linked to the nuclear compartment and a physical interaction between SMN and mutant SOD1 was confirmed in mouse spinal cord. Treatment with the environmental toxin paraquat also depleted SMN protein, implicating oxidative stress in the mechanism underlying SMN deficiency in familial ALS and potentially sporadic disease. In contrast, transgenic SOD1(WT) overexpression in SMA type I mice was incapable of modulating SMN protein levels or disease progression. These data establish that SMN deficiency accelerates phenotypic severity in transgenic familial ALS mice, consistent with an enhancing genetic modifier role. We therefore propose that SMN replacement and upregulation strategies considered for SMA therapy may have protective potential for ALS.
Publisher: American Association for the Advancement of Science (AAAS)
Date: 03-05-2017
DOI: 10.1126/SCITRANSLMED.AAD9157
Abstract: Annexin A11 mutations, implicated in ALS, prevent binding to calcyclin and induce the formation of cytoplasmic inclusions.
Publisher: Cold Spring Harbor Laboratory
Date: 09-10-2018
DOI: 10.1101/438812
Abstract: Amyotrophic lateral sclerosis (ALS) is a fatal, progressive neurodegenerative disease resulting from a complex interplay between genetics and environment. Impairments in the basic neuronal process of axonal transport have been identified in several ALS models. However, in vivo evidence of early re-symptomatic deficiencies in neuronal cargo trafficking remains limited, thus the pathogenic importance of axonal transport to the ALS disease spectrum remains to be fully resolved. We therefore analysed the in vivo dynamics of retrogradely transported, neurotrophin-containing signalling endosomes in motor neuron axons of two new mouse models of ALS that have mutations in different RNA processing genes ( Tardbp and Fus ). TDP-43 M337V mice, which show neuromuscular pathology but no overt motor neuron loss, displayed in vivo perturbations in axonal transport that manifested between 1.5 and 3 months and preceded motor symptom onset. In contrast, signalling endosome transport remained largely unaffected in mutant Fus Δ14/+ mice, despite 20% motor neuron loss. These findings indicate that deficiencies in retrograde neurotrophin signalling and axonal transport are not common to all ALS-linked genes, and that there are inherent and mechanistic distinctions in the pathogenesis of ALS caused by mutations in different RNA processing genes.
Publisher: Springer Science and Business Media LLC
Date: 24-01-2017
DOI: 10.1038/SREP41188
Abstract: Parkinson’s disease (PD) is the most common neurodegenerative movement disorder, affecting 1% of the population over 65 years characterized clinically by both motor and non-motor symptoms accompanied by the preferential loss of dopamine neurons in the substantia nigra pars compacta. Here, we sequenced the exomes of 244 Parkinson’s patients selected from the Oxford Parkinson’s Disease Centre Discovery Cohort and, after quality control, 228 exomes were available for analyses. The PD patient exomes were compared to 884 control exomes selected from the UK10K datasets. No single non-synonymous (NS) single nucleotide variant (SNV) nor any gene carrying a higher burden of NS SNVs was significantly associated with PD status after multiple-testing correction. However, significant enrichments of genes whose proteins have roles in the extracellular matrix were amongst the top 300 genes with the most significantly associated NS SNVs, while regions associated with PD by a recent Genome Wide Association (GWA) study were enriched in genes containing PD-associated NS SNVs. By examining genes within GWA regions possessing rare PD-associated SNVs, we identified RAD51B . The protein-product of RAD51B interacts with that of its paralogue RAD51 , which is associated with congenital mirror movements phenotypes, a phenotype also comorbid with PD.
Publisher: Elsevier BV
Date: 03-2018
Publisher: Hindawi Limited
Date: 09-11-2011
DOI: 10.1002/HUMU.21635
Publisher: Ovid Technologies (Wolters Kluwer Health)
Date: 13-11-2006
DOI: 10.1212/01.WNL.0000242619.52335.BC
Abstract: We screened 100 patients with inherited and sporadic lower motor neuron degeneration and identified three novel missense mutations in the glycyl-tRNA synthetase (GARS) gene. One mutation was in the anticodon binding domain and associated with onset in early childhood and predominant involvement of the lower limbs, thus extending the phenotype associated with GARS mutations.
Publisher: Elsevier BV
Date: 11-2018
Publisher: JMIR Publications Inc.
Date: 20-12-2019
DOI: 10.2196/13433
Abstract: Objective symptom monitoring of patients with Amyotrophic Lateral Sclerosis (ALS) has the potential to provide an important source of information to evaluate the impact of the disease on aspects of real-world functional capacity and activities of daily living in the home setting, providing useful objective outcome measures for clinical trials. This study aimed to investigate the feasibility of a novel digital platform for remote data collection of multiple symptoms—physical activity, heart rate variability (HRV), and digital speech characteristics—in 25 patients with ALS in an observational clinical trial setting to explore the impact of the devices on patients’ everyday life and to record tolerability related to the devices and study procedures over 48 weeks. In this exploratory, noncontrolled, nondrug study, patients attended a clinical site visit every 3 months to perform activity reference tasks while wearing a sensor, to conduct digital speech tests and for conventional ALS monitoring. In addition, patients wore the sensor in their daily life for approximately 3 days every month for the duration of the study. The amount and quality of digital speech data captured at the clinical sites were as intended, and there were no significant issues. All the home monitoring sensor data available were propagated through the system and were received as expected. However, the amount and quality of physical activity home monitoring data were lower than anticipated. A total of 3 or more days (or partial days) of data were recorded for 65% of protocol time points, with no data collected for 24% of time points. At baseline, 24 of 25 patients provided data, reduced to 13 of 18 patients at Week 48. Lower-than-expected quality HRV data were obtained, likely because of poor contact between the sensor and the skin. In total, 6 of 25 patients had mild or moderate adverse events (AEs) in the skin and subcutaneous tissue disorders category because of skin irritation caused by the electrode patch. There were no reports of serious AEs or deaths. Most patients found the sensor comfortable, with no or minimal impact on daily activities. The platform can measure physical activity in patients with ALS in their home environment patients used the equipment successfully, and it was generally well tolerated. The quantity of home monitoring physical activity data was lower than expected, although it was sufficient to allow investigation of novel physical activity end points. Good-quality in-clinic speech data were successfully captured for analysis. Future studies using objective patient monitoring approaches, combined with the most current technological advances, may be useful to elucidate novel digital biomarkers of disease progression.
Publisher: BMJ
Date: 04-04-2014
Publisher: Elsevier BV
Date: 2009
Publisher: Wiley
Date: 03-11-2011
DOI: 10.1111/J.1471-4159.2011.07521.X
Abstract: HspB8, a small heat-shock protein implicated in autophagy, is mutated in patients with distal hereditary motor neuropathy type II (dHMNII). Autophagy is essential for maintaining protein homeostasis in the central nervous system, but its role has not been investigated in peripheral motor neurons. We used a novel, multispectral-imaging flow cytometry assay to measure autophagy in cells. This assay revealed that over-expression of wild-type HspB8 in motor neuron-like NSC34 cells led to an increased co-localisation of autophagosomes with the lysosomes. By contrast, over-expression of mutant HspB8 resulted in autophagosomes that co-localised with protein aggregates but failed to co-localise with the lysosomes. A similar impairment of autophagy could also be demonstrated in peripheral blood mononuclear cells from two dHMNII patients with the HspB8(K141E) mutation. We conclude that defects in HspB8-mediated autophagy are likely to contribute to dHMNII pathology and their detection in peripheral blood mononuclear cells could be a useful, accessible biomarker for the disease.
Publisher: Wiley
Date: 16-07-2013
DOI: 10.1002/HBM.22282
Publisher: Informa UK Limited
Date: 21-01-2019
DOI: 10.1080/21678421.2018.1562554
Abstract: The cerebellum shows neuropathological change in a number of neurodegenerative conditions where clinical involvement is not the primary feature, including amyotrophic lateral sclerosis (ALS). Whether these changes are associated with disruption to the direct cerebellar tract pathways to the motor cortex and spinal cord in ALS is uncertain. Diffusion tensor imaging was used to examine the integrity of two primary cerebellar pathways, the dentato-rubro-thalamo-cortical (DRTC) and spino-cerebellar (SC) tracts. ALS patients with an upper motor neuron (UMN)-predominant phenotype (
Publisher: Springer Science and Business Media LLC
Date: 07-10-2014
DOI: 10.1038/MP.2014.107
Publisher: Springer Science and Business Media LLC
Date: 18-12-2020
Publisher: Elsevier BV
Date: 05-2018
Publisher: Elsevier BV
Date: 10-2014
Publisher: American Association for the Advancement of Science (AAAS)
Date: 27-03-2015
Abstract: Amyotrophic lateral sclerosis (ALS), often referred to as “Lou Gehrig's disease,” is a progressive neurodegenerative disease that affects nerve cells in the brain and the spinal cord. Cirulli et al. sequenced the expressed genes of nearly 3000 ALS patients and compared them with those of more than 6000 controls (see the Perspective by Singleton and Traynor). They identified several proteins that were linked to disease in patients. One such protein, TBK1, is implicated in innate immunity and autophagy and may represent a therapeutic target. Science , this issue p. 1436 see also p. 1422
Publisher: Elsevier BV
Date: 03-2013
Location: United Kingdom of Great Britain and Northern Ireland
Start Date: 2016
End Date: 2018
Funder: National Health and Medical Research Council
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