Matthew A. Tremblay scite author profile

Disability measures in multiple sclerosis (MS) rely heavily on ambulatory function, and current metrics fail to capture potentially important variability in walking behavior. We sought to determine whether remote step count monitoring using a consumer-friendly accelerometer (Fitbit Flex) can enhance MS disability assessment. 99 adults with relapsing or progressive MS able to walk C2-min were prospectively recruited. At 4 weeks, study retention was 97% and median Fitbit use was 97% of days. Substudy validation resulted in high interclass correlations between Fitbit, ActiGraph and manual step count tally during a 2-minute walk test, and between Fitbit and ActiGraph (ICC = 0.76) during 7-day home monitoring. Over 4 weeks of continuous monitoring, daily steps were lower in progressive versus relapsing MS (mean difference 2546 steps, p \ 0.01). Lower average daily step count was associated with greater disability on the Expanded Disability Status Scale (EDSS) (p \ 0.001). Within each EDSS category, substantial variability in step count was apparent (i.e., EDSS = 6.0 range 1097–7152). Step count demonstrated moderate-strong correlations with other walking measures. Lower average daily step count is associated with greater MS disability and captures important variability in real-world walking activity otherwise masked by standard disability scales, including the EDSS. These results support remote step count monitoring as an exploratory outcome in MS trials.

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Tau Phosphorylated at Tyrosine 394 is Found in Alzheimer's Disease Tangles and can be a Product of the Abl-Related Kinase, Arg

Tremblay

Acker

Davies

2010

JAD

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Tau is a microtubule-associated protein and a main component of neurofibrillary tangles, one of the pathologic hallmarks of Alzheimer's disease. The paired helical filaments (PHF) that comprise neurofibrillary tangles contain an abnormally hyperphosphorylated form of tau. Historically, most of the tau phosphorylation sites that have been characterized are serine and threonine residues. Recent reports state that tau can be phosphorylated at tyrosine residues by kinases including Fyn, Syk, and c-abl (Abl). Proteomic analyses show that tau phosphorylated at tyrosine 394 (Y394) exists within PHF samples taken from Alzheimer's disease brains. This study also confirms phosphorylation of Y394 as an Alzheimer's disease-specific event by immunohistochemistry. To date, only Abl is known to phosphorylate this particular site on tau. We report, for the first time, that Arg, the other member of the Abl family of tyrosine kinases, also phosphorylates tau at Y394 in a manner independent of Abl activity. Given the reported role of Arg in oxidative stress response and neural development, the ability to phosphorylate tau at Y394 implicates Arg as a potential player in the pathogenesis of Alzheimer's disease and other tauopathies.

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Neuronal c-Abl Overexpression Leads to Neuronal Loss and Neuroinflammation in the Mouse Forebrain

Schlatterer

Tremblay

Acker

et al. 2011

JAD

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Several immunocytochemical studies have revealed that Abelson tyrosine kinase (c-Abl) is associated with both neuritic plaques and neurofibrillary tangles in the brains of patients with Alzheimer’s disease (AD). Additionally, c-Abl has been shown to phosphorylate tau on tyrosine 394. The activity of c-Abl is also involved in the control of the cell cycle and apoptosis. To examine the consequences of c-Abl activation in the adult brain, we have constructed two lines of transgenic mice expressing either a constitutively active form of c-Abl (AblPP/tTA mice) or its sister protein, Arg (ArgPP/tTA mice), with a neuron-specific promoter (CamKIIα) regulated by doxycycline (Tet-Off). Expression of active c-Abl in adult mouse forebrain neurons results in severe neurodegeneration, particularly in the CA1 region of the hippocampus. Neuronal loss was preceded and accompanied by substantial microgliosis and astrocyctosis. Despite careful examination, no c-Abl expression is found in glial cells, indicating that neuronal c-Abl expression is responsible for the gliosis. In contrast, ArgPP/tTA mice have no evidence of neuronal loss or gliosis, even though protein expression and kinase activity levels are similar to those in the AblPP/tTA mice. Given the evidence of c-Abl activation in the human AD brain combined with the pathological phenotype of AblPP/tTA mice, it is likely that aberrant c-Abl activity may play a role in neurodegenerative disease.

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Advances in the Treatment of Neuromyelitis Optica Spectrum Disorder

Wallach

Tremblay

Kister³

2021

Neurologic Clinics

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Harnessing electronic medical records to advance research on multiple sclerosis

et al. 2018

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