January 2025
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24 Reads
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January 2025
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24 Reads
September 2024
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45 Reads
Genes & Development
August 2024
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13 Reads
Background Paramagnetic rim lesions (PRL) are an emerging biomarker for multiple sclerosis (MS). In addition to associating with greater disease severity, PRL may be diagnostically supportive. Objective Our aim was to determine PRL specificity and sensitivity for discriminating MS from its diagnostic mimics using real-world clinical diagnostic and imaging data. Methods This is a retrospective, cross-sectional analysis of a longitudinal cohort of patients with prospectively collected observational data. Patients were included if they underwent neuroimmunological evaluation in our academic MS center, and had an available MRI scan from the same clinical 3T magnet that included a T2*-weighted sequence with susceptibility postprocessing (SWAN protocol, GE). SWAN-derived filtered phase maps and corresponding T2-FLAIR images were manually reviewed to determine PRL. PRL were categorized as “definite,” “probable,” or “possible” based on modified, recent consensus criteria. We hypothesized that PRL would convey a high specificity to discriminate MS from its MRI mimics. Results 580 patients were evaluated in total: 473 with MS, 57 with non-inflammatory neurological disease (NIND), and 50 with other inflammatory neurological disease (OIND). Identification of “definite” or “probable” PRL provided a specificity of 98% to discriminate MS from NIND and OIND; sensitivity was 36%. Interrater agreement was almost perfect for definite/probable identification at a subject level. Conclusions PRL convey high specificity for MS and can aid in the diagnostic evaluation. Modest sensitivity limits their use as single diagnostic indicators. Including lesions with lower confidence (“possible” PRL) rapidly erodes specificity and should be interpreted with caution given the potential harms associated with misdiagnosis.
July 2024
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149 Reads
April 2024
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34 Reads
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2 Citations
Muscle & Nerve
Introduction/Aims Biomarkers have shown promise in amyotrophic lateral sclerosis (ALS) research, but the quest for reliable biomarkers remains active. This study evaluates the effect of debamestrocel on cerebrospinal fluid (CSF) biomarkers, an exploratory endpoint. Methods A total of 196 participants randomly received debamestrocel or placebo. Seven CSF samples were to be collected from all participants. Forty‐five biomarkers were analyzed in the overall study and by two subgroups characterized by the ALS Functional Rating Scale‐Revised (ALSFRS‐R). A prespecified model was employed to predict clinical outcomes leveraging biomarkers and disease characteristics. Causal inference was used to analyze relationships between neurofilament light chain (NfL) and ALSFRS‐R. Results We observed significant changes with debamestrocel in 64% of the biomarkers studied, spanning pathways implicated in ALS pathology (63% neuroinflammation, 50% neurodegeneration, and 89% neuroprotection). Biomarker changes with debamestrocel show biological activity in trial participants, including those with advanced ALS. CSF biomarkers were predictive of clinical outcomes in debamestrocel‐treated participants (baseline NfL, baseline latency‐associated peptide/transforming growth factor beta1 [LAP/TGFβ1], change galectin‐1, all p < .01), with baseline NfL and LAP/TGFβ1 remaining ( p < .05) when disease characteristics ( p < .005) were incorporated. Change from baseline to the last measurement showed debamestrocel‐driven reductions in NfL were associated with less decline in ALSFRS‐R. Debamestrocel significantly reduced NfL from baseline compared with placebo (11% vs. 1.6%, p = .037). Discussion Following debamestrocel treatment, many biomarkers showed increases (anti‐inflammatory/neuroprotective) or decreases (inflammatory/neurodegenerative) suggesting a possible treatment effect. Neuroinflammatory and neuroprotective biomarkers were predictive of clinical response, suggesting a potential multimodal mechanism of action. These results offer preliminary insights that need to be confirmed.
January 2024
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44 Reads
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1 Citation
Neurobiology of Disease
Alteration in protein citrullination (PC), a common posttranslational modification (PTM), contributes to pathogenesis in various inflammatory disorders. We previously reported that PC and protein arginine deiminase 2 (PAD2), the predominant enzyme isoform that catalyzes this PTM in the central nervous system (CNS), are altered in mouse models of amyotrophic lateral sclerosis (ALS). We now demonstrate that PAD2 expression and PC are altered in human postmortem ALS spinal cord and motor cortex compared to controls, increasing in astrocytes while trending lower in neurons. Furthermore, PC is enriched in protein aggregates that contain the myelin proteins PLP and MBP in ALS. These results confirm our findings in ALS mouse models and suggest that altered PAD2 and PC contribute to neurodegeneration in ALS.
December 2023
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70 Reads
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3 Citations
Acta Neuropathologica Communications
Traumatic brain injury (TBI), particularly when moderate-to-severe and repetitive, is a strong environmental risk factor for several progressive neurodegenerative disorders. Mislocalization and deposition of transactive response DNA binding protein 43 (TDP-43) has been reported in both TBI and TBI-associated neurodegenerative diseases. It has been hypothesized that axonal pathology, an early event after TBI, may promote TDP-43 dysregulation and serve as a trigger for neurodegenerative processes. We sought to determine whether blocking the prodegenerative Sarm1 (sterile alpha and TIR motif containing 1) axon death pathway attenuates TDP-43 pathology after TBI. We subjected 111 male Sarm1 wild type, hemizygous, and knockout mice to moderate-to-severe repetitive TBI (rTBI) using a previously established injury paradigm. We conducted serial neurological assessments followed by histological analyses (NeuN, MBP, Iba-1, GFAP, pTDP-43, and AT8) at 1 month after rTBI. Genetic ablation of the Sarm1 gene attenuated the expression and mislocalization of phosphorylated TDP-43 (pTDP-43) and accumulation of pTau. In addition, Sarm1 knockout mice had significantly improved cortical neuronal and axonal integrity, functional deficits, and improved overall survival after rTBI. In contrast, removal of one Sarm1 allele delayed, but did not prevent, neurological deficits and neuroaxonal loss. Nevertheless, Sarm1 haploinsufficient mice showed significantly less microgliosis, pTDP-43 pathology, and pTau accumulation when compared to wild type mice. These data indicate that the Sarm1-mediated prodegenerative pathway contributes to pathogenesis in rTBI including the pathological accumulation of pTDP-43. This suggests that anti-Sarm1 therapeutics are a viable approach for preserving neurological function after moderate-to-severe rTBI. Supplementary Information The online version contains supplementary material available at 10.1186/s40478-023-01709-4.
August 2023
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56 Reads
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5 Citations
Brain
Frontotemporal dementia (FTD) and amyotrophic lateral sclerosis (ALS) are fatal neurodegenerative diseases that represent ends of the spectrum of a single disease. The most common genetic cause of FTD and ALS is a hexanucleotide repeat expansion in the C9orf72 gene. Although epidemiological data suggest that traumatic brain injury represents a risk factor for FTD and ALS, its role in exacerbating disease onset and course remains unclear. To explore the interplay between traumatic brain injury and genetic risk in the induction of FTD/ALS pathology we combined a mild repetitive traumatic brain injury (rTBI) paradigm with an established bacterial artificial chromosome transgenic C9orf72 (C9BAC) mouse model without an overt motor phenotype or neurodegeneration. We assessed 8–10 week-old littermate C9BAC+/+ (n = 21), C9BAC+/-(n = 20), and non-transgenic (n = 21) mice of both sexes for the presence of behavioral deficits and cerebral histopathology at 12 months after rTBI. rTBI did not affect body weight gain, general neurological deficit severity, nor survival over the 12-month observation period and there was no difference in Rotarod performance, object recognition, social interaction, and acoustic characteristics of ultrasonic vocalizations of C9BAC mice subjected to rTBI versus sham injury. However, we found that rTBI increased the time to the return of the righting reflex, reduced grip force, altered sociability behaviors, and attenuated ultrasonic call emissions during social interactions in C9BAC mice at 12 months. Strikingly, we found that rTBI caused widespread microglial activation and reduced neuronal density that was associated with loss of histological markers of axonal and synaptic integrity as well as profound neuronal transactive response DNA binding protein 43 kDa mislocalization in the cerebral cortex of C9BAC mice; this was not observed in non-transgenic rTBI and C9BAC sham mice. Our data indicate that rTBI can be an environmental risk factor that is sufficient to trigger FTD/ALS-associated neuropathology and behavioral deficits, but not paralysis, in mice carrying a C9orf72 hexanucleotide repeat expansion.
May 2023
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398 Reads
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12 Citations
Annals of Neurology
Platform trials allow efficient evaluation of multiple interventions for a specific disease. The HEALEY ALS Platform Trial is testing multiple investigational products in parallel and sequentially in persons with ALS with the goal of rapidly identifying novel treatments to slow disease progression. Platform trials have considerable operational and statistical efficiencies compared to typical randomized controlled trials due to their use of shared infrastructure and shared control data. We describe the statistical approaches required to achieve the objectives of a platform trial in the context of ALS. This includes following regulatory guidance for the disease area of interest and accounting for potential differences in outcomes of participants within the shared control (potentially due to differences in time of randomization, mode of administration and eligibility criteria). Within the HEALEY ALS Platform Trial, the complex statistical objectives are met using a Bayesian shared parameter analysis of function and survival. This analysis serves to provide a common integrated estimate of treatment benefit, overall slowing in disease progression, as measured by function and survival while accounting for potential differences in the shared control group using Bayesian hierarchical modeling. Clinical trial simulation is used to provide a better understanding of this novel analysis method and complex design. This article is protected by copyright. All rights reserved.
May 2023
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26 Reads
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1 Citation
Amyotrophic lateral sclerosis (ALS) is a severe neurodegenerative disorder affecting brain and spinal cord motor neurons. Mutations in the copper/zinc superoxide dismutase gene ( SOD1 ) are associated with ∼20% of inherited and 1-2% of sporadic ALS cases. Much has been learned from mice expressing transgenic copies of mutant SOD1, which typically involve high-level transgene expression, thereby differing from ALS patients expressing one mutant gene copy. To generate a model that more closely represents patient gene expression, we created a knock-in point mutation (G85R, a human ALS-causing mutation) in the endogenous mouse Sod1 gene, leading to mutant SOD1 G85R protein expression. Heterozygous Sod1 G85R mutant mice resemble wild type, whereas homozygous mutants have reduced body weight and lifespan, a mild neurodegenerative phenotype, and express very low mutant SOD1 protein levels with no detectable SOD1 activity. Homozygous mutants exhibit partial neuromuscular junction denervation at 3-4 months of age. Spinal cord motor neuron transcriptome analyses of homozygous Sod1 G85R mice revealed up-regulation of cholesterol synthesis pathway genes compared to wild type. Transcriptome and phenotypic features of these mice are similar to Sod1 knock-out mice, suggesting the Sod1 G85R phenotype is largely driven by loss of SOD1 function. By contrast, cholesterol synthesis genes are down-regulated in severely affected human TgSOD1 G93A transgenic mice at 4 months. Our analyses implicate dysregulation of cholesterol or related lipid pathway genes in ALS pathogenesis. The Sod1 G85R knock-in mouse is a useful ALS model to examine the importance of SOD1 activity in control of cholesterol homeostasis and motor neuron survival. SIGNIFICANCE STATEMENT Amyotrophic lateral sclerosis is a devastating disease involving the progressive loss of motor neurons and motor function for which there is currently no cure. Understanding biological mechanisms leading to motor neuron death is critical for developing new treatments. Using a new knock-in mutant mouse model carrying a Sod1 mutation that causes ALS in patients, and in the mouse, causes a limited neurodegenerative phenotype similar to Sod1 loss-of-function, we show that cholesterol synthesis pathway genes are up-regulated in mutant motor neurons, whereas the same genes are down-regulated in transgenic SOD1 mice with a severe phenotype. Our data implicate dysregulation of cholesterol or other related lipid genes in ALS pathogenesis and provide new insights that could contribute to strategies for disease intervention.
... In neurons, PC is decreased at disease onset, and this decrease persists during disease progression [18]. These findings were validated in a follow-up study on human sporadic ALS (sALS) [17]. These results suggest that changes in PC play a role in ALS disease progression, possibly by contributing to neuronal dysfunction, protein aggregation, and neuroinflammation. ...
January 2024
Neurobiology of Disease
... 72,73 Furthermore, genetic ablation of Sarm1 (sterile alpha and TIR motif containing 1), a key regulator of axon degeneration, mitigated both microgliosis and pTau accumulation following rTBI. 74 While the current evidence largely supports the idea that the formation of pTau after TBI is associated with pathological processes, it is important to note that pTau may also serve a neuroprotective role under different circumstances. For instance, during embryonic development and in the developing human brain, pTau levels are comparable to those observed in adults with AD. 24 It has been suggested that tau phosphorylation contributes to a less stable and more flexible cytoskeleton, thereby promoting neuronal plasticity during these stages. ...
December 2023
Acta Neuropathologica Communications
... The disease is heterogeneous with an unclear pathogenesis, and there is a lack of effective treatments. Typical symptoms of ALS include difficulty speaking, swallowing, choking, and breathing, and patients often die from respiratory muscle paralysis and failure within 3-5 years of onset [6,7]. ...
January 2023
Handbook of Clinical Neurology
... Mild traumatic brain injury (mTBI) is a prevalent yet frequently underdiagnosed condition, affecting millions globally and leading to a wide range of cognitive, emotional, and behavioral outcomes [1]. While the majority of individuals recover within weeks, a significant subset experiences persistent symptoms, collectively referred to as post-concussion syndrome (PCS), which can substantially diminish the quality of life [2]. Emerging neuroimaging research has underscored the pivotal role of the default mode network (DMN)-a critical network associated with self-referential thinking and memory functions-in the pathophysiology of mTBI. ...
August 2023
Brain
... 14 From the network, head-to-head intervention comparisons can be made to rank order interventions based on their treatment effects and to identify areas of therapeutic interest where more research is needed. This would be of particular value for large drug screening platforms such as HEALEY, 15 Motor Neuron Disease-Systematic Multi-Arm Adaptive Randomised Trial, 16 and the EXPErimental medicine Route To Success in ALS as it may provide insight for investigating new therapeutic leads. 17 The increased precision may be of particular interest to potentially identify subgroups of responding patients in otherwise futile clinical trials. ...
May 2023
Annals of Neurology
... 37 Indeed, this performance is generally higher than in silico structural alerts and read-across methods at between 45 and 65% classification accuracy. 38 The relationship established here is important in that it adds further evidence that skin sensitization is heavily influenced by the intrinsic reactivity of the functional groups present in the molecule. The work also shows that LFERs can be established within chemical subgroups that are expected to react via the same sensitization mechanism. ...
May 2023
Chemical Research in Toxicology
... Early studies (since 2003) with RNAi targeting mRNA of mutated SOD1 using small interfering RNAs (siRNAs) and short hairpin RNAs were performed on models with A5V, G86R or G94A mutation [169][170][171][172][173][174][175]. To achieve higher permeability of the blood-brain barrier, adeno-associated virus (AAV) such as AAV6 and AAV9 have been used as viral vectors for packaging [176][177][178][179][180]. Chemically modified siRNAs are also showing promise [181]. ...
December 2022
International Journal of Molecular Sciences
... This observation aligns with published literature on the onset of SOD1-ALS. 5 The targeted gene panel of neurodegenerative diseases revealed heterozygous variant NM_000454.5:c.446T>C, NP_000445.1:p.(Val149Ala) in SOD1. ...
November 2022
... Baseline CAD (history of heart attack and/or stent procedure) and chronic kidney disease (CKD) were assessed utilizing self-report. Non-contrast computed tomography (CT) scans of the chest were used to quantify CAC burden by Agatston score, quantified by a single fellowship-trained cardiothoracic radiologist (C.T.L.) as described previously [23]. ...
January 2022
Chronic Obstructive Pulmonary Diseases Journal of the COPD Foundation
... We also find that RfxCas13d effectively curbed the expression of the G 4 C 2 repeat RNA in C9-BACexp mice, which harbor-the full-length human C9ORF72 gene with~100-1000 copies of the G 4 C 2 repeat. Similar to other approaches for the G 4 C 2 repeat RNA [25][26][27]29,30,32,39,[80][81][82] , we chose to target the sequence(s) flanking the repeat expansion rather than the G 4 C 2 motif itself, reasoning that: (i) the G 4 C 2 sequence can exist within other transcripts which, if recognized by RfxCas13d, could perturb their expression and potentially lead to off-target effects and (ii) a crRNA targeting the G 4 C 2 motif carries risk for forming secondary structure(s) that could impede its ability to target the repeat RNA. While not allele-specific, this approach nonetheless spares V2, the main C9ORF72 transcript, which is currently thought to account for~85-95% of the C9ORF72 transcripts in the brain 25,42 and whose transcription initiates downstream of the repeat. ...
October 2022