Frederick Arnold scite author profile

Amyotrophic Lateral Sclerosis (ALS) is a heterogeneous neurodegenerative disorder that affects motor neurons in the brain and spinal cord, causing progressive loss of voluntary muscle control 1,2 . ALS heterogeneity includes the age of manifestation, the rate of progression, and the anatomical sites of symptom onset. In addition, disease-causing mutations in specific genes have been identified and are used to catalog different subtypes of ALS 3 . Interestingly, several ALS-associated genes have been shown to affect immune functions, and a variety of aberrant inflammatory events have been reported in patients and mouse models 4-11 , suggesting that specific immune features can also account for ALS heterogeneity. ALS4 is characterized by juvenile-onset and slow progression 12 . After experiencing mild symptoms during their childhood, ALS4 patients show motor difficulties by their 30s, and most of them require walkers or wheelchairs by their 50s. ALS4 is caused by dominant mutations in the gene SETX. Using Setx knock-in (KI) mice carrying the ALS4 causative L389S mutation, we discovered an immunological signature consisting of clonally activated CD8 T cells specifically in the central nervous system and blood of KI animals. Expansion of antigen-specific CD8 T cells mirrors disease progression. Bone marrow transplantation experiments indicate an essential role of the immune system in ALS4 neurodegeneration. Furthermore, we found that clonally expanded CD8 T cells circulate in the peripheral blood of ALS4 patients. Our results provide evidence of an antigen-specific CD8 T cell response linked to ALS4, and can serve not only to unravel specific disease mechanisms, but as a potential biomarker of disease activity. MainALS4 is caused by heterozygous mutation in the SETX gene, which encodes for the Senataxin protein, an ubiquitously expressed nuclear ATP-dependent DNA/RNA helicase [13][14][15][16] . Senataxin can resolve DNA/RNA hybrids and regulate RNA metabolism 14,17 . Also, we demonstrated that lack of Senataxin results in increased type I interferon (IFN-I) responses upon infection 16 ,

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Deubiquitinase USP7 contributes to the pathogenicity of spinal and bulbar muscular atrophy

Pluciennik¹,

Liu²,

Molotsky³

et al. 2021

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Molecular Mechanisms and Therapeutics for SBMA/Kennedy's Disease

Arnold

Merry

2019

Neurotherapeutics

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Spinal and bulbar muscular atrophy (SBMA) is a neuromuscular disease caused by a polyglutamine (polyQ) expansion in the androgen receptor (AR). Despite the fact that the monogenic cause of SBMA has been known for nearly 3 decades, there is no effective treatment for this disease, underscoring the complexity of the pathogenic mechanisms that lead to a loss of motor neurons and muscle in SBMA patients. In the current review, we provide an overview of the system-wide clinical features of SBMA, summarize the structure and function of the AR, discuss both gain-of-function and loss-of-function mechanisms of toxicity caused by polyQ-expanded AR, and describe the cell and animal models utilized in the study of SBMA. Additionally, we summarize previously conducted clinical trials which, despite being based on positive results from preclinical studies, proved to be largely ineffective in the treatment of SBMA; nonetheless, these studies provide important insights as researchers develop the next generation of therapies.

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Decreased Sensitivity to Metocurine during Long-term Phenytoin Therapy May Be Attributable to Protein Binding and Acetylcholine Receptor Changes

Kim¹,

Arnold²,

Itani

et al. 1992

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