Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004134 (ataxia)
 15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Over recent decades, the development of specialised techniques such as patch clamping and site-directed mutagenesis have established the contribution of neuronal ion channel dysfunction to the pathophysiology of common neurological conditions including epilepsy, multiple sclerosis, spinal cord injury, peripheral neuropathy, episodic ataxia, amyotrophic lateral sclerosis and neuropathic pain. Recently, these insights from in vitro studies have been translated into the clinical realm. In keeping with this progress, novel clinical axonal excitability techniques have been developed to provide information related to the activity of a variety of ion channels, energy-dependent pumps and ion exchange processes activated during impulse conduction in peripheral axons. These non-invasive techniques have been extensively applied to the study of the biophysical properties of human peripheral nerves in vivo and have provided important insights into axonal ion channel function in health and disease. This review will provide a translational perspective, focusing on an overview of the investigational method, the clinical utility in assessing the biophysical basis of ectopic symptom generation in peripheral nerve disease and a review of the major findings of excitability studies in acquired and inherited neurological disease states.
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PMID:Axonal ion channels from bench to bedside: a translational neuroscience perspective. 1969 74

Neuronal intranuclear inclusions (NIIs) are the pathological hallmark of polyglutamine (polyQ) diseases. We previously found that the RNA-binding protein FUS/TLS is the major component of nuclear polyQ aggregates of a cellular model of Huntington disease. In this study, we revealed that FUS/TLS binds to NIIs in the human brains from patients with spinocerebellar ataxia type 1, 2, 3, and dentatorubral-pallidoluysian atrophy. Recent reports have revealed that mutations in FUS/TLS gene are responsible for familial amyotrophic lateral sclerosis 6 (ALS6). Our results indicated that changing FUS/TLS to an insoluble form may be a common process in polyQ diseases and ALS6.
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PMID:The RNA-binding protein FUS/TLS is a common aggregate-interacting protein in polyglutamine diseases. 1983 57

The Saccharomyces cerevisiae SEN1 gene codes for a nuclear-localized superfamily I helicase. SEN1 is an ortholog of human SETX (senataxin), which has been implicated in the neurological disorders ataxia-ocular apraxia type 2 and juvenile amyotrophic lateral sclerosis. Pleiotropic phenotypes conferred by sen1 mutations suggest that Sen1p affects multiple steps in gene expression. Sen1p is embedded in a protein-protein interaction network involving direct binding to multiple partners. To test whether the interactions occur independently or in a dependent sequence, we examined interactions with the RNA polymerase II subunit Rpb1p, which is required for transcription, and Rnt1p, which is required for 3'-end maturation of many noncoding RNAs. Mutations were identified that impair one of the two interactions without impairing the other interaction. The effects of the mutants on the synthesis of U5 small nuclear RNA were analyzed. Two defects were observed, one in transcription termination and one in 3'-end maturation. Impairment of the Sen1p-Rpb1p interaction resulted in a termination defect. Impairment of the Sen1p-Rnt1p interaction resulted in a processing defect. The results suggest that the Sen1p-Rpb1p and Sen1p-Rnt1p interactions occur independently of each other and serve genetically separable purposes in targeting Sen1p to function in two temporally overlapping steps in gene expression.
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PMID:Sen1p performs two genetically separable functions in transcription and processing of U5 small nuclear RNA in Saccharomyces cerevisiae. 1988 10

A growing body of evidence suggests that mitochondrial abnormalities are involved in aging and in age-related neurodegenerative diseases as well as cancer, diabetes, and several other diseases known to be affected by mitochondria. Causal factors for most age-related neurodegenerative diseases-including Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis (ALS), and Friedrich ataxia (FRDA)-are largely unknown. Genetic defects are reported to cause a small number of neurodegenerative diseases, but cellular, molecular, and pathological mechanisms of disease progression and selective neuronal cell death are not understood fully in these diseases. However, based on several cellular, molecular, and animal model studies of Alzheimer's disease, Parkinson's disease, ALS, FRDA, cancer, and diabetes, aging may play a large role in cell death in these diseases. Age-dependent, mitochondrially-generated reactive oxygen species (ROS) have been identified as important factors responsible for disease progression and cell death, particularly in late-onset diseases, in which genetic mutations are not causal factors.
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PMID:Role of mitochondria in neurodegenerative diseases: mitochondria as a therapeutic target in Alzheimer's disease. 1989 Feb 41

CD is an autoimmune-mediated disorder of the gastrointestinal tract. Initial symptom presentation is variable and can include neurologic manifestations that may comprise ataxia, neuropathy, dizziness, epilepsy, and cortical calcifications rather than gastrointestinal-hindering diagnosis and management. We present a case of a young man with progressive neurologic symptoms and brain MR imaging findings worrisome for ALS. During the diagnostic work-up, endomysium antibodies were discovered, and CD was confirmed by upper gastrointestinal endoscopy with duodenal biopsies. MR imaging findings suggestive of ALS improved after gluten-free diet institution.
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PMID:White matter lesions suggestive of amyotrophic lateral sclerosis attributed to celiac disease. 1991 Apr 50

The HERC gene family encodes proteins with two characteristic domains: HECT and RCC1-like. Proteins with HECT domains have been described to function as ubiquitin ligases, and those that contain RCC1-like domains have been reported to function as GTPases regulators. These two activities are essential in a number of important cellular processes such as cell cycle, cell signaling, and membrane trafficking. Mutations affecting these domains have been found associated with retinitis pigmentosa, amyotrophic lateral sclerosis, and cancer. In humans, six HERC genes have been reported which encode two subgroups of HERC proteins: large (HERC1-2) and small (HERC3-6). The giant HERC1 protein was the first to be identified. It has been involved in membrane trafficking and cell proliferation/growth through its interactions with clathrin, M2-pyruvate kinase, and TSC2 proteins. Mutations affecting other members of the HERC family have been found to be associated with sterility and growth retardation. Here, we report the characterization of a recessive mutation named tambaleante, which causes progressive Purkinje cell degeneration leading to severe ataxia with reduced growth and lifespan in homozygous mice aged over two months. We mapped this mutation in mouse chromosome 9 and then performed positional cloning. We found a G<-->A transition at position 1448, causing a Gly to Glu substitution (Gly483Glu) in the highly conserved N-terminal RCC1-like domain of the HERC1 protein. Successful transgenic rescue, with either a mouse BAC containing the normal copy of Herc1 or with the human HERC1 cDNA, validated our findings. Histological and biochemical studies revealed extensive autophagy associated with an increase of the mutant protein level and a decrease of mTOR activity. Our observations concerning this first mutation in the Herc1 gene contribute to the functional annotation of the encoded E3 ubiquitin ligase and underline the crucial and unexpected role of this protein in Purkinje cell physiology.
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PMID:Progressive Purkinje cell degeneration in tambaleante mutant mice is a consequence of a missense mutation in HERC1 E3 ubiquitin ligase. 2004 Dec 18

Protein misfolding and aggregation in the brain have been implicated as a common molecular pathogenesis of various neurodegenerative diseases including Alzheimer's disease, Parkinson's disease, amyotrophic lateral sclerosis, and the polyglutamine (polyQ) diseases. The polyQ diseases are a group of nine hereditary neurodegenerative diseases, including Huntington's disease (HD) and various types of spinocerebellar ataxia (SCA), which are caused by abnormal expansions of the polyQ stretch (> 35-40 repeats) in unrelated disease-causative proteins. The expanded polyQ stretch is thought to trigger misfolding of these proteins, leading to their aggregation and accumulation as inclusion bodies in affected neurons, eventually resulting in neurodegeneration. Misfolding and aggregation of the polyQ protein are the most ideal therapeutic targets since they are the most upstream events in the pathogenic cascade, and therefore, therapeutic approaches using molecular chaperones, which prevent protein misfolding and assist the refolding of misfolded proteins, are being extensively investigated. Indeed, a variety of molecular chaperones such as Hsp70 and Hsp40 have been demonstrated to exert therapeutic effects against various experimental models of the polyQ diseases. Furthermore, toward developing pharmacological therapies, small chemical activators of heat shock transcription factor 1 (HSF1) such as geldanamycin and its derivative 17-AAG, which induce multiple endogenous molecular chaperones, have been proven to be effective not only in polyQ disease models, but also in other neurodegenerative disease models. We hope that brain-permeable molecular chaperone inducers will be developed as drugs against a wide range of neurodegenerative diseases in the near future.
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PMID:Induction of molecular chaperones as a therapeutic strategy for the polyglutamine diseases. 2016 62

We report a case of superficial siderosis erroneously diagnosed as amyotrophic lateral sclerosis. The patient's symptoms began 18 years prior with unilateral upper extremity weakness, fasciculations, and hyperreflexia. The patient then developed ataxia and hearing loss 15 years after his original symptoms. The magnetic resonance images revealed superficial siderosis involving the spinal cord and brain. We want to attract attention to superficial siderosis as a rare amyotrophic lateral sclerosis mimic disorder.
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PMID:Superficial siderosis mimicking amyotrophic lateral sclerosis. 2021 88

Linking genes with the underlying mechanisms of diseases is one of the biggest challenges of genomics-driven drug discovery research. Designing an inhibitor for any neurodegenerative disease that effectively halts the pathogenicity of the disease is yet to be achieved. The challenge lies in crossing the blood-brain barrier (BBB)/blood-cerebrospinal fluid barrier (BCSFB) to reach the catalytic pockets of the enzyme/protein involved in the molecular mechanism of the disease process. Designing siRNA with exquisite specificity may result in selective suppression of the disease-linked gene. Although siRNA is the most promising method, it loses its potency in downregulating the gene due to its inherent instability, off-target effects, and lack of on-target effective delivery systems. Viral as well as nonviral delivery methods have been effectively tested in vivo for silencing of molecular targets and have resulted in significant efficacy in animal models of Alzheimer's disease, amyotrophic lateral sclerosis (ALS), anxiety, depression, encephalitis, glioblastoma, Huntington's disease, neuropathic pain, and spinocerebellar ataxia. To realize the full therapeutic potential of siRNA for neurodegenerative diseases, we need to overcome many hurdles and challenges such as selecting suitable tissue-specific delivery vectors, minimizing the off-target effects, and achieving distribution in sufficient concentrations at the target tissue without any side effects. Cationic nanoparticle-mediated targeted siRNA delivery for therapeutic purposes has gained considerable clinical importance as a result of its promising efficacy.
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PMID:Nonviral siRNA delivery for gene silencing in neurodegenerative diseases. 2021 54

Canine degenerative myelopathy (DM) is an adult-onset fatal neurodegenerative disease that occurs in many breeds. The initial upper motor neuron spastic paraparesis and general proprioceptive ataxia in the pelvic limbs progress to a flaccid lower motor neuron tetraparesis. Recently, a missense mutation in the superoxide dismutase 1 (SOD1) gene was found to be a risk factor for DM, suggesting that DM is similar to some forms of human amyotrophic lateral sclerosis (ALS or Lou Gehrig's disease). This article reviews the current knowledge of canine DM with regard to its signalment, clinical spectrum, diagnostic approach, and treatment. The implications of the SOD1 mutation on both diseases are discussed, comparing pathogenic mechanisms while conveying perspectives to translational medicine.
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PMID:Canine degenerative myelopathy. 2073 99


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