Gene/Protein
Disease
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Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
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Query: UMLS:C0004134 (
ataxia
)
15,886
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We report a 23-year-old woman who slowly developed progressive tremulous myoclonus and rare convulsive seizures beginning at the age of 9 and 11 years, respectively. She also showed a mild degree of
ataxia
and cognitive dysfunction. Convulsive seizures were well suppressed by valproic acid since the age of 17 years, but tremulous myoclonus gradually progressed and became rather intractable in spite of treatment by clonazepam and piracetam. Her cognitive dysfunction was mild (total IQ score in Wechsler Adult Intelligence Scale Revised being 85 points). In addition, she had a fear of walking which disabled her in the daily life although she could actually walk without assistance. The brain MRI showed a mild cerebellar atrophy, and FDG-PET showed a mild hypometabolism in the cerebellar hemispheres. Somatosensory evoked potentials (SEPs) showed enlarged P25 and N33 amplitudes (giant SEPs). A
Cystatin B
gene analysis exhibited a homozygous expansion of the dodecamer repeat, and thus we made a diagnosis of Unverricht-Lundborg disease (ULD). We also did gene analysis and SEP study to her parents after written informed consents were obtained. They had heterozygous expansion of the dodecamer repeat. The mother also showed enlarged P25 and N33 amplitudes, whereas the father showed normal amplitudes. It is known that degree of clinical symptoms varies among patients with ULD diagnosed by gene analysis. Gene analysis was helpful for a diagnosis of ULD in this patient because the
ataxia
and cognitive dysfunction were much milder than those commonly seen in patients with ULD.
...
PMID:[Unverricht-Lundborg disease manifesting tremulous myoclonus with rare convulsive seizures: a case report]. 1922 96
The progressive myoclonus epilepsies, featuring the triad of myoclonus, seizures, and
ataxia
, comprise a large group of inherited neurodegenerative diseases that remain poorly understood and refractory to treatment. The
Cystatin B
gene is mutated in one of the most common forms of progressive myoclonus epilepsy, Unverricht-Lundborg disease (EPM1).
Cystatin B
knockout in a mouse model of EPM1 triggers progressive degeneration of cerebellar granule neurons. Here, we report impaired redox homeostasis as a key mechanism by which
Cystatin B
deficiency triggers neurodegeneration. Oxidative stress induces the expression of
Cystatin B
in cerebellar granule neurons, and EPM1 patient-linked mutation of the
Cystatin B
gene promoter impairs oxidative stress induction of
Cystatin B
transcription. Importantly,
Cystatin B
knockout or knockdown sensitizes cerebellar granule neurons to oxidative stress-induced cell death. The
Cystatin B
deficiency-induced predisposition to oxidative stress in neurons is mediated by the lysosomal protease Cathepsin B. We uncover evidence of oxidative damage, reflected by depletion of antioxidants and increased lipid peroxidation, in the cerebellum of
Cystatin B
knock-out mice in vivo. Collectively, our findings define a pathophysiological mechanism in EPM1, whereby
Cystatin B
deficiency couples oxidative stress to neuronal death and degeneration, and may thus provide the basis for novel treatment approaches for the progressive myoclonus epilepsies.
...
PMID:Cystatin B deficiency sensitizes neurons to oxidative stress in progressive myoclonus epilepsy, EPM1. 1942 Feb 57
