Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0013421 (dystonia)
8,418 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. Serum iron parameters were measured in a group of schizophrenic patients who had developed acute neuroleptic-induced dystonia (N = 17) and in control patients with no history of extrapyramidal disorders (N = 16). No differences were found between the two groups for iron, ferritin or transferrin levels. 2. Iron status was estimated in 44 schizophrenic patients starting treatment with high-potency neuroleptics before and after 3 weeks of medication. In the 6 patients developing dystonia serum iron levels as well as other iron parameters did not differ from the values observed in the remaining 38 patients either on admission or after neuroleptic treatment. In each group the haematological profile was not modified by neuroleptic medication. 3. These results do not support an association between low serum iron and the occurrence of neuroleptic-induced dystonic reactions.
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PMID:Iron status in schizophrenic patients with acute neuroleptic-induced dystonic reactions. 797 59

Hereditary aceruloplasminemia is an autosomal recessive disorder of iron homeostasis due to loss-of-function mutations in the ceruloplasmin gene. Affected individuals may present in adulthood with evidence of hepatic iron overload, diabetes, peripheral retinal degeneration, dystonia, dementia, or dysarthria. Laboratory studies demonstrate microcytic anemia, elevated serum ferritin, and a complete absence of serum ceruloplasmin ferroxidase activity. Consistent with the observed neurologic findings, magnetic resonance imaging reveals iron accumulation within the basal ganglia. Histologic studies detect abundant iron in hepatocytes, reticuloendothelial cells of the liver and spleen, beta cells of the pancreas, and astrocytes and neurons throughout the central nervous system. Characterization of this disorder reveals an essential role for ceruloplasmin in determining the rate of iron efflux from cells with mobilizable iron stores and provides new insights into the mechanisms of human iron metabolism.
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PMID:The copper-iron connection: hereditary aceruloplasminemia. 1238 3

Neuroferritinopathy is a recently recognised genetic disease resulting in a dominantly inherited movement disorder. The condition was mapped by linkage analysis to chromosome 19q13.3 and found to be due to a single adenine insertion in the ferritin light chain (FTL) gene at position 460-461 which is predicted to alter the C terminus of the FTL polypeptide. Clinical features of neuroferritinopathy are highly variable, with chorea, dystonia, and Parkinsonian features predominating in different affected individuals. The most consistent feature is a dystonic dysarthria. Symptoms and abnormal physical signs appear to be restricted to the nervous system and onset is typically in the fourth to sixth decades. Low serum ferritin also characterises this condition. Brain MR imaging of affected patients demonstrates iron deposition in the basal ganglia, progressing over years to cystic degeneration, and brain histochemistry shows abnormal aggregates of ferritin and iron. Now that the molecular basis of the condition is known, therapeutic interventions to reduce or reverse brain iron deposition are being evaluated. This rare disease provides evidence of a central role for iron metabolism in neurodegenerative disorders.
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PMID:Neuroferritinopathy: a window on the role of iron in neurodegeneration. 1254 46

Neuroferritinopathy is a recently recognized autosomal dominant disorder that results in abnormal aggregates of iron and ferritin in the brain due to a mutation in the ferritin light chain gene on chromosome 19q13.3. We present the clinical details of a patient with adult-onset generalized dystonia associated with this mutation. Neuroferritinopathy appears to be a rare disorder; hence, there is a need to report new cases to further our understanding of the clinical phenotype, diagnostic challenges, the course of the condition and imaging characteristics.
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PMID:Adult-onset generalized dystonia due to a mutation in the neuroferritinopathy gene. 1539 32

Neuroferritinopathy (MIM 606159, also labeled hereditary ferritinopathy and neurodegeneration with brain iron accumulation type 2, NBIA2) is an adult-onset progressive movement disorder caused by mutations in the ferritin light chain gene (FTL1). Four pathogenic mutations in FTL1 have been described to date; 460insA was our original founder mutation in Cumbria, North West England, where it arose before 1800. The same mutation appears to have arisen separately in France. The resulting altered reading frame extends the peptide, disrupting the ferritin dodecahedron structure and causing accumulation of ferritin and iron, primarily in central neurons. A wide range of neurologic symptoms may occur; 50% present with chorea, 43% with limb dystonia, and 7% with Parkinsonian features. The disorder provides a direct link between disordered iron storage and a neurodegenerative disease, opening new avenues for treatment by altering brain iron stores in addition to symptomatic treatments such as local Botulinum toxin and oral anti oxidants.
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PMID:Neuroferritinopathy. 1710 56

Neuroferritinopathy is a progressive potentially treatable adult-onset movement disorder caused by mutations in the ferritin light chain gene (FTL1). Features overlap with common extrapyramidal disorders: idiopathic torsion dystonia, idiopathic Parkinson's disease and Huntington's disease, but the phenotype and natural history have not been defined. We studied a genetically homogeneous group of 41 subjects with the 460InsA mutation in FTL1, documenting the presentation, clinical course, biochemistry and neuroimaging. The mean age of onset was 39.4 years (SD = 13.3, range 13-63), beginning with chorea in 50%, focal lower limb dystonia in 42.5% and parkinsonism in 7.5%. The majority reported a family history of a movement disorder often misdiagnosed as Huntington's disease. The disease progressed relentlessly, becoming generalized over a 5-10 year period, eventually leading to aphonia, dysphagia and severe motor disability with subcortical/frontal cognitive dysfunction as a late feature. A characteristic action-specific facial dystonia was common (65%), and in 63% there was asymmetry throughout the disease course. Serum ferritin levels were low in the majority of males and post-menopausal females, but within normal limits for pre-menopausal females. MR brain imaging was abnormal on all affected individuals and one presymptomatic carrier. In conclusion, isolated parkinsonism is unusual in neuroferritinopathy, and unlike Huntington's disease, cognitive changes are absent or subtle in the early stages. Depressed serum ferritin is common and provides a useful screening test in routine practice, and gradient echo brain MRI will identify all symptomatic cases.
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PMID:Clinical features and natural history of neuroferritinopathy caused by the FTL1 460InsA mutation. 1885 24

Neuroferritinopathy is an autosomal dominant basal ganglia disease with iron accumulation caused by a mutation of the gene encoding ferritin light polypeptide (FTL). Six pathogenic mutations in the FTL gene have so far been reported. One such mutation was found in a Japanese family, thus suggesting that a new mutation in the FTL gene can therefore occur anywhere in the world. The typical clinical features of neuroferritinopathy are dystonia (especially orofacial dystonia related to speech and leading to dysarthrophonia) and involuntary movement, but such features vary greatly among the affected individuals. The findings of excess iron storage and cystic changes involving the globus pallidus and the putamen on brain MRI. and low serum ferritin levels are characteristic in neuroferritinopathy. Brain histochemistry shows abnormal aggregates of ferritin and iron throughout the central nervous system. Iron atoms are stored in the central cavity of the ferritin polymer and the E-helices of ferritin play an important role in maintaining the central cavity. A mutation in exon 4 of the FTL gene is known to alter the structure of E-helices, thereby leading to the release of free iron and excessive oxidative stress. Iron depletion therapy by iron chelation in symptomatic patients has not been shown to be beneficial, however before the nset of clinical symptoms, such a treatment strategy may still have some benefit. Neuroferritinopathy should therefore be considered in all patients presenting with basal ganglia disorders of unknown origin. These characteristic MRI findings may help to differentiate neuroferritinopathy from other diseases showing similar clinical features.
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PMID:[Clinical features of neuroferritinopathy]. 1959 2

Neurodegeneration with brain iron accumulation (NBIA) is etiologically, clinically, and by imaging a heterogeneous group including NBIA types 1 [pantothenate kinase-associated neurodegeneration (PKAN)] and 2 (PLA2G6-associated neurodegeneration), neuroferritinopathy, and aceruloplasminaemia. Data on genetically defined Indian-subcontinent NBIA cases are limited. We report 6 patients from the Indian-subcontinent with a movement disorder and MRI basal ganglia iron deposition, compatible with diagnosis of an NBIA syndrome. All patients were screened for abnormalities in serum ceruloplasmin and ferritin levels and mutations in NBIA-associated genes [pantothenate kinase 2 (PANK2), PLA2G6 and ferritin light chain (exon 4)]. We present clinical, imaging and genetic data correlating phenotype-genotype relations. Four patients carried PANK2 mutations, two of these were novel. The clinical phenotype was mainly dystonic with generalized dystonia and marked orobulbar features in the 4 adolescent-onset cases. One of the four had a late-onset (age 37) unilateral jerky postural tremor. His mutation, c.1379C>T, appears associated with a milder phenotype. Interestingly, he developed the eye-of-the-tiger sign only 10 years after onset. Two of the six presented with adult-onset levodopa (L-dopa)-responsive asymmetric re-emergent rest tremor, developing L-dopa-induced dyskinesias, and good benefit to deep brain stimulation (in one), thus resembling Parkinson's disease (PD). Both had an eye-of-the-tiger sign on MRI but were negative for known NBIA-associated genes, suggesting the existence of further genetic or sporadic forms of NBIA syndromes. In conclusion, genetically determined NBIA cases from the Indian subcontinent suggest presence of unusual phenotypes of PANK2 and novel mutations. The phenotype of NBIA of unknown cause includes a PD-like presentation.
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PMID:Indian-subcontinent NBIA: unusual phenotypes, novel PANK2 mutations, and undetermined genetic forms. 2062 44

Neuroferritinopathy is an autosomal dominant extra - pyramidal movement disorder caused by mutations in the ferritin light chain gene (FTL). The most frequent presentation is with chorea (50%), followed by dystonia (42.5 %) and parkinsonism (7.5%). Seven different mutations are known; 6 insertions in exon 4 and a missense mutation in exon 3 with the 460insA mutation in exon 4 being the most common. Brain magnetic resonance imaging demonstrates iron deposition in the basal ganglia and cavitation. Neuropathological studies have shown neuronal loss in the cerebral cortex, cerebellum and basal ganglia. Ferritin inclusion bodies were demonstrated within neurons and glia. Studies of patient derived fibroblasts and HeLa cells expressing mutant ferritin demonstrate increased iron levels and oxidative stress. These abnormalities have been recapitulated in mouse models of neuroferritinopathy. There is no disease modifying treatement for neuroferritinopathy but benzodiazepines and botulinum toxin may palliate dystonia and tetrabenazine may relieve chorea and facial tics. There is no role for iron chelation.
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PMID:Neuroferritinopathy: update on clinical features and pathogenesis. 2251 42

Neuroferritinopathy is an autosomal dominant, adult-onset disorder characterized by the deposition of iron and ferritin in the brain and a decreased level of serum ferritin. The disease is caused by mutations of the gene encoding ferritin light chain polypeptide. Seven pathogenic mutations have so far been reported, and two of the mutations were found in Japanese families. The mutations are predicted to affect tertiary structure and stability of the ferritin light chain polypeptide and may cause inappropriate iron release from feritin polymers. The excess iron may cause oxidative stress and lead to cell and tissue damage. The typical clinical features are dystonia and involuntary movement. Some patients may present cerebellar ataxia and cognitive decline. The clinical features appear to be restricted to the nervous system. The variety of MRI findings including T(2) hypointense lesions reflecting iron deposits, cystic degeneration of the basal ganglia, and cortical atrophy are characteristic of neuroferritinopathy. Iron depletion therapy by iron chelation in symptomatic patients has not been shown to be beneficial. Recent study shows the iron deposition in neuroferritinopathy begins in early childhood before symptomatic presentation. This finding suggests the importance of early intervention of therapy.
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PMID:[Clinical feature of neuroferritinopathy]. 2319 80


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