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)

Dystonia musculorum (dt) is a hereditary neurodegenerative disease in mice that leads to a sensory ataxia. We describe cloning of a candidate dt gene, dystonin, that is predominantly expressed in the dorsal root ganglia and other sites of neurodegeneration in dt mice. Dystonin encodes an N-terminal actin binding domain and a C-terminal portion comprised of the hemidesmosomal protein, bullous pemphigoid antigen 1 (bpag1). dt and bpag1 are part of the same transcription unit which is partially deleted in a transgenic strain of mice, Tg4, that harbours an insertional mutation at the dt locus, and in mice that carry a spontaneous dt mutation, dtAlb. We also demonstrate abnormal dystonin transcripts in a second dt mutant, dt24J. We conclude that mutations in the dystonin gene are the primary genetic lesion in dt mice.
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PMID:The mouse dystonia musculorum gene is a neural isoform of bullous pemphigoid antigen 1. 767 Apr 68

Dystonia musculorum (dt) is a hereditary neurodegenerative disease in mice that leads to a sensory ataxia. We have identified and cloned a gene encoded at the dt locus. The product of the dt gene, dystonin, is a neural isoform of a hemidesmosomal protein bullous pemphigoid antigen 1 (bpag1). To investigate the potential role of dystonin in human neuropathies, we have cloned the neural-specific 5' exons of the human DT gene that together with the previously cloned BPAG1 sequences comprise human dystonin. The mouse and human dystonin genes demonstrate the same spectrum of alternatively spliced products, and the amino acid sequences of the neural-specific exons in the mouse and human genes are over 96% identical.
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PMID:Cloning and characterization of the neural isoforms of human dystonin. 857 75

Dystonia musculorum is a hereditary mouse neurodegenerative disorder that primarily affects the sensory arm of the nervous system. We have recently cloned and identified a candidate gene for this disorder and designated it dystonin. The sequence of dystonin predicts a rod-shaped cytoskeletal-associated protein with an actin-binding domain at the N-terminal end and a hemidesmosomal protein sequence (bpag1) at the C-terminal end. Here we show that abnormal dystonin transcripts are present in neural tissues of a spontaneous dystonia musculorum mutant, dt24J. We further show that dystonin transcript levels are reduced 2- to 3-fold in dt24J mice.
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PMID:Dystonin transcripts are altered and their levels are reduced in the mouse neurological mutant dt24J. 871 79

Dystonia musculorum (dt) is an inherited neurodegenerative disorder in mice. The dt gene product, dystonin, contains the bullous pemphigoid antigen 1 coding region at its C-terminus and an actin binding domain at its N-terminus. We demonstrate that dystonin expression throughout mouse development predominates in neurons of the cranial and spinal sensory ganglia. These structures are the most severely affected in dystonic mice which could explain their severe sensory ataxia. Since we show expression in sensory neurons with small and large axoplasmic volumes, but degeneration is restricted primarily to the latter type, we suggest that caliber and size of the axon is an important factor in the disease process. Dystonin is also expressed in the extrapyramidal motor system and in the cerebellum. Functional defects in these cell types could account for the dystonic symptoms of dt mice not explained by simple sensory denervation. We also detect dystonin expression in motor neurons most of which are unaffected by the degenerative process in dt mice.
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PMID:Dystonin expression in the developing nervous system predominates in the neurons that degenerate in dystonia musculorum mutant mice. 874 68

We have recently cloned the gene responsible for the mouse neurological disorder dystonia musculorum. The predicted product of this gene, dystonin (Dst), is a neural isoform of bullous pemphigoid antigen 1 (Bpag1) with an N-terminal actin binding domain. Here we report on the cloning and characterization of mouse ACF7. Sequence analysis revealed extended homology of mACF7 with both the actin binding domain (ABD) and the Bpag1 portions of dystonin. Moreover, mACF7 and Dst display similar isoform diversity and encode similar sized transcripts in the nervous system. Phylogenetic analysis of mACF7 and dystonin ABD sequences suggests a recent evolutionary origin and that these proteins form a separate novel subfamily within the beta-spectrin superfamily of actin binding proteins. Given the implication of several actin binding proteins in genetic disorders, it is important to know the pattern of mACF7 expression. mACF7 transcripts are detected principally in lung, brain, spinal cord, skeletal and cardiac muscle, and skin. Intriguingly, mACF7 expression in lung is strongly induced just before birth and is restricted to type II alveolar cells. To determine whether spontaneous mutants that may be defective in mACF7 exist, we have mapped the mACF7 gene to mouse chromosome 4.
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PMID:Cloning and characterization of mouse ACF7, a novel member of the dystonin subfamily of actin binding proteins. 895 75

A central role for the Schwann cell cytoskeleton in the process of peripheral nerve myelination has long been suggested. However, there is no genetic or biological evidence as yet to support this assumption. Here we show that dystonia musculorum (dt) mice, which carry mutations in dystonin, a cytoskeletal crosslinker protein, have hypo/amyelinated peripheral nerves. In neonatal dt mice, Schwann cells were arrested at the promyelinating stage and had multiple myelinating lips. Nerve graft experiments and primary cultures of Schwann cells demonstrated that the myelination abnormality in dt mice was autonomous to Schwann cells. In culture, dt Schwann cells showed abnormal polarization and matrix attachment, and had a disorganized cytoskeleton. Finally, we show that the dt mutation was semi-dominant, heterozygous animals presenting hypo- and hyper-myelinated peripheral nerves. Altogether, our results suggest that dt Schwann cells are deficient for basement membrane interaction and demonstrate that dystonin is an essential component of the Schwann cell cytoskeleton at the time of myelination.
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PMID:Dystonin is an essential component of the Schwann cell cytoskeleton at the time of myelination. 957 Jul 77

Dystonia musculorum (dt) is a recessive hereditary neuropathy of the mouse. Affected animals display loss of limb coordination and twisting of the trunk. Sensory nerve fibers of these mice are severely reduced in number, and the remaining fibers present numerous axonal swellings. The gene defective in dt, dystonin (Dst), encodes a cytoskeletal linker protein that forms the bridge between F-actin and intermediate filaments. Dst is expressed during embryogenesis, whereas overt phenotype in dt mice only appears during the second week after birth. Here we show that axonal swellings are present in sensory nerve fibers of dt embryos as early as E15.5, before myelination and radial axonal growth have begun. Thus disease progression is gradual in dt mice, having begun during embryogenesis. In dt embryos, microtubule network disorganization and cytoplasmic organelle accumulation within axonal swellings were consistently observed. In addition, a few of the axonal swellings presented intermediate filament accumulation. These results demonstrate that dystonin is required for cytoskeleton organization during axonogenesis. They also suggest that axonal transport defects, through microtubule network perturbation, may be the primary mechanism of neurodegeneration in dt mice.
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PMID:Prenatal onset of axonopathy in Dystonia musculorum mice. 958 Dec 87

The mouse neurological mutant dystonia musculorum (dt) suffers from a hereditary sensory neuropathy. We have previously described the cloning and characterization of the dt gene, which we named dystonin (Dst). We had shown that dystonin is a neural isoform of bullous pemphigoid antigen 1 (Bpag1) with an N-terminal actin-binding domain. It has been shown previously that dystonin is a cytoskeletal linker protein, forming a bridge between F-actin and intermediate filaments. Here, we have used two different antibody preparations against dystonin and detected a high-molecular-weight protein in immunoblot analysis of spinal cord extracts. We also show that this high-molecular-weight protein was not detectable in the nervous system of all dt alleles tested. Immunohistochemical analysis revealed that dystonin was present in different compartments of neurons--cell bodies, dendrites, and axons, regions which are rich in the three elements of the cytoskeleton (F-actin, neurofilaments, and microtubules). Ultrastructural analysis of dt dorsal root axons revealed disorganization of the neurofilament network and surprisingly also of the microtubule network. In this context it is of interest that we observed altered levels of the microtubule-associated proteins MAP2 and tau in spinal cord neurons of different dt alleles. Finally, dt dorsal root ganglion neurons formed neurites in culture, but the cytoskeleton was disorganized within these neurites. Our results demonstrate that dystonin is essential for maintaining neuronal cytoskeleton integrity but is not required for establishing neuronal morphology.
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PMID:Dystonin is essential for maintaining neuronal cytoskeleton organization. 960 4

The mouse neurological mutant dystonia musculorum (dt) suffers from a hereditary sensory neuropathy. We have previously described the cloning and characterization of the dt gene, which we named dystonin (Dst). We had shown that dystonin is a neural isoform of bullous pemphigoid antigen 1 (Bpag1) with an N-terminal actin-binding domain. It has been shown previously that dystonin is a cytoskeletal linker protein, forming a bridge between F-actin and intermediate filaments. Here, we have used two different antibody preparations against dystonin and detected a high-molecular-weight protein in immunoblot analysis of spinal cord extracts. We also show that this high-molecular-weight protein was not detectable in the nervous system of all dt alleles tested. Immunohistochemical analysis revealed that dystonin was present in different compartments of neurons-cell bodies, dendrites, and axons, regions which are rich in the three elements of the cytoskeleton (F-actin, neurofilaments, and microtubules). Ultrastructural analysis of dt dorsal root axons revealed disorganization of the neurofilament network and surprisingly also of the microtubule network. In this context it is of interest that we observed altered levels of the microtubule-associated proteins MAP2 and tau in spinal cord neurons of different dt alleles. Finally, dt dorsal root ganglion neurons formed neurites in culture, but the cytoskeleton was disorganized within these neurites. Our results demonstrate that dystonin is essential for maintaining neuronal cytoskeleton integrity but is not required for establishing neuronal morphology. Copyright 1998 Academic Press.
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PMID:Dystonin Is Essential for Maintaining Neuronal Cytoskeleton Organization. 961 16

We report a patient with Shy-Drager syndrome who developed multiple tense blisters mainly on the extremities. Circulating anti-basement membrane zone autoantibodies were detected by the indirect immunofluorescence method. Immunoblot analysis using normal human epidermal extracts demonstrated that this patient's serum reacted only with 230 kD bullous pemphigoid antigen (BPAG1). Concerning the pathoetiology of the association of bullous pemphigoid and Shy-Drager syndrome, we discuss a sequence similarity between BPAG1 and dystonin, a candidate gene for dystonia musculorum.
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PMID:Bullous pemphigoid associated with Shy-Drager syndrome. 971 81


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