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: UNIPROT:Q00604 (X-linked)
16,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

X-linked Emery-Dreifuss muscular dystrophy (EDMD) is a relatively rare benign neuromuscular disorder which can vary remarkably in onset, course and severity. In the present study, a TCTAC deletion spanning the nucleotides 631-635 of the emerin gene caused an unusually severe disease phenotype including loss of ambulation and severe muscle wasting in two affected brothers. The same mutation has been reported previously in an unrelated family showing a significantly milder phenotype. The interfamilial heterogeneity in distribution and in severity of the features in the two families point to environmental or genetic modification as the cause of clinical variability in Emery-Dreifuss muscular dystrophy.
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PMID:Severe clinical expression in X-linked Emery-Dreifuss muscular dystrophy. 1038 10

The product of the X-linked Emery-Dreifuss muscular dystrophy gene is a single-membrane-spanning protein called emerin, which is localized to the inner nuclear membrane of all tissues studied. To examine whether a number of the mutant forms of emerin expressed in patients are mislocalized, we transfected GFP-emerin cDNA constructs reflecting these mutations into undifferentiated C2C12 myoblasts and showed that both wild type and all the mutant emerins are targeted to the nuclear membrane, but the mutants to a lesser extent. Mutant Del236-241 (deletion in transmembrane region) was mainly expressed as cytoplasmic aggregates, with only trace amounts at the nuclear envelope. Complete removal of the transmembrane region and C-terminal tail relocated emerin to the nucleoplasm. Mutations in emerin's N-terminal domain had a less severe effect on disrupting nuclear envelope targeting. This data suggests that emerin contains multiple non-overlapping nuclear-membrane-targeting determinants. Analysis of material immunoisolated using emerin antibodies, from either undifferentiated C2C12 myoblasts or purified hepatocyte nuclei, demonstrated that both A- and B-type lamins and nuclear actin interact with emerin. This is the first report of proteins interacting with emerin. The EDMD phenotype can thus arise by either the absence or a reduction in emerin at the nuclear envelope, and both of these disrupt its interactions with that of structural components of the nucleus. We propose that an emerin-nuclear protein complex exists at the nuclear envelope and that one of its primary roles is to stabilize the nuclear membrane against the mechanical stresses that are generated in muscle cells during contraction.
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PMID:The Emery-Dreifuss muscular dystrophy phenotype arises from aberrant targeting and binding of emerin at the inner nuclear membrane. 1039 13

Ultrastructural alterations in the nuclear architecture were found in skeletal muscle and skin cultured cells from a patient affected by X-linked Emery-Dreifuss muscular dystrophy (EMD) carrying a null mutation. The molecular defect of X-linked EMD is the absence of emerin, a nuclear envelope-associated protein which is considered a component of the nuclear lamina. The nuclear changes were present in skeletal muscle and skin cultured cells with a frequency of about 10% and 18%, respectively. The main structures of the nuclear periphery were involved: lamina and nuclear envelope-associated heterochromatin were affected, whereas the cisterna and the pore complexes appeared preserved, and the cytoplasm of the same cells appeared normal. Analogous localized defects were detectable by immunolabeling with antilamin A/C and B2 antibodies, as well as by selective propidium iodide chromatin staining. The lesions we describe could be the result of anomalous nuclear lamina organization in the absence of emerin.
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PMID:Nuclear changes in a case of X-linked Emery-Dreifuss muscular dystrophy. 1039 3

X-linked Emery-Dreifuss muscular dystrophy (EMD) is caused by mutations in the emerin gene. Since the emerin gene is ubiquitously expressed and since all EMD mutations published so far should be detectable by an RNA-based mutation assay, we have designed a protein truncation test for emerin. To facilitate the detection of mutations in the translation initiation site, reported for several EMD-cases, the standard tailed forward PTT-primer had to be modified. The effectiveness of the assay was established by a mutation scan in four EMD-patients. Two patients could be shown to carry emerin mutations, one affecting the ATG translation initiation codon. The PTT-assay did not detect a mutation in the two other patients. Since an immunohistochemical analysis of patient-derived cells revealed normal emerin levels, these patients are thus affected by another muscular dystrophy, most likely autosomal dominant EMD.
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PMID:A protein truncation test for Emery-Dreifuss muscular dystrophy (EMD): detection of N-terminal truncating mutations. 1039 52

A boy developed contractures of the Achilles tendons at 3 years and of the postcervical muscles at 7 years, although neither contractures of the elbows nor cardiac abnormality were recognized by the age of 9 years. Muscle computed tomography scanning revealed changes characteristic of muscle involvement. Emerin was not detected in the biopsied muscle, and RT-PCR and PCR-based genomic DNA analyses of the emerin gene demonstrated no amplification product in the patient. These results confirmed the diagnosis of X-linked Emery-Dreifuss muscular dystrophy (EDMD), and reinforce the necessity of molecular genetic diagnosis of the membrane protein emerin in younger patients with possible EDMD before appearance of the typical symptoms, to avoid sudden cardiac death.
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PMID:Early onset of X-linked Emery-Dreifuss muscular dystrophy in a boy with emerin gene deletion. 1048 Feb 14

Emerin encoded by the STA gene is the first nuclear protein linked with a muscular dystrophy. Emerin is a 34 kDa, predominantly hydrophilic protein with a single hydrophobic region supposed to serve as a transmembrane domain. It was classified as a type II integral membrane protein localized at the inner nuclear membrane/nuclear lamina with an ubiquitous tissue distribution. It is speculated that emerin is required for the stability and normal function of rigorously moving nuclei in skeletal muscle and heart. During mitosis, emerin is cell-cycle-dependent phosphorylated and shows stage-dependent changes in distribution and localization suggesting that it plays a role in re-assembly of nuclear membranes. Mutations of the emerin gene have been associated with X-linked Emery-Dreifuss muscular dystrophy clinically defined by early joint contractures, progressive muscle weakness, and cardiomyopathy. Hopefully, identification of the protein defect may promote new therapeutic strategies concerning muscle fiber development and stability.
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PMID:Emerin. 1053 81

The nuclear lamina is a protein meshwork lining the nucleoplasmic face of the inner nuclear membrane and represents an important determinant of interphase nuclear architecture. Its major components are the A- and B-type lamins. Whereas B-type lamins are found in all mammalian cells, A-type lamin expression is developmentally regulated. In the mouse, A-type lamins do not appear until midway through embryonic development, suggesting that these proteins may be involved in the regulation of terminal differentiation. Here we show that mice lacking A-type lamins develop to term with no overt abnormalities. However, their postnatal growth is severely retarded and is characterized by the appearance of muscular dystrophy. This phenotype is associated with ultrastructural perturbations to the nuclear envelope. These include the mislocalization of emerin, an inner nuclear membrane protein, defects in which are implicated in Emery-Dreifuss muscular dystrophy (EDMD), one of the three major X-linked dystrophies. Mice lacking the A-type lamins exhibit tissue-specific alterations to their nuclear envelope integrity and emerin distribution. In skeletal and cardiac muscles, this is manifest as a dystrophic condition related to EDMD.
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PMID:Loss of A-type lamin expression compromises nuclear envelope integrity leading to muscular dystrophy. 1057 12

Emerin is the protein of the inner nuclear membrane that is affected by mutation in X-linked Emery-Dreifuss muscular dystrophy. The autosomal dominant form of the disease is caused by mutations in the lamin A/C gene. Several lines of circumstantial evidence have suggested an interaction of emerin with lamins in the nuclear lamina but direct interaction between the two proteins has not yet been demonstrated. We now demonstrate direct interaction between recombinant emerin and lamin A molecules using biomolecular interaction analysis (BIA) and monoclonal antibodies. An emerin-lamin A interaction system may be related in function to the LAP2-lamin B system at the inner nuclear rim.
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PMID:Direct interaction between emerin and lamin A. 1067 56

Emerin, the product of the gene responsible for X-linked Emery-Dreifuss muscular dystrophy (EDMD), has a ubiquitous tissue distribution and is localised to the nuclear envelope. We present here the relationship between emerin protein expression, nuclear localization and clinical phenotype for two distal mutations identified in unrelated EDMD patients. The first mutation predicts the replacement of the last eight amino acids of emerin with the addition of 101 amino acids, but no emerin expression is detected. The second mutation, 35 bp upstream from the first mutation, deletes six amino acids from the transmembrane region, but in this case emerin expression is seen. Emerin from this second patient is expressed at reduced levels, mistargeted and has altered biochemical properties compared to wild type emerin. In both cases the clinical phenotype was similar to patients with typical null mutations. We discuss these data in comparison with previous reports of other C-terminal mutations in the emerin gene and suggest that the efficiency of emerin's nuclear membrane localization is affected by the hydrophobicity (and possibly length) of its transmembrane region, and a longer C-terminal tail prevents nuclear localization.
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PMID:Two distal mutations in the gene encoding emerin have profoundly different effects on emerin protein expression. 1067 60

Emery-Dreifuss muscular dystrophy (EDMD) is the third most common X-linked muscular dystrophy. This disorder is characterized by childhood onset of early contractures, humeroperoneal muscle atrophy, and cardiac conduction abnormalities. Weakness is slowly progressive, but there is a broad spectrum of clinical severity. Patients and carriers are at risk of sudden death. Regular cardiac evaluation is mandatory to assess the risk of cardiac arrhythmias. Unique atrial pathology is seen at autopsy. The mutated gene in EDMD is localized to the long arm of the X chromosome. Mutations in the gene lead to abolished synthesis of the gene product, emerin. Emerin is localized to the nuclear membrane of skeletal, cardiac, and smooth muscle. The term Emery-Dreifuss syndrome describes patients who have the EDMD phenotype without X-linked inheritance. There is no treatment for the underlying disease, but early placement of pacemakers may be lifesaving.
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PMID:Emery-Dreifuss muscular dystrophy. 1071 90


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