UMLS:C0026850 - FACTA Search

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Query: UMLS:C0026850 (muscular dystrophy)
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Plectin and its isoforms are versatile cytoskeletal linker proteins of very large size (>500 kDa) that are abundantly expressed in a wide variety of mammalian tissues and cell types. Earlier studies indicated that plectin molecules were associated with and/or directly bound to subcomponents of all three major cytoskeletal filament networks, the subplasma membrane protein skeleton, and a variety of plasma membrane-cytoskeleton junctional complexes, including those found in epithelia, various types of muscle, and fibroblasts. In conjunction with biochemical data, this led to the concept that plectin plays an important role in cytoskeleton network organization, with consequences for viscoelastic properties of the cytoplasm and the mechanical integrity and resistance of cells and tissues. Several recent findings lent strong support to this concept. One was that a hereditary disease, epidermolysis bullosa simplex (EBS)-MD, characterized by severe skin blistering combined with muscular dystrophy, is caused by defects in the plectin gene. Another was the generation of plectin-deficient mice by targeted inactivation of the gene. Dying shortly after birth, these animals exhibited severe defects in skin, skeletal muscle and heart. Moreover, in vitro studies with cells derived from such animals unmasked an essential new role of plectin as regulator of cellular processes involving actin stress fibers dynamics. Comprehensive analyses of the gene locus in man, mouse, and rat point towards a complex gene expression machinery, comprising an unprecedented diversity of differentially spliced transcripts with distinct 5' starting exons, probably regulated by different promoters. This could provide a basis for cell type-dependent and/or developmentally-controlled expression of plectin isoforms, exerting different functions through binding to distinct partners. Based on its versatile functions and structural diversification plectin emerges as a prototype cytolinker protein among a family of proteins sharing partial structural homology and functions.
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PMID:Role of plectin in cytoskeleton organization and dynamics. 970 47

Plectin is a high molecular weight protein that serves as a versatile cytoskeletal cross-linker molecule. Mutations of the human plectin gene have recently been identified to cause the autosomal recessive disorder epidermolysis bullosa simplex with muscular dystrophy (EBS-MD). A subgroup of EBS-MD patients display signs of a neurodegenerative disorder suggesting that the expression of defective plectin may also interfere with the structural and functional integrity of the human central nervous system. However, the expression pattern of plectin in the human brain is still unknown. We therefore analyzed the immunohistochemical distribution of plectin in normal hippocampal specimens obtained at autopsy and in neocortical and hippocampal tissue of patients who had undergone epilepsy surgery. In general, plectin-immunoreactive cells were identified as capillary endothelia and astrocytes. A striking feature seen in all specimens was the accentuated plectin immunoreactivity of astrocytic end feet abutting on blood vessels and on the pial surface. Furthermore, the analysis of hippocampal tissue of epilepsy patients with Ammon's horn sclerosis (AHS) revealed a strong plectin labeling of reactive astrocytes. The latter finding suggests that the up-regulation of plectin, which parallels the increase of glial fibrillary acidic protein, may be a general feature of reactive astroglia. The predominant expression of plectin at pia/glia and endothelia/glia interfaces in the human brain indicates that plectin may have an integral role in the structural organization of the blood-brain barrier and the leptomeninges.
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PMID:Plectin in the human central nervous system: predominant expression at pia/glia and endothelia/glia interfaces. 975 51

Epidermolysis bullosa with muscular dystrophy (EB-MD) is a distinct variant of EB caused by mutations in the plectin gene (PLEC1). In this study, we have examined two Japanese patients with EB-MD using heteroduplex scanning or a protein truncation test for mutation detection analysis. The results revealed that both patients were compound heterozygotes for novel PLEC1 mutations (Q1936X/Q1053X and R2421X/12633ins4), which all caused premature termination of translation of the corresponding polypeptides. These cases, which demonstrate the utility of two complementary mutation detection strategies, add to the repertoire of plectin mutations in EB-MD.
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PMID:Four novel plectin gene mutations in Japanese patients with epidermolysis bullosa with muscular dystrophy disclosed by heteroduplex scanning and protein truncation tests. 988 73

Cutaneous basement membrane zone (BMZ) consists of a number of attachment structures that are critical for stable association of the epidermis to the underlying dermis. These include hemidesmosomes, anchoring filaments and anchoring fibrils which form an interconnecting network extending from the intracellular milieu of basal keratinocytes across the dermal-epidermal basement membrane to the underlying dermis. Aberrations in this network structure, e.g. due to genetic lesions in the corresponding genes, can result in fragility of the skin at the level of the cutaneous BMZ. The prototype of such diseases is epidermolysis bullosa (EB), a heterogeneous group of genodermatoses characterized by fragility and blistering of the skin, often associated with extracutaneous manifestations, and inherited either in an autosomal dominant or autosomal recessive manner. Based on constellations of the phenotypic manifestations, severity of the disease, and the level of tissue separation within the cutaneous BMZ, EB has been divided into clinically distinct subcategories, including the simplex, hemidesmosomal, junctional and dystrophic variants. Elucidation of BMZ gene/protein systems and development of mutation detection strategies have allowed identification of mutations in 10 different BMZ genes which can explain the clinical heterogeneity of EB. These include mutations in the type VII collagen gene (COL7A1) in the dystrophic (severely scarring) forms of EB; mutations in the laminin 5 genes (LAMA3, LAMB3 and LAMC2) in a lethal (Herlitz) variant of junctional EB; aberrations in the type XVII collagen gene (COL17A1) in non-lethal forms of junctional EB; mutations in the alpha6 and beta4 integrin genes in a distinct hemidesmosomal variant of EB with congenital pyloric atresia; and mutations in the plectin gene (PLEC1) in a form of EB associated with late-onset muscular dystrophy. Identification of mutations in these gene/protein systems attests to their critical importance in the overall stability of the cutaneous BMZ. Furthermore, elucidation of mutations in different variants of EB has direct clinical applications in terms of refined classification, improved genetic counseling, and development of DNA-based prenatal testing in families with EB.
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PMID:Mutation analysis and molecular genetics of epidermolysis bullosa. 1036 29

Plectin (M(r) > 500,000) is a versatile and widely expressed cytolinker protein. In striated muscle it is predominantly found at the Z-disc level where it colocalizes with the intermediate filament protein desmin. Both proteins show altered labeling patterns in tissues of muscular dystrophy patients. Moreover, mutations in the plectin gene lead to the autosomal recessive human disorder epidermolysis bullosa simplex with muscular dystrophy, and defects in the desmin gene have been shown to cause familiar cardiac and skeletal myopathy. Since intermediate filaments (IFs) in striated muscle tissue have been found to be intimately associated with mitochondria, we investigated whether plectin is involved in this association. Using postembedding immunogold labeling of Lowicryl sections and immunogold labeling of ultrathin cryosections, we show that plectin is associated with desmin IFs linking myofibrils to mitochondria at the level of the Z-disc and along the entire length of the sarcomere. The localization of plectin label at the mitochondrial membrane itself was consistent with a putative linker function of plectin between desmin IFs and the mitochondrial surface. In mitochondrion-rich muscle fibers, both plectin and desmin were part of an ordered arrangement of mitochondrial side branches, which wound around myofibrils adjacent to the Z-discs and were anchored into a filamentous network transversing from one fibril to the other. The association of mitochondria with plectin and IFs was seen also in tissues without regular distribution patterns of mitochondria, such as heart muscle and neonatal skeletal muscle tissues. These data were supplemented with in vitro binding assays showing direct interaction of plectin with desmin via its carboxy-terminal IF-binding domain. As a cytolinker protein associated with mitochondria and desmin IFs, plectin could play an important role in the positioning and shape formation, in particular branching, of mitochondrial organelles in striated muscle tissues.
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PMID:Association of mitochondria with plectin and desmin intermediate filaments in striated muscle. 1052 38

Plectin, a widespread cytoskeletal linker protein, is prominently expressed in basal keratinocytes of the epidermis. HD1, originally identified as a hemidesmosomal protein, has been suggested to be an isoform of or closely related to plectin, but the exact relationship between these proteins is unknown. Plectin has recently been identified as the gene/protein system at fault in epidermolysis bullosa simplex associated with muscular dystrophy (EBS-MD; OMIM# 226670). In this study, we examined the expression patterns of plectin and HD1 epitopes in the skin of four unrelated patients with EBS-MD confirmed to be caused by plectin gene mutations. By indirect immunofluorescence, all monoclonal antibodies (mAbs) to plectin (5B3, 10F6) or to HD1 (121, E2, K15, 156) bound to the epidermal basement membrane zone (BMZ) of normal human skin. In addition, immunostaining along the periphery of keratinocytes was detected with mAbs 5B3, 10F6 (antiplectin), K15 and 156 (anti-HD1), but not with mAbs 121 and E2 (anti-HD1). Immunolabeling for mAbs 5B3 and 10F6 (antiplectin) was absent in the skin of three patients who had premature termination codon mutations in the plectin gene in both alleles. In contrast, labeling was only slightly reduced in a patient who was homozygous for a 9-bp in-frame deletion mutation in the same gene. Interestingly, peripheral labeling of keratinocytes using mAbs K15 and 156 (anti-HD1) was clearly present in all the patients despite the disappearance of BMZ labeling. Quantitative analysis by postembedding immunoelectron microscopy demonstrated that both plectin and HD1 epitopes were localized in the inner plaque of hemidesmosomes with a mean distance of 110 and 120 nm from the plasma membrane, respectively. These results confirm the molecular heterogeneity of EBS-MD in terms of the expression patterns of plectin and HD1 epitopes which correlate with clinical severity, the pattern of plectin gene mutations and their consequences.
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PMID:Expression of plectin and HD1 epitopes in patients with epidermolysis bullosa simplex associated with muscular dystrophy. 1055 10

We report a novel case of epidermolysis bullosa simplex with severe mucous membrane involvement and mutations in the plectin gene (PLEC1). The patient suffered from extensive blistering of the skin and oral and laryngeal mucous membranes. Electron microscopy of a lesional skin biopsy showed cleft formation within the basal cell layer of the epidermis. Antigen mapping displayed entirely negative staining for plectin, a large (>500 kDa) multifunctional adhesion protein present in hemidesmosomes of the basal keratinocytes. Mutation analysis revealed compound heterozygous, previously undisclosed nonsense mutations, Q1713X and R2351X, of paternal and maternal origin, respectively, within exon 32 of PLEC1. Based on earlier reports, plectin deficiency is associated with late onset muscular dystrophy in patients with epidermolysis bullosa. No signs of muscle weakness have been observed during the 4 y follow-up of our patient. This case illustrates the fact that molecular pathological analyses have prognostic implications in identification and evaluation of patients who appear to be at risk for development of muscular dystrophy later in life.
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PMID:Mutation reports: epidermolysis bullosa simplex associated with severe mucous membrane involvement and novel mutations in the plectin gene. 1065 1

Epidermolysis bullosa (EB) with late-onset muscular dystrophy (EB-MD) is a hemidesmosomal variant of EB due to mutations in the plectin gene (PLEC1). The age of onset of muscle involvement has been noted to vary from infancy to the fourth decade of life. Immunofluorescence of the patients' skin and muscle biopsies is usually negative for staining with antibodies recognizing plectin, a large cytoskeleton-associated anchorage protein. In this study we report novel plectin mutations in two families with EB. In both families, the proband was a newborn with neonatal blistering with no evidence for muscle weakness as yet. Peripheral blood DNA was isolated and examined by heteroduplex scanning strategy, protein truncation test (PTT), and/or direct sequencing of the plectin gene. One of the probands was compound heterozygote for nonsense mutations E2005X/K4460X, and the proband in the second family was compound heterozygote for deletion mutations 5083delG/2745-9del21, the latter mutation extending from -9 to +12 at the intron 22/exon 23 border. The mutations K4460X and 5083delG were not present in either one of the parents, thus being de novo events. In both cases, nonpaternity was excluded by microsatellite marker analysis. The stop codon mutations are predicted to result in the synthesis of a truncated protein lacking the carboxy-terminal globular domain of the protein and possibly causing nonsense-mediated decay of the corresponding mRNA. The 2745-9del21 deletion mutation abolishes the splice site at the intron 22/exon 23 junction, predicting abnormal splicing events. Because plectin deficiency is associated with muscular dystrophy, molecular diagnostics of the plectin gene provides prognostic value in evaluation of these patients who appear to be at risk to develop muscular dystrophy.
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PMID:Epidermolysis bullosa: novel and de novo premature termination codon and deletion mutations in the plectin gene predict late-onset muscular dystrophy. 1065 2

Anchoring complexes are specialized focal attachment sites within the cutaneous basement membrane zone (BMZ) and play a crucial role in dermo-epidermal adhesion. Structural weakness that may be caused by the binding of autoantibodies to components of the anchoring complex or by aberrant expression of these components as a result of genetic defects can lead to subepidermal blisters. Autoimmune subepidermal blistering disorders include bullous pemphigoid, pemphigoid gestationis, lichen planus pemphigoides, linear IgA disease, cicatricial pemphigoid, anti-p200, anti-p105, and anti-p450 pemphigoid, epidermolysis bullosa acquisita, and bullous systemic lupus erythematosus. The autoantigen in the skin of patients with dermatitis herpetiformis remains to be identified. More than 300 distinct mutations in 10 different genes corresponding to structural components of the BMZ have been described that result in skin fragility and dermo-epidermal separation associated with characteristic extracutaneous manifestations. This group of genodermatoses, collectively referred to as epidermolysis bullosa (EB), consists of distinct variants, such as EB simplex, EB with muscular dystrophy, EB with pyloric atresia, generalized atrophic benign EB, Herlitz junctional EB, and dystrophic EB. Recent advances in the molecular characterization of BMZ components have led to a better understanding of the interaction between these molecules as well as the autoimmune response against these proteins. In addition, by the elucidation of genetic defects in the different variants of EB, genotype-phenotype correlations now begin to arise and genetic counseling has been improved.
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PMID:Autoimmune and inherited subepidermal blistering diseases: advances in the clinic and the laboratory. 1109 26

Plectin is a cytoskeleton linker protein expressed in a variety of tissues including skin, muscle, and nerves. Mutations in its gene are associated with epidermolysis bullosa simplex with late-onset muscular dystrophy. Whereas in most of these patients the pathogenic events are mediated by nonsense-mediated mRNA decay, the consequences of an in-frame mutation are less clear. We analyzed a patient with compound heterozygosity for a 3-bp insertion at position 1287 leading to the insertion of leucine as well as the missense mutation Q1518X leading to a stop codon. The presence of plectin mRNA was demonstrated by a RNase protection assay. However, a marked reduction of plectin protein was found using immunofluorescence microscopy of the patient's skin and Western blot analysis of the patient's cultured keratinocytes. The loss of plectin protein was associated with morphological alterations in plectin-containing structures of the dermo-epidermal junction, in skeletal muscle, and in nerves as detected by electron microscopy. In an in vitro overlay assay using recombinant plectin peptides spanning exons 2 to 15 the insertion of leucine resulted in markedly increased self-aggregation of plectin peptides. These results describe for the first time the functional consequences of an in-frame insertion mutation in humans.
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PMID:A compound heterozygous one amino-acid insertion/nonsense mutation in the plectin gene causes epidermolysis bullosa simplex with plectin deficiency. 1115 98

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