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:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The distribution pattern of fibronectin, laminin, type I, III and IV collagens in human skeletal muscle was studied by immunofluorescence. In normal muscle, as well as in congenital myopathies (CM), type I and III collagens were localized in the endomysium and the perimysium. Laminin and type IV collagen delineated precisely each muscle fiber but did not stain the perimysium. In Duchenne's muscular dystrophy (DMD) as well as in congenital muscular dystrophies (CMD) the extensive proliferation of connective tissue consisted mainly of fibronectin and type I and III collagens. Laminin and type IV collagen delineated principally the basal lamina but suprisingly were found to be distributed to some extent all over the extracellular matrix. No disease--specific accumulation of components of the extracellular matrix was found which would enable us to differentiate these last two diseases, though the immunofluorescence reactions for all components were stronger in DMD than in CMD.
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PMID:Fibronectin, laminin, type I, III and IV collagens in Duchenne's muscular dystrophy, congenital muscular dystrophies and congenital myopathies: an immunocytochemical study. 316 92

The merosin M-chain (or laminin-alpha 2) is one of three subunits of laminin-2 which is highly expressed in striated muscle and peripheral nerve. Complete lack of laminin-alpha 2 expression in skeletal muscle is the hallmark of one form of congenital muscular dystrophy which is characterized by dysmyelination of the central nervous system (CNS), links to chromosome 6q2 and is common among Caucasians. Laminin-alpha 2 expression was also found to be significantly reduced in Fukuyama congenital muscular dystrophy which links to chromosome 9q3. We report consistently preserved laminin-2 expression, including laminin-alpha 2, as detected by immunofluorescence in skeletal muscle from five patients with Walker-Warburg syndrome which is characterized by congenital muscular dystrophy and, in addition, type II lissencephaly or pachygyria, defective CNS myelination, and ocular dysgenesis. These findings show that in spite of partial phenotypic overlap between Fukuyama CMD and Walker-Warburg syndrome the two disorders are nosologically separate disease entities. They also exclude that Walker-Warburg syndrome is allelic to the common form of congenital muscular dystrophy with laminin-alpha 2 deficiency.
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PMID:Preserved merosin M-chain (or laminin-alpha 2) expression in skeletal muscle distinguishes Walker-Warburg syndrome from Fukuyama muscular dystrophy and merosin-deficient congenital muscular dystrophy. 897 52

To address potential involvement of muscle basal lamina and membrane cytoskeleton proteins in the etiology of non-dystrophinopathy muscular dystrophies, we examined the immunostaining intensity and distribution of laminin subunits (A, B1, B2 and M), type IV collagen, dystrophin and spectrin in skeletal muscle biopsies from 64 myopathic patients (17 Fukuyama congenital muscular dystrophy: FCMD, 13 congenital muscular dystrophy unrelated to FCMD: other CMD, 16 Duchenne muscular dystrophy: DMD, and 18 other neuromuscular diseases. In FCMD muscle, we found a significant reduction of laminin M (merosin; a striated muscle specific basal lamina-associated protein) with approximately 26% of levels seen in controls by quantitative immunofluorescence. Other CMD and DMD muscles showed less dramatic reductions (78%, 80%, respectively). The localization of laminin M was also abnormal in FCMD muscle. Laminin B1 and B2 showed abnormalities similar to those observed with laminin M, but were less marked. Laminin A was only detected in rare regenerating fibers in control biopsies, whereas it was seen around most muscle fibers in FCMD patients, and in dystrophin deficient muscle fibers from DMD patients and its carrier. Staining intensity of type IV collagen in FCMD muscle was not significantly different from the other diseases. These findings may implicate a primary or central role for the basal lamina in FCMD muscle.
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PMID:Abnormal localization of laminin subunits in muscular dystrophies. 824 11

The absence of laminin alpha 2 chain causes muscle cell degeneration and peripheral dysmyelination in congenital muscular dystrophy patients and dy mice, suggesting its role in the maintenance of sarcolemmal architecture and peripheral myelinogenesis. Here we demonstrate the secretion of laminin alpha 2 chain in cerebrospinal fluid (CSF). Laminin alpha 2 chain was detected as a minor component of the total CSF proteins or glycoproteins. Laminin alpha 2 chain was localized in the cytoplasm of epithelial cells of choroid plexus, suggesting active secretion. Our results suggest that immunochemical analysis of CSF laminin alpha 2 chain could be useful as an aid for the diagnosis of congenital muscular dystrophy.
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PMID:Secretion of laminin alpha 2 chain in cerebrospinal fluid. 852 61

Laminin-2 is a component of skeletal and cardiac basal lamina expressed in normal mouse and human. Laminin alpha2 chain (LAMA2), however, is absent from muscles of some congenital muscular dystrophy patients and the dystrophia muscularis (dy/dy) mouse model. LAMA2 restoration was investigated following cell transplantation in vivo in dy/dy mouse. Allogeneic primary muscle cell cultures expressing the beta-galactosidase transgene under control of a muscular promoter, or histocompatible primary muscle cell cultures, were transplanted into dy/dy mouse muscles. FK506 immunosuppression was used in noncompatible models. All transplanted animals expressed LAMA2 in these immunologically-controlled models, and the degrees of LAMA2 restoration were shown to depend on the age of the animal at transplantation, on muscle pretreatment, and on duration time after transplantation in some cases. LAMA2 did not always colocalize with new or hybrid muscle fibers formed by the fusion of donor myoblasts. LAMA2 deposition around muscle fibers was often segmental and seemed to radiate from the center to the periphery of the injection site. Allogeneic conditionally immortalized pure myogenic cells expressing the beta-galactosidase transgene were characterized in vitro and in vivo. When injected into FK506-immunosuppressed dy/dy mice, these cells formed new or hybrid muscle fibers but essentially did not express LAMA2 in vivo. These data show that partial LAMA2 restoration is achieved in LAMA2-deficient dy/dy mouse by primary muscle cell culture transplantation. However, not all myoblasts, or myoblasts alone, or the muscle fibers they form are capable of LAMA2 secretion and deposition in vivo.
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PMID:Partial laminin alpha2 chain restoration in alpha2 chain-deficient dy/dy mouse by primary muscle cell culture transplantation. 860 7

Laminin (laminin-1; alpha 1-beta 1-gamma 1) is known to promote myoblast proliferation, fusion, and myotube formation. Merosin (laminin-2 and -4; alpha 2-beta 1/beta 2-gamma 1) is the predominant laminin variant in skeletal muscle basement membranes; genetic defects affecting its structure or expression are the causes of some types of congenital muscular dystrophy. However, the precise nature of the functions of merosin in muscle remain unknown. We have developed an in vitro system that exploits human RD and mouse C2C12 myoblastic cell lines and their clonal variants to study the roles of merosin and laminin in myogenesis. In the parental cells, which fuse efficiently to multinucleated myotubes, merosin expression is upregulated as a function of differentiation while laminin expression is downregulated. Cells from fusion-deficient clones do not express either protein, but laminin or merosin added to the culture medium induced their fusion. Clonal variants which fuse, but form unstable myotubes, express laminin but not merosin. Exogenous merosin converted these myotubes to a stable phenotype, while laminin had no effect. Myotube instability was corrected most efficiently by transfection of the merosin-deficient cells with the merosin alpha 2 chain cDNA. Finally, merosin appears to promote myotube stability by preventing apoptosis. Hence, these studies identify novel biological functions for merosin in myoblast fusion and muscle cell survival; furthermore, these explain some of the pathogenic events observed in congenital muscular dystrophy caused by merosin deficiency and provide in vitro models to further investigate the molecular mechanisms of this disease.
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PMID:Merosin and laminin in myogenesis; specific requirement for merosin in myotube stability and survival. 883 Jul 76

We studied the immunohistochemical expression of laminin subunits alpha 2, alpha 1, beta 1 in muscle and skin biopsy samples from three patients with congenital muscular dystrophy (CMD), and from ten control patients investigated for various neuromuscular disorders. Merosin alpha 2 chain was not detectable in the basement membrane of muscle fibers, or in the nerve endings, cutaneous nerves, and corium in the skin of the CMD patients, whereas it was clearly expressed in the skin biopsy samples from control patients, especially in the nerve endings of the arrector pili muscles. Laminin alpha 1 chain was expressed in the corium, in the muscle fiber membranes of arrector pili muscles and in cutaneous nerve fibers, perineurium and blood vessels in controls and in CMD patients. Laminin beta 1 chain was faintly expressed in the corium, and a diffuse labeling was detected on arrector pili muscle with enhanced expression at nerve endings, intracutaneous nerves and capillaries, with similar findings in all biopsy specimens. For merosin-negative CMD patients, skin biopsy may provide a diagnostic alternative to muscle biopsy since merosin deficiency can be demonstrated in the skin neural structures, and in particular in the nerve endings of the arrector pili smooth muscles.
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PMID:Immunohistochemical study of merosin-negative congenital muscular dystrophy: laminin alpha 2 deficiency in skin biopsy. 925 83

Using specific monoclonal antibodies against different subunits of laminin, we studied the differential distribution pattern of several laminin chains in the central (CNS) and peripheral (PNS) nervous system. Laminin chains alpha 1, beta 1 and gamma 1, were found in the basement membrane (BM) of blood vessels in both CNS and PNS. In contrast, laminin alpha 2 though present in the BM of capillaries in the CNS, was completely absent from PNS capillaries. Laminins alpha 2, beta 1, gamma 1 could be detected in peripheral nerve, in the BM of Schwann cells, which did not contain Laminin alpha 1. The possible importance of laminin alpha 2 for myelination in the PNS as well as in the function of the blood-brain barrier in the CNS, and its potential relevance to the pathology of congenital muscular dystrophy associated with deficiency of this laminin chain, is discussed.
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PMID:Immunolocalization of several laminin chains in the normal human central and peripheral nervous system. 926 51

Laminin-2 (merosin) is a heterotrimer composed of alpha 2, beta 1 and gamma 1 chains. Approximately half of the cases with the classical form of congenital muscular dystrophy (CMD) have a deficiency of the laminin alpha 2 chain, encoded by the LAMA2 gene on chromosome 6q22. This disorder is often termed merosin-deficient CMD. Skeletal and cardiac muscle, and the peripheral and central nervous systems, all express laminin alpha 2 and can be affected in merosin-deficient CMD. Normal skin also expresses all three chains of laminin-2 at the epidermal/dermal junction, around hair follicles and in the sensory nerves. Skin biopsies can therefore be used to assess merosin status in patients. We show here an absence of laminin alpha 2 in skin from four cases of CMD with a severe phenotype and abnormal magnetic resonance image (MRI) of the brain, in contrast to normal expression in one case of mild CMD with normal MRI, and in five controls. An additional case of CMD had a partial deficiency of laminin alpha 2 in the skin and severe motor disability, but a normal MRI. Sensory nerves in this case showed normal expression of laminin alpha 2, in contrast to its absence in the severe cases. The expression of laminin beta 1 was also reduced in skin from cases of merosin-deficient CMD. In contrast to human fetal muscle, the laminin alpha 2 protein was not detected in fetal skin up to 23 weeks of gestation. The laminin beta 1 and gamma 1 chains, and the mRNA for laminin alpha 2, however, were present. Studies of mRNA of cultured skin cells suggest that fibroblasts are the major source of laminin alpha 2, not keratinocytes. Our data show that skin is useful for the assessment of merosin status in patients with CMD and that skin fibroblasts may be a useful source of tissue-specific RNA. In addition, we show that there is a tissue-specific difference in the developmental expression of the laminin alpha 2 protein.
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PMID:Expression of laminin chains in skin in merosin-deficient congenital muscular dystrophy. 930 12

Laminin alpha 2, a sub-unit of the basement membrane component laminin-2, is deficient in the dy/dy and allelic dy2 J/dy2 J mouse. It is also the defective protein in a proportion of children with congenital muscular dystrophy. Linkage and mutational analysis have established that this is a primary effect caused by defects in the LAMA2 gene. Laminin alpha 2 has previously been shown to be deficient in dy/dy skeletal muscle, peripheral nervous system and brain. We report here preliminary observations on differences in detection of laminin alpha 2 in muscle, peripheral nerves and brain of dy/dy mice using three, well characterized antibodies. In normal muscle laminin alpha 2 is localized to the basement membrane of the myofibres and the Schwann cells of peripheral nerves, whilst in adult brain it is only detected on blood vessels. Our results show that there is appreciable, but slightly reduced, expression of laminin alpha 2 in skeletal muscle of dy/dy mice but almost no detectable protein in the brain, peripheral nerve and spinal nerve roots. Our observations are at present unexplained but they raise the possibility for the first time that there may be different tissue specific isoforms of laminin alpha 2. Molecular characterization of possible differences responsible for our observations may aid the identification of the mutation in the dy/dy mouse and lead to a better understanding of the role and expression of laminin alpha 2 in pathological conditions.
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PMID:Differential labelling of laminin alpha 2 in muscle and neural tissue of dy/dy mice: are there isoforms of the laminin alpha 2 chain? 954 31


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