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 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

It has recently been shown that merosin, an extracellular matrix protein linked to the dystrophin-associated glycoproteins, is deficient in a proportion of patients with classical congenital muscular dystrophy (CMD). We have undertaken a detailed study of the clinical features and brain imaging in 24 cases of CMD in relation to the merosin status. Immunocytochemistry showed that merosin was present in 13 cases and markedly deficient in 11. In the merosin-positive cases, the maximum motor achievement was independent walking in 11, walking with support in one and sitting unsupported in one (currently 18 months old). In contrast, none of the merosin-deficient cases achieved independent ambulation. Two achieved walking with support, nine standing with support. In addition, nine of the 11 merosin-deficient cases had a creatine kinase level greater than 2000 whereas only one merosin-positive case had this degree of elevation. Magnetic resonance imaging of the brain was carried out on 15 of the children. All eight merosin-positive cases had normal scans whereas all seven of the merosin-deficient cases had significant changes in the white matter. This study has demonstrated that children with merosin-deficient CMD have a more severe clinical phenotype and associated white matter changes on brain imaging.
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PMID:Clinical phenotype in congenital muscular dystrophy: correlation with expression of merosin in skeletal muscle. 758 Feb 43

The expression of laminin subunits M, A, B1 and B2 was studied immunocytochemically in 25 cases of classical congenital muscular dystrophy (CMD), 11 hypotonic infants, 20 cases of a variety of inherited and acquired neuromuscular disorders, and 11 controls. Merosin, as indicated by labelling for the M chain, was deficient in 12 (48%) of the cases of classical CMD. Seven cases had no detectable labelling for the M chain whereas five showed traces, including three cousins from the same family. This suggests that very low expression may relate to a possible difference in the molecular defect, compared with cases completely devoid of the M chain. The A chain was abundant in regenerating fibres and in immature fibres expressing fetal myosin. In all merosin-deficient cases the A chain was over-expressed but this was not due to immaturity. A secondary reduction in sarcolemmal expression of the B1 chain occurred in five merosin-deficient cases, whilst expression in vascular tissue was normal. B1 was also reduced in one merosin-positive case of CMD, suggesting that other subunits may be involved in other forms of CMD. No differences in the expression of the B2 chain were observed in any of the cases studied. No abnormality in laminin subunits was found in controls or other neuromuscular disorders.
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PMID:Expression of laminin subunits in congenital muscular dystrophy. 758 Feb 44

The laminin variant of adult skeletal muscle fibres and Schwann cells is known as merosin, and is composed of M-B1-B2 chains. Blood vessels and immature fibres express the A chain in association with B1 or S, and B2. The importance of merosin has recently been shown by its absence in one form of congenital muscular dystrophy and in the mutant dy/dy mouse, and by its partial deficiency in Fukuyama congenital muscular dystrophy. We have examined the immunocytochemical localization of the M, A, B1 and B2 laminin chains in human fetal muscle from 7 to 40 weeks' gestation to ascertain their developmental expression. The B1 and B2 chains were detected on muscle fibres at 7 weeks, but only traces of the A or M chain were seen. By 21 weeks maximal levels of all four subunits were observed on all fibres. This suggests that the basement membrane is still being assembled until this stage of development. Expression of the A chain on muscle fibres was not reduced until 34 weeks and low levels persisted at birth. The concomitant expression of the M and A chains at early stages may indicate a laminin variant, in addition to merosin, that is highly expressed in fetal muscle. Merosin was seen in intramuscular nerves at 11 weeks. B1 and B2 subunits were detected in blood vessels from 7 weeks' gestation and the A chain from 11 weeks. The capillary network, however, is not fully established in fetal muscle. Merosin is therefore detected early during human fetal muscle development, and this should be taken into account when assessing aborted fetuses at risk for congenital muscular dystrophy.
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PMID:Expression of laminin subunits in human fetal skeletal muscle. 759 42

A patient with non-Fukuyama type merosin-positive congenital muscular dystrophy (nonFCMD) who had severe muscle weakness leading to early death was reported. He was the first product of epileptic mother who had been placed on phenobarbital and phenytoin. The patient had severe respiratory failure and muscle weakness at the neonatal period, and died at 4 months of age. Multiple joint contractures were also noted at birth. Serum creatine kinase was within normal limits (123 IU/l). Electromyography showed a myogenic pattern. Brain computed tomographic (CT) scan and magnetic resonance imaging (MRI) were normal without white matter lucency or pachygyria. Muscle biopsy revealed dystrophic changes and type 2C fiber predominance. Dystrophin, dystrophin-associated glycoproteins and merosin were all positively demonstrated. Although patients with merosin-positive nonFCMD have relatively mild clinical course, our patient had severe muscle weakness with fatal outcome. Defect in muscle fiber maturation and differentiation, such as an increase of undifferentiated type 2C fibers, may be a major factor to influence muscle symptoms in non FCMD.
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PMID:[Non-Fukuyama type merosin-positive congenital muscular dystrophy with delayed muscle fiber type differentiation: a case report]. 761 93

Murine dystrophia muscularis-2J (dy2J) is an autosomal recessive disorder characterized by muscular dystrophy and dysmyelination of peripheral nerve. Biochemical characterization of dy2J mice revealed the expression of a mutant laminin alpha 2 chain with a smaller molecular weight in the basal lamina of striated muscle and peripheral nerve. DNA sequencing of the alpha 2 chain cDNA amplified by RT-PCR from dy2J mice identified a novel and predominant transcript with a 171 base in-frame deletion. We also confirmed an underlying splice donor site mutation in the alpha 2 chain gene of the dy2J mouse. Translation of this variant transcript would result in the expression of a truncated alpha 2 chain having a 57 amino acid deletion (residues 34-90) and a substitution of Gln91Glu in the N-terminal domain VI, which is presumed to be involved in self-aggregation of laminin heterotrimers. Thus, the mutant alpha 2 chain could disrupt the formation of the laminin network and lead to muscle cell degeneration. Our results provide a molecular basis of muscular dystrophy and dysmyelination of peripheral nerve.
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PMID:Identification of a novel mutant transcript of laminin alpha 2 chain gene responsible for muscular dystrophy and dysmyelination in dy2J mice. 765 59

We report the clinical and neuroradiological follow-up of 2 Italian sisters, 10 and 6 years of age, affected by congenital muscular dystrophy (CMD) with divergent CNS involvement. In both, CMD was diagnosed by finding dystrophic alterations in muscle biopsy and muscular deficit at birth. The elder sister suffered also from marked intellectual deficit and epilepsy, as usually reported in children with Fukuyama CMD. In the same patient, at 2 years of age, CT scan showed severe hypodensity of cerebral white matter and severe ventricular dilatation of occipital horns. At 8 years of age, MRI also showed clearcut pachygyria mainly in the parietal and occipital lobes. MRI and CT scan at the same age showed improvement of the leukoencephalopathy and unchanged ventricular dilatation, as reported for patients with Fukuyama CMD. Unlike Japanese cases, however, she showed no progression in her muscular deficit and her muscle immunostaining of laminin M chain (merosin) was normal. The younger sister had normal mental development, never experienced epileptic fits and had always normal EEG. However, as often seen in classical CMD, her CT scan showed moderate hypomyelination of cerebral white matter and mild dilatation of lateral ventricles. MRI did not show any other brain abnormalities. Sequential CT scan at 2, 4 and 6 years of age showed improvement of the leukoencephalopathy. Her muscular deficit had a stationary clinical course. Her immunostaining of muscle merosin was moderately reduced. The finding of Fukuyama-like and classical CMD in 2 sisters indicates the possibility that different forms of CMD may be different expressions of the same genetic disease.
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PMID:Divergence of central nervous system involvement in 2 Italian sisters with congenital muscular dystrophy: a clinical and neuroradiological follow-up. 767 85

In various neuromuscular diseases, the most significant muscle degeneration is muscle fiber necrosis as seen in Duchenne muscular dystrophy (DMD). A certain membrane instability is probably responsible for muscle fiber necrosis, because defects in membrane proteins have been proposed to associate with progressive muscular dystrophies including dystrophin in DMD, a 50 KD subunit of dystrophin associated glycoprotein (DAG) in severe childhood autosomal recessive muscular dystrophy (SCARMD), and subunit M of laminin (merosin) in congenital muscular dystrophy and dy mouse. The vulnerable muscle surface membrane may permit extracellular calcium influx into the sarcoplasm resulting in focal myofibrillar hypercontraction (opaque fiber) and activation of proteases such as calpain and cathepsins. The muscle fiber then undergoes necrosis and allows macrophage invasion, followed by muscle fiber regeneration. Focal myofibrillar degeneration involving rimmed vacuole (RV) formation is an another striking muscle fiber degeneration seen in various neuromuscular diseases including inclusion body myositis (IBM) and distal myopathy with rimmed vacuole formation (DMRV). Abnormal accumulation of ubiquitin, beta-amyloid protein precursor and tau protein has been described in IBM by Askanas et al. The similar findings are also recognizable in DMRV and in an experimentally induced myopathy after long-term chloroquin administration to rat. Therefore, if we clarify the pathomechanism of degenerative process involved in the rimmed vacuole formation, the results may provide some insights into the understanding the process involved in amyloid plaque formation in Alzheimer's disease.
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PMID:[Muscle pathologic diagnosis--mechanism in muscle fiber degeneration]. 777 35

Congenital muscular dystrophy comprises a heterogeneous group of disorders, that have in common an early onset and a dystrophic picture on the muscle biopsy. The "pure" form of congenital muscular dystrophy is not associated with severe mental retardation or structural changes in the brain, though white matter changes on brain imaging have been detected in a significant proportion of cases. In this study we evaluated the incidence of sensory abnormalities (somatosensory and visual evoked responses) in a group of 17 patients with "pure" congenital muscular dystrophy and correlated the results of the evoked responses with the presence or absence of white matter changes on brain magnetic resonance imaging. Our results show close correlation between the presence of MRI white matter changes and abnormalities in the sensory evoked potentials. Conversely, all patients with normal brain MRI had normal somatosensory evoked potentials (SEP). Visual evoked potentials were less sensitive than somatosensory evoked potentials in detecting abnormalities in children with white matter changes on MRI. With the recent discovery of deficiency in merosin expression in the skeletal muscle of a subgroup of patients with CMD, we also correlated the presence or absence of white matter changes and the SEP responses with the merosin status. The results indicate that all merosin-negative patients had abnormal SEP as well as abnormal MRI, whilst no patient with normal merosin expression had an abnormal scan or abnormal SEP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Somatosensory and visual evoked potentials in congenital muscular dystrophy: correlation with MRI changes and muscle merosin status. 779 47

The classic murine muscular dystrophy strain, dy, was first described almost 40 years ago. We have identified the molecular basis of an allele of dy, called dy2J, by detecting a mutation in the laminin alpha 2 chain gene--the first identified mutation in laminin-2. The G to A mutation in a splice site consensus sequence causes abnormal splicing and expression of multiple mRNAs. One mRNA is translated into an alpha 2 polypeptide with a deletion in domain VI. The truncated protein apparently lacks important qualities of the wild type protein and is unable to provide sufficient muscle stability.
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PMID:Murine muscular dystrophy caused by a mutation in the laminin alpha 2 (Lama2) gene. 787 73


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