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)

We have characterized deletions of the dystrophin gene in patients suffering from relatively mild muscular dystrophy. Our data show that most of the Becker muscular dystrophy (BMD) patients have intragenic deletions which leave the protein reading frame in phase. Remarkably, large deletions of the region corresponding to the central triple helical repeats in the protein can result in an exceptionally mild phenotype. Three brothers suffering from BMD, glycerol kinase deficiency, and adrenal hypoplasia possess a deletion at the 3' end of the gene. They also display developmental delay. Thus the 3' processing of the gene must be necessary for the correct function of the dystrophin molecule.
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PMID:Characterization of deletions in the dystrophin gene giving mild phenotypes. 224 31

We report the case of an infant with facial dysmorphism, congenital hydrocephalus, severe hypotonia and absence of psychomotor development, with ocular and cerebral malformations consistent with the diagnosis of Walker-Warburg syndrome (WWS). Investigations included a cerebral CT scan indicative of type II lissencephaly and a muscular biopsy which showed findings of muscular dystrophy. The association of hypotonia, developmental delay and seizures with a neuronal migration disturbance and retinal involvement raised the suspicion of a peroxisomal disorder. The pertinent biochemical investigations, however, were negative. The features of this syndrome are reviewed, emphasizing the similarities with other related disorders as cerebro-oculo-muscular syndrome. We suggest that muscle involvement should be investigated in every case of WWS.
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PMID:[Walker-Warburg syndrome: cerebro-ocular dysgenesis and congenital muscular dystrophy]. 261 34

DNA samples from nine previously reported patients with X-linked recessive glycerol kinase deficiency, associated in seven of them with adrenal hypoplasia and in five with developmental delay and myopathy, have been studied for deletions of the Duchenne/Becker muscular dystrophy gene by probing with the entire cDNA for the dystrophin protein. All five patients with myopathy, including two in whom no deletions had been detected before, were found to have variable-sized deletions extending through the 3' end of this gene. The 5' deletion breakpoints are intragenic in four cases and have been mapped precisely on the exon-containing HindIII fragment map. A correlation was found between severity and progression of the muscular dystrophy phenotype and the sizes of the gene deletions. In cases in which there was glycerol kinase deficiency/adrenal hypoplasia microdeletion syndrome without myopathy, no deletions were found with the dystrophin cDNA.
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PMID:Myopathy in complex glycerol kinase deficiency patients is due to 3' deletions of the dystrophin gene. 284 Aug 18

Glycerol kinase deficiency (GKD) is an X-linked recessive trait that occurs in association with congenital adrenal hypoplasia (AH) and developmental delay with or without congenital dystrophic myopathy. Several such patients have recently been reported to have cytological deletions of chromosome region Xp21 and/or of DNA markers that map near the locus for Duchenne muscular dystrophy (DMD) in band Xp21. We have examined the initial family reported in the literature and, using prometaphase chromosome studies and Southern blot analysis with 13 different DNA probes derived from band Xp21, have found no deletions within this region of the X chromosome. When DNA samples from six other unrelated affected males were analyzed, four of them were found to have different-size deletions within Xp21. Thus, the form of GKD associated with AH and dystrophic myopathy exhibits significant genetic heterogeneity at the DNA level. No deletions were detected in two patients with isolated GK deficiency. Comparison of our molecular studies of unrelated patients with deletions of DNA segments allows us to define the region of Xp21 (between probes J-Bir and L1.4) that most likely contains the genes for GKD and AH. This location is distal to the DMD locus. The patients with progressive muscular dystrophy tended to have larger deletions that include markers known to derive from the DMD locus, while GKD/AH/dystrophic-myopathy patients without current evidence of deletion seemed to have a milder, nonprogressive form of congenital myopathy.
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PMID:Congenital adrenal hypoplasia, myopathy, and glycerol kinase deficiency: molecular genetic evidence for deletions. 288 86

The molecular defect in Duchenne muscular dystrophy is well established as being due to mutations at Xp21 which disrupt the normal synthesis of the 14kb dystrophin mRNA. More recently, several groups have identified a 4.8kb transcript from this locus which shares exons with the carboxy-terminal region of the dystrophin gene. In this paper we present evidence for an additional 2.2kb mRNA transcript. The 5' untranslated region and first 7 amino acids are identical to that published for the 4.8kb transcript. The position of the translational stop codon and 3' untranslated region is similar to that previously described as the truncated fetal dystrophin isoform. This 2.2kb mRNA has a similar tissue distribution to that described for the 4.8kb mRNA but unlike the other transcripts from the DMD locus, the 2.2kb mRNA is expressed in early development. The relevance of this transcript in the clinical expression of muscular dystrophy and developmental delay is discussed.
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PMID:Apo-dystrophin-3: a 2.2kb transcript from the DMD locus encoding the dystrophin glycoprotein binding site. 851 89

The congenital muscular dystrophies are a heterogeneous, recessively inherited group of disorders that have been subclassified on the basis of clinical central nervous system involvement. We report two children with "pure" congenital muscular dystrophy, one merosin negative and one merosin positive with extensive white matter and occipital cortical neuromigration abnormalities on magnetic resonance imaging (MRI). The first patient (merosin-negative congenital muscular dystrophy) presented with hypotonia and weakness in the neonatal period and subsequently was found to have a leukoencephalopathy and occipital cortical dysplasia on magnetic resonance imaging. The second patient presented with developmental delay without definite weakness. Initial investigations revealed a leukoencephalopathy and cortical dysplasia, but the patient subsequently was shown to have merosin-positive congenital muscular dystrophy. These patients illustrate that white-matter changes are not specific for merosin-negative congenital muscular dystrophy alone and that extensive cortical abnormality can be found in both groups of patients. In addition, our second patient illustrates a nonmuscular mode of congenital muscular dystrophy presentation that should be considered in patients with a "nonprogressive leukodystrophy."
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PMID:Congenital muscular dystrophy, white-matter abnormalities, and neuronal migration disorders: the expanding concept. 979 53

We investigated two children who presented with delayed motor milestones. The first was a girl who was referred at 20 months because of developmental delay. She walked at 28 months and currently, aged 5 years, is independently mobile but has difficulty rising from the floor or going upstairs. The second was also a girl who presented at 6 weeks of age with hypotonia. Her motor milestones were delayed and she walked at the age of 2 years and 8 months and is currently independently mobile at the age of 3 years. Serum creatine kinase was elevated and a muscle biopsy showed dystrophic changes in both children. Immunohistochemistry of the laminin alpha2 chain of merosin was very similar in both cases: using a C-terminal antibody that recognizes an 80 kDa fragment, there was a mild reduction in expression on most fibres, while the staining with another antibody that recognizes a 300 kDa fragment showed a very marked reduction. Mutational analysis of the laminin alpha2 chain gene in the first patient showed that one of the two alleles had a de novo single nucleotide deletion at position 5702, causing a frameshift. In the other allele, we identified two point mutations present in cis; one was a G-->C transition at position +5 while the second was a T-->C transition at position +6 of the conserved donor splicing consensus sequence of introns 37 and 63, respectively. Transcription analysis of the corresponding cDNA region did not show any alternative splicing occurring as a result of these splice site mutations. Therefore, these mutations probably affect the splicing efficiency. Interestingly, the second child carried in both alleles the same two splicing consensus sequence mutations found in cis in the first patient. Our data provide further evidence that mutations in the laminin alpha2 chain gene are responsible not only for the severe form of congenital muscular dystrophy with onset at birth, but also for milder phenotypes, with later onset, in which the synthesis of a partially functional protein, or of a normal protein but in reduced quantity, is possible. The finding that these two unrelated patients had the same unusual mutation in common might suggest that this is a relatively commonly allele responsible for partial merosin deficiency in the UK.
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PMID:Mutations in the laminin alpha2-chain gene in two children with early-onset muscular dystrophy. 1061 Nov 18

Myotonic muscular dystrophy is the most frequent autosomal muscular dystrophy affecting adults and children. It affects multiple organ systems and is probably the best example of variable expressivity in a human disease. This article presents a patient with congenital myotonic dystrophy who had facial dysmorphism, hypotonia, talipes, feeding and respiratory difficulties in the neonatal period and later presented to us with developmental delay and had percussion myotonia. His mother had clinical and electrophysiological features of myotonia. Expansion of unstable CTG trinucleotide repeat in the myotonic protein kinase gene was demonstrated in both. The identification of this molecular defect allows its specific diagnosis in relation to other neuromuscular disorders as well as accurate prenatal diagnosis.
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PMID:Congenital myotonic dystrophy. 1140 62

We report a two-year-old Caucasian boy who had neonatal seizures and was found to have bilateral occipito-temporal polymicrogyria on neonatal brain MRI. The child had no additional neurological abnormality other than the neonatal seizures, but serum CK was found to be elevated (5 - 7 times normal values) and the muscle biopsy showed evidence of early muscular dystrophy. Detailed protein and genetic studies did not allow the identification of a known form of muscular dystrophy. The boy has been followed regularly and he currently has mild global developmental delay but no clinical signs of muscle involvement. The association of polymicrogyria and muscular dystrophy is known to occur in Fukuyama and Walker Warburg muscular dystrophies, in muscle-eye-brain disease and in some patients with merosin deficient CMD. However the absence of weakness and of eye involvement, the normal expression of merosin and alpha dystroglycan and the pattern of brain involvement make it very unlikely that the child is affected by one of these forms. As the pattern of brain involvement and the muscle pathology is not typical of one of the forms of neuronal migration disorders secondary to a known gene defect, we suspect that the combination of muscle and brain involvement found in this child is not coincidental. Our findings suggest that serum CK should be determined in children with undiagnosed polymicrogyria, even in the absence of weakness. This may lead to an expansion of our understanding of muscle dystrophies and cortical dysplasias.
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PMID:Occipito-temporal polymicrogyria and subclinical muscular dystrophy. 1277 31

Accumulation of RNA CUG repeats in myotonic dystrophy type 1 (DM1) patients leads to the induction of a CUG-binding protein, CUGBP1, which increases translation of several proteins that are required for myogenesis. In this paper, we examine the role of overexpression of CUGBP1 in DM1 muscle pathology using transgenic mice that overexpress CUGBP1 in skeletal muscle. Our data demonstrate that the elevation of CUGBP1 in skeletal muscle causes overexpression of MEF2A and p21 to levels that are significantly higher than those in skeletal muscle of wild type animals. A similar induction of these proteins is observed in skeletal muscle of DM1 patients with increased levels of CUGBP1. Immunohistological analysis showed that the skeletal muscle from mice overexpressing CUGBP1 is characterized by a developmental delay, muscular dystrophy, and myofiber-type switch: increase of slow/oxidative fibers and the reduction of fast fibers. Examination of molecular mechanisms by which CUGBP1 up-regulates MEF2A shows that CUGBP1 increases translation of MEF2A via direct interaction with GCN repeats located within MEF2A mRNA. Our data suggest that CUGBP1-mediated overexpression of MEF2A and p21 inhibits myogenesis and contributes to the development of muscle deficiency in DM1 patients.
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PMID:Overexpression of CUG triplet repeat-binding protein, CUGBP1, in mice inhibits myogenesis. 1472 59


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