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 localization of the protein dystrophin was studied using the immunofluorescence method, in muscle biopsies from 74 patients affected by different types of muscular dystrophy and 4 normal controls. In 15 patients with limb-girdle muscular dystrophy (LGMD) the pattern was indistinguishable from normal. Among 42 Duchenne patients (DMD), 3 were totally negative and 39 showed a variable proportion (4-30%) of partially labelled fibers. With one exception 17 Becker dystrophy patients (BMD), showed a positive sarcolemmal reaction. A diffuse reaction inside the fibers, which was not observed in normal controls, was seen in the majority of DMD and also in some of the BMD patients. Based on these observations it is suggested that in DMD, a small quantity of protein is still present or there is a cross-reaction with other proteins which share some homology with dystrophin. The present results suggest that it is possible to make a differential diagnosis between DMD and BMD through dystrophin immunohistochemistry. However, to distinguish between patients with BMD and LGMD phenotypes, or DMD and outliers, complementary immunoblot studies and quantitative determination of dystrophin are necessary.
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PMID:Dystrophin immunostaining in muscles from patients with different types of muscular dystrophy: a Brazilian study. 170 Aug 8

Both normal and pathological transcripts of tissue-specific genes may be detected by polymerase chain reaction (PCR) amplification in tissues not normally considered to express the gene product. The exploitation of constitutive basal mRNA levels ("ectopic" transcription) would be a major boon to diagnostic medicine since it promises both to simplify the analysis of complex genes and to avoid the requirement for an expressing tissue that is sometimes obtainable only by biopsy. We have demonstrated the feasibility of this novel strategy by characterizing a mutation in the X-chromosomal Duchenne (or Becker) muscular dystrophy (DMD/BMD) gene encoding dystrophin. The massive size of this gene has in the past often hindered carrier detection due to the high frequency of recombination and the high proportion of new mutations. In this study a deletion was identified in both a BMD patient and a heterozygous carrier using only a minimal volume of peripheral blood. Following specifically primed reverse transcription of lymphocyte RNA, the relevant region of the pathological cDNA was PCR-amplified. Sequence analysis indicated an in-frame deletion of exons 45 to 47.
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PMID:Characterization of pathological dystrophin transcripts from the lymphocytes of a muscular dystrophy carrier. 170 53

We synthesized a peptide designated R8 (amino acid residues 1157-1201) based on the primary structure presumed from the nucleotide sequence of the cDNA clone from the gene for Duchenne muscular dystrophy. Antibody to the synthetic R8 generated by immunization of rabbits was tested on human and mouse skeletal muscle by Western blotting analysis. The antibody reacted with a component of the 400K dystrophin of normal human and mouse skeletal muscles, but not with components of the muscles of Duchenne muscular dystrophy patients and mdx mice. Thus we established that this peptide sequence is in fact missing in the protein product 'dystrophin' encoded by the DMD gene. The antibody may prove useful for the diagnosis of the Duchenne types of muscular dystrophy.
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PMID:Immunological detection of the dystrophin molecule with antibody directed against the synthetic peptide. 181 Feb 53

Neonatal screening for Duchenne/Becker Muscular dystrophy (DMD/BMD) was begun as a pilot program on January 1, 1986. The aim of this program was to reduce the incidence of this X-linked recessive degenerative neuromuscular disease. The neonatal detection of a boy with DMD allows early identification of carriers and genetic counselling. This may avert the birth of other affected males born prior to clinical diagnosis of DMD in the propositus at about age 5 years. Between January 1, 1986, and December 31, 1988, we identified and characterized a cohort of 8 asymptomatic infant boys with grossly elevated levels of creatine kinase, an active primary dystrophic process of muscle and complete dystrophin deficiency. Five of 8 males have detectable DNA alterations involving the DMD/BMD locus. Based on current hypotheses, characterization of dystrophin expression of this cohort allows us to predict a DMD phenotype in all 8 boys. To date, no additional males with DMD have been born in these families. Prospective follow-up will allow us to test the validity of dystrophin testing in predicting the clinical course and impact of this program on reproductive decision making in these families.
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PMID:Three years' experience with neonatal screening for Duchenne/Becker muscular dystrophy: gene analysis, gene expression, and phenotype prediction. 186 67

CT scans of muscles in patients with LG, MYD and DMD were obtained at five different body levels: the neck, L3 vertebral body, pelvic girdle, thigh and lower leg. CT numbers, cross sectional areas (CSA) and %CSA of muscle or fat were evaluated in each muscle. The characteristic CT patterns for each type of muscular dystrophy were obtained. Compared with DMD, the gracilis and soleus were more severely damaged in LG and the biceps femoris remained relatively preserved among the hamstrings. In addition, the multifidus of the neck and sternocleidomastoid also were more severely damaged in MYD. This study suggests that CT scan will be useful in the differential diagnosis of these types of muscular dystrophy as well as in planning appropriate rehabilitation and detecting damaged muscles.
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PMID:[CT findings of muscular dystrophy: limb girdle type (LG), myotonic type (MYD) and Duchenne type (DMD)]. 189 45

Two long-living brothers of dystrophin-related muscular dystrophy with an in-frame deletion of exon 3 of the dystrophin gene were described. Weakness of the lower extremities and pseudohypertrophy of calf muscles began at the age of 2 years in the elder brother and 4 years in the younger brother, respectively. Clinical symptoms progressed rapidly and both of them lost ambulation and became wheelchair bound at the age of 11-12 years. However, the progression of the disease process slowed in late teens, and now at the age of 36 and 33 years, respectively, they do not have respiratory or cardiac insufficiency, although they are disabled severely. Southern blotting with the entire dystrophin cDNAs, cDNA 1-2a, 2b-3, 4-5a, 5b-7, 8, and 9-14, revealed a single deletion of exon 3 in the 2 brothers. The mother was shown to be a heterozygote for this mutation. The unique clinical features of these brothers were presumed due to the following 2 factors: (1) a single deletion of exon 3 is an in-frame deletion of the dystrophin gene, and (2) exon 3 corresponds to a unique domain of the dystrophin molecule; the amino-terminal region which is highly homologous to the actin-binding-region of alpha-actinin. We consider that these 2 brothers are compatible with the so-called frame-shift hypothesis of Duchenne/Becker muscular dystrophy (DMD/BMD) phenotype, although they are diagnosed DMD by the classification method based on the patients' age of becoming permanently wheelchair bound.
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PMID:[Two long-living brothers of dystrophin-related muscular dystrophy with an in-frame deletion of exon 3 of the dystrophin gene--clinical features and diagnosis]. 189 67

Dystrophin is the gene product of the Duchenne (DMD) and Becker (BMD) muscular dystrophy gene locus on the short arm of the X chromosome. Complete lack of dystrophin is pathognomonic for DMD and variable changes of the molecule may be observed in the milder allelic form of BMD. In the present study the two methods available for dystrophin assessment, immunofluorescence detections on cryosections (IF) and Western blotting (WB) were systematically compared using polyclonal and monoclonal antibodies to various regions along the dystrophin molecule. A total of 95 patients with DMD or BMD were investigated including two female patients. Dystrophin assessment revealed abnormal abundance and/or distribution in all 95 patients with DMD or BMD. Only trace amounts of dystrophin were detected in 29% of the DMD patients and complete lack of dystrophin was found in 71%. In two females with DMD but with normal karyotype single dystrophin-positive fibres were found among more than 90% negative fibres. Out of 26 patients with BMD 19 (73%) had a dystrophin molecule of abnormal molecular weight. The results of IF were largely compatible with those from WB but differences were also observed, e.g. one barely symptomatic BMD patient with dystrophin of increased molecular weight showed normal IF. Out of four carriers of BMD three showed evidence of reduced dystrophin immunostaining in some muscle fibres. In 20 other patients limb girdle muscualar dystrophy with "Duchenne-like" or "Becker-like" phenotype was suspected because dystrophin showed normal abundance and distribution. Focal discontinuity of muscle cell-surface dystrophin staining was observed in one patient with a congenital, autosomal recessive muscular dystrophy and in one out of five patients with polymyositis/dermatomyositis. The study emphasizes the need for, and value of, dystrophin assessment in every case of suspected BMD or DMD.
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PMID:Dystrophin as a diagnostic marker in Duchenne and Becker muscular dystrophy. Correlation of immunofluorescence and western blot. 194 22

We report an isolated case of a girl aged three years six months with Duchenne muscular dystrophy. Analysis of the patient's DNA with a probe covering the DNA gene revealed no deletion. Dystrophin, studied in biopsied muscle from the patient, using antidystrophin antibody in combination with immunofluorescence, was nearly completely absent. In this sporadic case of female muscular dystrophy, the identification of dystrophin-deficient muscle fibers made it possible to establish an accurate diagnosis of DMD affected female.
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PMID:Duchenne muscular dystrophy in a girl identified by dystrophin deficiency. 194 23

We evaluated glutamine synthetase (GS) and alanine aminotransferase (GPT) activities in biopsied muscle from 40 cases of various neuromuscular diseases. GS and GPT catalyze the synthesis of glutamine and alanine, respectively, from amino acids derived in part from the breakdown of muscle proteins. The subjects were 7 cases of muscular dystrophy; 1 Duchenne type (DMD), 3 limb-girdle type, 2 facioscapulohumeral type (FSH), 1 Fukuyama type (FCMD); and 1 myotonic dystrophy (MyD); 5 mitochondrial myopathies; 11 inflammatory myopathies including 6 polymyositis and 3 myopathy associated with collagen disease; 5 endocrinological myopathies including 2 periodic paralysis; and, 11 cases of neurogenic amyotrophies [4 amyotrophic lateral sclerosis (ALS), 4 spinal progressive muscular atrophy (SPMA) and 3 other types]. Control subjects were 8 patients with thigh operations. Biopsied muscle was homogenized and assayed for GS activity by the method of Smith et al.; GPT was assayed by commercial kit. Protein was assayed by the method of Lowry et al. Enzyme activities between mean -2SD and mean +2SD of controls were considered to be the normal range. GS activity in control subjects was 28.22 +/- 7.13 (mean +/- SD) nmol glutamine formed/mg protein/hr. Fifteen of 40 cases showed increased enzyme activity, including DMD and FCMD, the acute phase of polymyositis, and periodic paralysis. GPT activity in controls was 16.56 +/- 4.05 IU/mg protein. Sixteen of 40 patients showed increased enzyme activity: FCMD, FSH, MyD, inflammatory and endocrinological myopathy, and ALS. On the other hand, mitochondrial myopathy showed significantly decreased activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Studies on enzyme activities relating to amino acid mobilization in biopsied muscles]. 198 Jun 44

The gene for Duchenne (DMD) and Becker (BMD) types of muscular dystrophy has been isolated by Kunkel's and Worton's groups and shown to be the largest one over known in human, spanning more than 65 exons distributed over 2,500 kb in P21 region of X-chromosome. Fourteen kb cDNA encodes 427 kD cytoskeletal protein "dystrophin", supposed to form an anti-parallel homodimer like alpha-actinin and spectrin. The polyclonal antibodies against the synthetic peptides or fusion proteins predicted from dystrophin cDNA disclosed the complete absence of dystrophin at the surface membrane of both skeletal and cardiac muscles of DMD in marked contrast with the continuous and uniform staining in normal muscles. In manifested carriers, the mosaic expression of dystrophin was observed at the surface membrane of the skeletal muscle. BMD, which is thought to be allelic to DMD, revealed a faint or patchy immunostaining along with the abnormal and/or lower amount of dystrophin. In BMD, there is an intimate connection between the amount of dystrophin and the severity of the clinical course. It should be noted that 5 out of 39 patients with clinical diagnosis of limb-girdle (L-G) muscular dystrophy showed a patchy staining pattern, suggesting BMD not L-G. On the basis of dystrophin discovery, a possible therapeutic trial of DMD is discussed.
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PMID:[Molecular pathology of Duchenne and Becker muscular dystrophy]. 209 74


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