The molecular basis for Duchenne versus Becker muscular dystrophy: Correlation of severity with type of deletion

About 60% of both Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) is due to deletions of the dystrophin gene. For cases with a deletion mutation, the "reading frame" hypothesis predicts that BMD patients produce a semifunctional, internally deleted dystrophin protein, whereas DMD patients produce a severely truncated protein that would be unstable. To test the validity of this theory, we analyzed 258 independent deletions at the DMD/BMD locus. The correlation between phenotype and type of deletion mutation is in agreement with the "reading frame" theory in 92% of cases and is of diagnostic and prognostic significance. The distribution and frequency of deletions spanning the entire locus suggests that many "in-frame" deletions of the dystrophin gene are not detected because the individuals bearing them are either asymptomatic or exhibit non-DMD/non-BMD clinical features.     

Detection of gene deletions in Chinese patients with Duchenne/Becker muscular dystrophy using CDNA probes and the polymerase chain reaction method.

One hundred thirty-eight patients with Duchenne/Becker muscular dystrophy (DMD/BMD) were screened with complete cDNA probes and the multiplex polymerase chain reaction (mPCR) amplification of 18 pairs of oligonucleotide primers. Eighty-six deletions and 4 duplications were detected, the deletion frequency being 62.3%. Eighty-two deletions were detected with the two sets of primers described by Chamberlain et al. and Beggs et al, which was 95.4% of deletions detected by complete cDNA probes. Consistent with the deletion locations described previously, the deletions of dystrophin gene in Chinese individuals are clustered mainly in two high-frequency deletion regions of exons 44-52 (68.6%) of 3' side of the gene central regions and exons 1-19 (26.7%) in the 5' side. The distribution of deletions in dystrophin gene is associated with the phenotype of DMD/BMD. In the 25 cases with in-frame deletions, 15 deletions located in the region of exons 2-47 were milder BMD and intermediate patients, as the location of deletions was not the important region of the dystrophin gene.     

Molecular and phenotypic analysis of patients with deletions within the deletion-rich region of the Duchenne muscular dystrophy (DMD) gene

Eighty unrelated individuals with Duchenne muscular dystrophy (DMD) or Becker muscular dystrophy (BMD) were found to have deletions in the major deletion-rich region of the DMD locus. This region includes the last five exons detected by cDNA5b-7, all exons detected by cDNA8, and the first two exons detected by cDNA9. These 80 individuals account for approximately 75% of 109 deletions of the gene, detected among 181 patients analyzed with the entire dystrophin cDNA. Endpoints for many of these deletions were further characterized using two genomic probes, p20 (DXS269; Wapenaar et al.) and GMGX11 (DXS239; present paper). Clinical findings are presented for all 80 patients allowing a correlation of phenotypic severity with the genotype. Thirty-eight independent patients were old enough to be classified as DMD, BMD, or intermediate phenotype and had deletions of exons with sequenced intron/exon boundaries. Of these, eight BMD patients and one intermediate patient had gene deletions predicted to leave the reading frame intact, while 21 DMD patients, 7 intermediate patients, and 1 BMD patient had gene deletions predicted to disrupt the reading frame. Thus, with two exceptions, frameshift deletions of the gene resulted in more severe phenotype than did in-frame deletions. This is in agreement with recent findings by Baumbach et al. and Koenig et al. but is in contrast to findings, by Malhotra et al., at the 5' end of the gene.     

假肥大型肌营养不良肌细胞抗肌萎缩蛋白的免疫组化研究

目的研究假肥大型肌营养不良患者肌细胞中抗肌萎缩蛋白(dystrophin)的表达及其诊断意义。方法应用针吸型活检术取121例假肥大型肌营养不良症患者(108例DMD患者,13例BMD患者)的肌组织,采用HE染色观察被检肌肉病理改变,免疫组织化学染色技术检测抗肌营养不良蛋白表达,以正常人肌细胞作为对照。结果正常人肌细胞膜上抗肌营养不良蛋白染色阳性,呈完整环形条带沿肌细胞膜分布;DMD患者肌膜完全无显色;BMD患者染色弱阳性,可见沿肌细胞膜分布的间断表达。结果 应用针吸型活检技术和免疫组化染色法检测抗肌营养不良蛋白,有助于DMD和BMD确诊及鉴别诊断。     

Mild deficiency of dystrophin-associated proteins in Becker muscular dystrophy patients having in-frame deletions in the rod domain of dystrophin.

The dystrophin-glycoprotein complex spans the sarcolemma to provide a linkage between the subsarcolemmal cytoskeleton and the extracellular matrix in skeletal muscle. In Duchenne muscular dystrophy (DMD), the absence of dystrophin leads to a drastic reduction in all of the dystrophin-associated proteins in the sarcolemma, thus causing the disruption of the dystrophin-glycoprotein complex and the loss of the linkage to the extracellular matrix. The resulting sarcolemmal instability is presumed to render muscle fibers susceptible to necrosis. In the present study, we investigated the status of the dystrophin-associated proteins in the skeletal muscle from patients with Becker muscular dystrophy (BMD), a milder allelic form of DMD. BMD patients having in-frame deletions in the rod domain of dystrophin showed a mild to moderate reduction in all of the dystrophin-associated proteins in the sarcolemma, but this reduction was not as severe as that in DMD patients. The reduction of the immunostaining for the dystrophin-associated proteins showed a good correlation with that for dystrophin in both intensity and distribution. Our results indicate that (1) the abnormality of the sarcolemmal glycoprotein complex, which is similar to but milder than that in DMD patients, also exists in these BMD patients and (2) the rod domain of dystrophin is not crucial for the interaction with the dystrophin-associated proteins.     

Pharmacological treatments for Duchenne and Becker dystrophies

Duchenne muscular dystrophy (DMD) is a severe X-linked genetic disease affecting 1 boy out of 3500. DMD is due to the lack of a submembranous cytoskeletal protein named dystrophin, leading to the progressive degeneration of skeletal, cardiac and smooth muscle tissue. A milder form of the disease, Becker muscular dystrophy (BMD), is characterised by the presence of a semi-functional truncated dystrophin, or the full-length dystrophin at reduced level. Three different therapeutic approaches are currently under study, gene therapy, cellular therapy and pharmacological therapy. One of the chosen strategies consists of the overexpression of utrophin, a protein 80% homologous with dystrophin, and able to perform similar functions. In this review, we shall consider studies of pharmacological therapy, the aims of which can be classified in three categories: reversal of dystrophic phenotype, dystrophin expression, utrophin overexpression.     

Duchenne and Becker muscular dystrophy: from gene diagnosis to molecular therapy

Duchenne and Becker muscular dystrophy (DMD/BMD) are X-linked muscular dystrophies. The isolation of the defective gene in DMD/BMD has led to a better understanding of the disease process and has promoted studies regarding the application of molecular therapy. The purpose of this review is to present the progress made in this area of research with particular reference to dystrophin Kobe. Based on the results from the molecular analysis of dystrophin Kobe, we propose a novel molecular therapeutic method for DMD in which antisense oligonucleotides transform DMD into a milder phenotype by inducing exon skipping. In addition, current proposals for the molecular therapy of DMD are discussed.     

DNA deletions in mild and severe Becker muscular dystrophy

Summary The DNA of 33 patients diagnosed as suffering from Becker muscular dystrophy (BMD) has been probed with cloned DNA sequences from Xp21, known to reveal DNA deletions in patients suffering from the more severe Duchenne muscular dystrophy (DMD). Two BMD cases showed clear deletions. A third case gave aberrant band sizes, which further analysis showed to be caused by a small deletion. This suggests that deletions in DXS164 occur approximately as frequently in BMD as they do in DMD. Of the two cases showing large deletions, one is at the severe end of the Becker clinical spectrum, whilst the other is a classical Becker-type dystrophy. The fact that loci defined by probes commonly deleted in classical DMD patients are also deleted in BMD patients of varying severity is strong additional evidence that these disorders are allelic, and further justifies the use of probes with defined linkage relationships to DMD also being used for counselling in BMD families.     

Molecular diagnosis of Duchenne/Becker muscular dystrophy by polymerase chain reaction and microsatellite analysis

Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are X-linked recessive genetic disorders resulting from mutations in the dystrophin gene. About two-thirds of the affected patients have large deletions or duplications, which occur in the 5' and central region of the gene. The remaining DMD/BMD cases show no deletions, so they cannot be easily identified by current strategies. In these DMD/BMD families, a linkage analysis that involves DNA markers of the flanking and intragenic dystrophin gene are necessary for carrier and prenatal diagnosis. We analyzed eighteen deletion-prone exons of the gene by a polymerase chain reaction (PCR) in order to characterize the molecular defects of the dystrophin gene in Korean DMD/BMD families. We also performed a linkage analysis to assess the usefulness and application of six short tandem repeat markers for molecular diagnosis in the families. We observed a deletion that eliminated the exon 50. Also, a linkage analysis in the families with six short tandem repeat (STR) markers showed heterozygosity at most of the STR markers. The haplotype analysis was useful for detecting the carrier status. This study will be helpful for a molecular diagnosis of DMD/BMD families in the Korean population.     

Proportion and pattern of dystrophin gene deletions in North Indian Duchenne and Becker muscular dystrophy patients

Population-based variations in frequency and distribution of dystrophin gene deletions have been recognized in Duchenne/Becker (DMD/BMD) muscular dystrophy patients. In the present study, DNA samples from 121 unrelated DMD/BMD patients from North India were analyzed for deletional studies with multiplex PCR and Southern hybridization. A total of 88 (73%) patients showed intragenic deletions in the dystrophin gene. The observed proportion of gene deletions is relatively high, particularly compared with that of Asian counterparts. However, the distribution of breakpoints across the gene does not show significant variations. Received: 5 June 1996 / Revised: 4 September 1996     

Immunological hurdles in the path to gene therapy for Duchenne muscular dystrophy

Patients with Duchenne muscular dystrophy (DMD), an X-linked lethal muscle-wasting disease, have abnormal expression of the protein dystrophin within their muscle fibres. In the mdx mouse model of this condition, both germline and neonatal somatic gene transfers of dystrophin cDNAs have demonstrated the potential of gene therapy in treating DMD. However, in many DMD patients, there appears to be no dystrophin expression when muscle biopsies are immunostained or western blots are performed. This raises the possibility that the expression of dystrophin following gene transfer might trigger a destructive immune response against this 'neoantigen'. Immune responses can also be generated against the gene transfer vector used to transfect the dystrophic muscle, and the combined immune response could further damage the already inflamed muscle. These problems are now beginning to be investigated in immunocompetent mdx mice. Although much work remains to be done, there are promising indications that these immune responses might not prove as much of a concern as originally envisaged.     

Molecular pathology of Duchenne and Becker muscular dystrophy]

Duchenne and Becker muscular dystrophies (DMD and BMD) are two allelic recessive X-linked disorders. Molecular deletions of various regions of the dystrophin gene are the main mutations detected in DMD and BMD patients. Molecular study of DMD and BMD DNA are instrumental to understand the pathological molecular mechanisms and the function of the protein. We describe here dystrophin and its interaction with a glycoprotein complex and we then focus on two particular patients with partial deletions of the dystrophin gene: 1) a typical Becker patient, who shows an intragenic deletion disrupting the reading frame. We describe in this case alternative splicings restoring the reading frame, which might explain the mild clinical phenotype of this patient, 2) a deletion of the distal part of the DMD gene coding for the carboxyterminal domain of the dystrophin in a young patient. The normal localization of dystrophin at the inner face of the plasma membrane in the muscle of this patient suggests that the last domain of this protein is not sufficient to anchor dystrophin at the membrane.     

Deletions in the dystrophin gene: analysis of Duchenne and Becker muscular dystrophy patients in Quebec

Summary We have analyzed patient DNA samples in 77 unrelated Duchenne (DMD) and Becker (BMD) muscular dystrophy families, 73 of which were of French Canadian origin. We show that the frequency (68%) and distribution of deletions within the dystrophin gene was neither random nor unique in this population. We localized 33% of the deletions to the proximal portion of the dystrophin gene while 63% involved the exons spanning introns 43 through 55 with breakpoint clusters occurring within introns 44 and 50. Whether the dystrophin open reading frame (ORF) is maintained constrains the distribution of DMD/BMD deletions such that BMD deletions tend to be strikingly homogeneous. Finally, the conservation of the dystrophin ORF and the severity of the clinical phenotype were concordant in 95% of the DMD/BMD deletions documented by this work.     

Dystromirs as Serum Biomarkers for Monitoring the Disease Severity in Duchenne Muscular Dystrophy

Duchenne muscular Dystrophy (DMD) is an inherited disease caused by mutations in the dystrophin gene that disrupt the open reading frame, while in frame mutations result in Becker muscular dystrophy (BMD). Ullrich congenital muscular dystrophy (UCMD) is due to mutations affecting collagen VI genes. Specific muscle miRNAs (dystromirs) are potential non-invasive biomarkers for monitoring the outcome of therapeutic interventions and disease progression. We quantified miR-1, miR-133a,b, miR-206 and miR-31 in serum from patients with DMD, BMD, UCMD and healthy controls. MiR-1, miR-133a,b and miR-206 were upregulated in DMD, but unchanged in UCMD compared to controls. Milder DMD patients had higher levels of dystromirs than more severely affected patients. Patients with low forced vital capacity (FVC) values, indicating respiratory muscle weakness, had low levels of serum miR-1 and miR-133b. There was no significant difference in the level of the dystromirs in BMD compared to controls.We also assessed the effect of dystrophin restoration on the expression of the five dystromirs in serum of DMD patients treated systemically for 12 weeks with antisense oligomer eteplirsen that induces skipping of exon 51 in the dystrophin gene. The dystromirs were also analysed in muscle biopsies of DMD patients included in a single dose intramuscular eteplirsen clinical trial. Our analysis detected a trend towards normalization of these miRNA between the pre- and post-treatment samples of the systemic trial, which however failed to reach statistical significance. This could possibly be due to the small number of patients and the short duration of these clinical trials.Although longer term studies are needed to clarify the relationship between dystrophin restoration following therapeutic intervention and the level of circulating miRNAs, our results indicate that miR-1 and miR-133 can be considered as exploratory biomarkers for monitoring the progression of muscle weakness and indirectly the remaining muscle mass in DMD.     

Further studies of gene deletions that cause Duchenne and Becker muscular dystrophies

Fetal muscle cDNA clones covering at least 11.4 kb of the Duchenne muscular dystrophy (DMD) gene sequence were used to identify a deletion-prone region in DNA from DMD and Becker muscular dystrophy (BMD) patients. Of 36 BMD cases, 17 (47%) had deletions and all of the deletions began in the same intron of the gene. Of 107 DMD patients, 27 (25%) were deleted for this region, and 19 deletions originate in the same intron. Using a cDNA probe for an adjacent region of the gene, 32 new deletions were detected in DMD patients (total 44%). No new BMD deletions were detected. The DMD deletions were very heterogeneous. Thus two cDNA probes covering 2.4 kb could detect 53% of these deletions. Considering the whole locus, DMD and BMD are caused by a deletion of the gene sequence in at least 67% of cases.     

Expression of dystrophin on the cell surface membrane of intrafusal fibers of human skeletal muscle

Summary We examined the morphological expression of dystrophin in the intrafusal muscle fibers in skeletal muscle from normal human and Duchenne muscular dystrophy (DMD) patients, using antisera against the N-terminal and C-terminal regions of dystrophin. The intrafusal fibers of normal muscle express dystrophin on their cell surface membrane, but those of DMD muscle do not.Abbreviation DMD Duchenne muscular dystrophy