Isolation of a conserved sequence deleted in Duchenne muscular dystrophy patients.

We have isolated a DNA sequence (HIP25) by subtraction- hybridisation which is deleted in a number of Duchenne muscular dystrophy (DMD) patients. HIP25 is conserved in evolution and hybridises to human fetal and adult muscle mRNA. HIP25 is absent in human fetal fibroblast mRNA. Physical mapping data localise this sequence within Xp21 between the breakpoints of X;autosome translocations found in two females suffering from the disease. HIP25 is a candidate exon sequence for the basic defect in DMD boys deleted at this locus.     

A deletion hot spot in the Duchenne muscular dystrophy gene

We have made a detailed study of a deletion hot spot in the distal half of the Duchenne muscular dystrophy (DMD) gene, using intragenic probe P20 (DXS269), isolated by a hybrid cell-mediated cloning procedure. P20 detects 16% deletions in patients suffering from either DMD or Becker muscular dystrophy (BMD), in sharp contrast to the adjacent intragenic markers JBir (7%) and J66 (less than 1%), mapping respectively 200-320 kb proximal and 380-500 kb distal to P20. Of the P20 deletions, 30% start within a region of 25-40 kb, the majority extending distally. P20 was confirmed to map internal to a distal intron of the DMD gene. This region was recently shown by both cDNA analysis (M. Koenig et al., 1987; Cell 50: 509-517), and field inversion electrophoresis studies (J.T. Den Dunnen et al., 1987, Nature (London) 329: 640-642) to be specifically prone to deletions. In addition, P20 detects MspI and EcoRV RFLPs, informative in 48% of the carrier females. Together, these properties make P20 useful for carrier detection, prenatal diagnosis, and the study of deletion induction in both DMD and BMD.     

The use of field-inversion gel electrophoresis for deletion detection in Duchenne muscular dystrophy.

Deletion is a common cause of Duchenne muscular dystrophy (DMD). Field-inversion gel electrophoresis, in conjunction with Southern blot hybridization, was used to detect large SfiI DNA fragments in the DMD locus. Two unrelated boys with DMD were found to have abnormal sized DNA fragments resulting from deletions. Some of the female relatives of these patients were also shown by this method to have deletions in the DMD locus.     

A very small frame-shifting deletion within exon 19 of the Duchenne muscular dystrophy gene

We report the molecular characterization of a Japanese Duchenne muscular dystrophy (DMD) patient. The analysis of genomic gene by polymerase chain reaction indicates that the individuals have a limited deletion within an amplified region, which encompasses exon 19 of DMD gene. The amplified region was sequenced. Comparison of the deletion joint sequence with the normal amplified region sequence indicates that both 5' and 3' deletion end points are present within exon 19 and the deletion removes total 52 bp out of 88 bp of exon 19. Both his mother and sister are carriers of the deletion-containing allele. The mutation introduces a termination codon at residue 791 in exon 20, and is predicted to result in the production of a severely truncated protein. This sort of deletion (designated as DMD-Kobe) might be classified as a new type of DMD gene abnormality.     

Molecular deletion patterns in Duchenne and Becker type muscular dystrophy

Summary DNA from 80 Duchenne (DMD) and 15 Becker (BMD) index patients was analyzed with 12 genomic probes and the total cDNA. Deletions were detected in 24 DMD (30%) and 10 BMD patients (67%) by genomic probes alone, mostly p20, pXJ, and/or pERT87. All deletions were confirmed by cDNA probes, and an additional 29 DMD deletions were detected, resulting in a total of 63/95 deletions (66%). The majority of the deletions are localized between kb 6.7 and 9.7 of the cDNA; a smaller group, between kb 0.5 and 3.5. Of the deletions, 90% are detected by the three cDNA probes 1–2a, 7, and 8. This can be applied to strategies for carrier detection and prenatal diagnosis. The order of 13 exon-containing HindIII fragments in the region between probes 7 and 9–10, where most of the deletions are found, could be defined. The deletion patterns in DMD and BMD patients are different and well in accordance with the “reading frame theory” of Monaco and coworkers. Thus our findings indicate that a DMD or BMD phenotype may be predicted according to the breakpoint position and the number of deleted exons.     

Mapping DNA sequences in a human X-chromosome deletion which extends across the region of the Duchenne muscular dystrophy mutation.

A somatic cell hybrid has been constructed and characterized using fibroblasts from a phenotypically normal woman who possesses an X chromosome with an interstitial deletion of the short arm. High-resolution banding indicates that the deleted segment is either Xp22.13-p11.4 or Xp22.11-p11.23. Southern blot hybridization to previously mapped DNA sequences confirms that the missing segment of the X chromosome is a deletion and not an interstitial translocation and supports the cytogenetic interpretation that the deletion extends proximal of Xp11.3 and therefore probably comprises Xp22.11-p11.23. Three further DNA sequences have been localized to the region of the deleted segment. The following order has been assigned to the seven probes used: Xpter-RC8-pXUT22-(OA1,C7,M2C)-L1.28-RD6 -Xcen.     

Carrier detection and genetic counselling in Duchenne muscular dystrophy: a follow-up study.

Assay of serum creatine kinase activity is useful in the detection of carriers of the X-linked gene for Duchenne muscular dystrophy (DMD). For genetic counselling this assay has been used in conjunction with pedigree analysis to improve estimates of the risk that a female relative of a DMD patient is a carrier. To measure the impact of the program, follow-up information was obtained from women who had received genetic counselling for DMD. Their responses showed that the risk of producing an affected son had been a major factor in their attitude toward family planning, and their reproductive performance correlated inversely with their genetic risk. The decision by the majority of proven carriers to prevent the birth of further male offspring was reflected in a recent decline in the frequency of a known family history of DMD among newly ascertained cases.     

Intragenic deletion patterns of dystrophin gene in Duchenne and Becker muscular dystrophy patients from Algeria

Duchenne and Becker muscular dystrophies (DMD and BMD) represent the most frequent neuromuscular diseases in humans (1/3,500–6,000 live male births), characterized by an X-linked recessive pattern of inheritance and therefore affecting mainly male individuals. DMD and BMD are allelic disorders resulting from genetic defects, mostly intragenic deletions, in the dystrophin gene. Using multiplex polymerase chain reaction (PCR), we have analyzed 170 male patients from unrelated families originating from Algeria, showing that 68 % of them harbored deletion events affecting the known 5′ or 3′ hot spot regions. The distal portion was predominantly involved (85 %), whereas 37 distinctive patterns of deletion were identified in our panel. The extent of deletion varied from 1 to 32 exons, although the average number was about four exons. The lack of seven exons (45, 46, 47, 48, 50, 51 and 52), each alone or in combination, represented about 78 % of the alterations encountered, while exon 48 was most frequently involved (50 %). The effect of the deletions showed that the reading frame rule proved mostly true, correlating with the clinical diagnosis suggested. Moreover, the c.525delT mutation in the γ-sarcoglycan gene was present in non-deleted patients (7 %), suggesting that clinical features can still be misleading. Finally, multiplex PCR proved to be a simple, fast and low-cost approach for the molecular diagnosis of dystrophinopathies in Algeria, whereas our data could contribute to the creation of a national registry of DMD/BMD patients in our country, which would give them hope to an access to already available genotype-based therapies.     

Direct carrier detection by in situ suppression hybridization with cosmid clones of the Duchenne/Becker muscular dystrophy locus

Summary A basic problem in genetic counseling of families with Duchenne/Becker muscular dystrophy (DMD/BMD) concerns the carrier status of female relatives of an affected male. In about 60% of these patients, deletions of one or more exons of the dystrophin gene can be identified. These deletions preferentially include exon 45, which can be detected by multiplex polymerase chain reaction (PCR) and Southern blot analysis of genomic cosmid clones that map to this critical region. As a new approach for definitive carrier detection, we have performed chromosomal in situ suppression (CISS) hybridization with these cosmid clones in female relatives of four unrelated patients. In normal females, most metaphases showed signals on both×chromosomes, whereas only one×chromosome was labeled in carriers. Our results demonstrate that CISS hybridization can define the carrier status in female relatives of DMD patients exhibiting a deletion in the dystrophin gene.     

DNA studies in a family with Duchenne muscular dystrophy and a deletion at Xp21.

We have performed Southern blot analysis on a large, four-generation kindred with Duchenne muscular dystrophy (DMD). Probes 754 (DXS 84), pERT87-1, pERT87-8, pERT87-15 (DXS164), and pXJ-1.1 did not hybridize to digested genomic DNA of affected males. Obligate-carrier mothers and unaffected brothers showed signals of a single X-chromosome copy intensity, and suspected noncarrier sisters demonstrated either a single band of two-copy intensity or informative polymorphisms. Uniform hybridization was seen with probes C7 (DXS28) and D2 (DXS43), which map distal to the DMD locus, and with OTC, which maps proximally. This deletion was present in six affected individuals and has been transmitted through 3 generations to date. On high-resolution chromosome analysis, a deletion within band Xp21 was consistently observed in one affected male studied and in one of the two X chromosomes in obligate carriers. This large molecular and cytogenetically visible deletion in affected DMD individuals without glycerol kinase deficiency, chronic granulomatous disease, retinitis pigmentosa (RP), or ornithine transcarbamylase deficiency is a very rare finding and should prove useful in specifically cloning additional probes within and flanking the DMD locus.     

Frameshift deletion mechanisms in Egyptian Duchenne and Becker muscular dystrophy families

Partial gene deletion is the major type of mutation leading to Duchenne muscular dystrophy (DMD) and its mild allelic form, Becker muscular dystrophy (BMD). Amplification of the genomic DNAs of 152 unrelated dystrophin patients using multiple primers detected 78 (51.3%) probands with deletion mutations. We predicted the translational reading frame for all the deletions in Egyptian dystrophin males. The frameshift rule was confirmed positively ranging for 50 to 67% of the cases depending on the type of disease. We discuss ways of accounting for some exceptions from the frameshift hypothesis in the central and proximal regions. These explanations may help in developing procedures for reducing the severity of dystrophin phenotypes to restore the correct frame by disrupting the translational fidelity. Great efforts have been put into the development of effective 'gene correction' procedures via such intrinsic mechanisms. In addition, we mapped regional difference in deletion mutation frequencies within the DMD gene locus between the different Egyptian governorates. There were no double deletions in the Egyptian dystrophin males.     

Duchenne and Becker muscular dystrophy mutations: analysis using 2.6 kb of muscle cDNA from the 5'' end of the gene.

We have isolated overlapping human fetal muscle cDNAs encompassing 2.6kb which are localised very close to the 5' end of the Duchenne muscular dystrophy (DMD) gene. Using DNA from patients with deletions of previously reported genomic probes, we have mapped the exons across the region. Investigation of deletions in both DMD and Becker muscular dystrophy (BMD) patients shows the deletions to be present in 10% of cases and heterogeneous.     

A yeast artificial chromosome contig containing the complete Duchenne muscular dystrophy gene.

A contig of 36 overlapping yeast artificial chromosome (YAC) clones has been constructed for the complete Duchenne muscular dystrophy (DMD) gene in Xp21. The YACs were isolated from a human 48,XXXX YAC library using the DMD cDNA and brain promoter fragments as hybridization probes. The YAC clones were characterized for exon content using HindIII or EcoRI digests, hybridization of individual DMD cDNA probes, and polymerase chain reaction (PCR) amplification of specific exons near the 5' end of the gene. For comparison to the known long-range restriction map of the DMD gene, YAC clones were digested with SfiI and hybridized with DMD cDNA probes. The combined analysis of the exon content and the SfiI map allowed an approximately 3.2-Mb YAC contig to be constructed. The complete 2.4-Mb DMD gene could be represented in a minimum set of 7 overlapping YAC clones.     

DNA-diagnosis of carriers of the Duchenne muscular dystrophy gene

Duchenne muscular dystrophy carrier detection has been performed by using probes XJ1.1 (intragenic probe) and probe 754 for a girl. The carrier probability was estimated by means of a computer program GenRisk combining pedigree and DNA-probe data and turned out to be 95%.