The role of muscle biopsy in analysis of the dystrophin gene in Duchenne muscular dystrophy: experience of a national referral centre.

Although the majority (65%) of boys with Duchenne muscular dystrophy (DMD) carry a deletion in the dystrophin gene, finding mutations in the remaining families is vital for counselling. We have provided a comprehensive mutation service as a national referral centre for France for over 10 years and we report here our experience. Mutation screening is on mRNA from a muscle biopsy. We have detected 79 mutations in 89 samples referred with a diagnosis of DMD, which is the most comprehensive survey to date of the full range of nondeletion mutations. Although some mutations were nonsense mutations, some frameshift mutations and some splicing mutations, all of them led to the generation of premature stop codons or a shortened product which could be detected using the Protein Truncation Test. We recommend a protocol which is robust and sensitive applied to the entire coding region reverse-transcribed from dystrophin transcripts from muscle biopsy.

Pseudoexon activation in the DMD gene as a novel mechanism for Becker muscular dystrophy.

We report the characterization of two deep intronic mutations in the Duchenne muscular dystrophy (DMD) gene of two unrelated Becker muscular dystrophy (BMD) patients, causing the aberrant inclusion of a pseudoexon in the mature transcripts. These two mutations were identified by the use of RT-PCR on transcripts isolated from muscle. The first abnormally large transcript resulting from a 58-bp insertion between exon 62 and exon 63 was identified in a BMD patient with mental retardation. The origin of this transcript was a mutation in intron 62 (IVS62-285A>G), which resulted in the occurrence of a high quality donor splice site. The IVS25+2036A>G in intron 25 was identified in a subclinical BMD patient with high CK levels. The mutation reinforces the strength of a pre-existing acceptor splice site, resulting in activation of an intronic pseudoexon of 95 bp. By using DHPLC, the patient's mother was found to be a somatic mosaic. The insertion of these newly recognized extra exons leads to premature termination codons, but we could observe that some degree of normal splicing was taking place in both patients. The detection of these residual full length transcripts is consistent with the clinical presentation and dystrophin analyses. This is the first report of pseudoexon activation as a mechanism for Becker muscular dystrophy, and this reveals further the diversity of genetic abnormalities causing BMD.