Dystrophin protein and rflp analyis for fetal diagnosis and carrier confirmation of duchenne muscular dystrophy

A pregnant woman with indeterminate Duchenne muscular dystrophy (DMD) carrier status, but with DMD diagnosed in her deceased brother (unavailable for study), presented for prenatal diagnosis, intending to continue the pregnancy only if proven unaffected with DMD with near absolute certainty. Creatine kinase (CK) assays to clarify carrier status were inconclusive. Male sex in the fetus was identified, but DNA restriction fragment length polymorphism (RFLP) analysis was not yet available to this centre to investigate the possible transmission of the DMD gene, and the pregnancy was terminated. Tissue histology and dystrophin protein analysis demonstrated the absence of DMD. In a situation with proven maternal carrier status, future fetal inheritance of the opposite maternal X chromosome would indicate the presence of DMD. However, maternal carrier status remained in doubt through a second pregnancy, even with RFLP studies, and was finally established when dystrophin analysis confirmed the presence of DMD in the second fetus. Histologic findings are presented, contrasting features in the two fetuses. The value of dystrophin analysis for establishing the diagnosis of fetal DMD, in this case proving maternal carrier status in a difficult situation, and for demonstrating DMD gene:RFLP haplotype relationships is illustrated.     

Prenatal diagnosis in a female carrying a deletion close to the duchenne locus

Family studies including the proband are usually needed before a prenatal diagnosis may be performed for Duchenne muscular dystrophy. We report here on prenatal diagnosis in a family where the solitary index case was dead, and where the consultand and her mother were assumed to be carriers by independent evidence. DNA anaylsis revealed that both the consultand and her mother had an X chromosome deleted for DNA material in the Xp21 region. The female fetus also carried the deleted X chromosome.     

Rapid prenatal diagnosis of Duchenne muscular dystrophy with gene duplications by ion-pair reversed-phase high-performance liquid chromatography coupled with competitive multiplex polymerase chain reaction strategy

Duchenne muscular dystrophy (DMD) and Becker muscular dystrophy (BMD) are caused by various mutations in the dystrophin gene. Rapid prenatal diagnosis of DMD with gene duplications is difficult due to limitation in gene dosage determination and the requirement for a known disease-causing mutation in the pedigree to achieve a rapid and accurate diagnosis. We report, here, a case with rapid prenatal diagnosis of DMD-affected male with gene duplications in the absence of a known disease-causing variation in the pedigree by using ion-pair reversed-phase high-performance liquid chromatography (IP-RP-HPLC) coupled with competitive multiplex polymerase chain reaction (PCR) protocol. In cases with clinical diagnosis of DMD/BMD, this test should identify greater than 92% of disease-causing DNA variants. The postnatal genetic diagnosis of this case and the same disease-causing mutations subsequently identified in other members of the pedigree confirmed the accuracy of competitive multiplex PCR/IP-RP-HPLC assay in direct prenatal diagnosis of DMD. Copyright © 2007 John Wiley & Sons, Ltd.     

Identification of duchenne muscular dystrophy genomic probe P20 constant Taq1 fragment corresponding to the EcoRV and Msp1 polymorphisms

The majority of Duchenne and Becker muscular dystrophy cases are caused by deletions observable in Southern blots with cDNA probes for the gene. When the deletion includes polymorphic probes, they may be used to determine carrier status by deletion segregation analysis: non-inheritance of parental alleles, or heterozygosity. The polymorphic genomic probe P20 is deleted in a large percentage of probands. P20 hybridizes with two constant fragments of 6.7 and 0.8 kb in Taql digests. In a number of probands, only the larger P20 Taq1 fragment is deleted. This study demonstrates that this fragment corresponds with the polymorphic EcoRV and Mspl fragments of P20. Families in which the upper Taql fragment is deleted may be screened for carrier status using non-inheritance of parental alleles or heterozygosity of P20 in EcoRV or Mspl digests.