Human molecular genetics
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Human molecular genetics · Oct 2000
Mdx mice inducibly expressing dystrophin provide insights into the potential of gene therapy for duchenne muscular dystrophy.
Duchenne muscular dystrophy (DMD) is an X-linked recessive disease caused by the lack of expression of the dystrophin protein in muscle tissues. We genetically engineered a mouse model (mdx) of DMD that allowed for the high level and inducible transcription of a dystrophin mini-gene. This was achieved via the tetracycline-responsive transactivator (tTA) system. ⋯ Persistent detection of dystrophin was also accompanied by a prolonged protection of the muscle cells from the onset of dystrophy. The findings demonstrated that somatic transfer of the dystrophin gene not only may allow for the prevention of muscular dystrophy in multiple muscle groups, but also may be accompanied by persistent efficacy, secondary to the long-term functional stability of the dystrophin protein in vivo. This model should be useful in future studies concerning the potential of genetic therapy for DMD, as well as other muscle disorders.