Abstract
BackgroundMutation of the Duchenne muscular dystrophy (DMD) gene causes Duchenne and Becker muscular dystrophy, degenerative neuromuscular disorders that primarily affect voluntary muscles. However, increasing evidence implicates DMD in the development of all major cancer types. DMD is a large gene with 79 exons that codes for the essential muscle protein dystrophin. Alternative promotor usage drives the production of several additional dystrophin protein products with roles that extend beyond skeletal muscle. The importance and function(s) of these gene products outside of muscle are not well understood.ConclusionsWe highlight a clear role for DMD in the pathogenesis of several cancers, including sarcomas, leukaemia’s, lymphomas, nervous system tumours, melanomas and various carcinomas. We note that the normal balance of DMD gene products is often disrupted in cancer. The short dystrophin protein Dp71 is, for example, typically maintained in cancer whilst the full-length Dp427 gene product, a likely tumour suppressor, is frequently inactivated in cancer due to a recurrent loss of 5’ exons. Therefore, the ratio of short and long gene products may be important in tumorigenesis. In this review, we summarise the tumours in which DMD is implicated and provide a hypothesis for possible mechanisms of tumorigenesis, although the question of cause or effect may remain. We hope to stimulate further study into the potential role of DMD gene products in cancer and the development of novel therapeutics that target DMD.
Highlights
The Duchenne muscular dystrophy gene (DMD) is best known for its role in the disease of the same name [1]
Given the canonical role of dystrophin in muscle, it is unsurprising that a large body of evidence for a role for DMD in cancer comes from soft tissue sarcomas (STS), and the myogenic tumours in particular
Gallia et al performed whole exome sequencing (WES), whole genome sequencing (WGS) and single nucleotide polymorphism (SNP) array analysis on 14 olfactory neuroblastoma patient samples and found that somatic DMD deletions occurred in 86% of the tumours [22]
Summary
We highlight a clear role for DMD in the pathogenesis of several cancers, including sarcomas, leukaemia’s, lymphomas, nervous system tumours, melanomas and various carcinomas. We note that the normal balance of DMD gene products is often disrupted in cancer. The short dystrophin protein Dp71 is, for example, typically maintained in cancer whilst the full-length Dp427 gene product, a likely tumour suppressor, is frequently inactivated in cancer due to a recurrent loss of 5’ exons. The ratio of short and long gene products may be important in tumorigenesis. We summarise the tumours in which DMD is implicated and provide a hypothesis for possible mechanisms of tumorigenesis, the question of cause or effect may remain.
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