X-linked muscular dystrophy in a Labrador Retriever strain: phenotypic and molecular characterization

Background Canine models of Duchenne muscular dystrophy (DMD) are valuable to evaluate therapies because they faithfully reproduce the human disease. Several cases of dystrophinopathies have been described in canines, but the GRMD (Golden Retriever Muscular Dystrophy) model remains the one used in most preclinical studies. Methods We report a new spontaneous dystrophinopathy in a Labrador retriever strain, named LRMD (Labrador Retriever Muscular Dystrophy), for which a colony was established. Fourteen LRMD dogs were followed-up and compared to the GRMD standard. Results The clinical features of the GRMD disease were found in LRMD dogs, and the functional tests provided data roughly overlapping those measured in GRMD dogs, with similar inter-individual heterogeneity. Molecular techniques including RNA-sequencing allowed to map and identify the LRMD causal mutation, consisting in a 2.2-Mb inversion disrupting the DMD gene within its intron 20, and involving TMEM47 gene. In skeletal muscles, the Dp71 isoform was ectopically expressed as a probable consequence of the mutation. We found no evidence of polymorphism in the two LTBP4 and Jagged1 modifier genes that would explain the observed inter-individual variability. Conclusions This study provides a full comparative description of a new spontaneous canine dystrophinopathy, that we demonstrate is phenotypically equivalent to the GRMD model. We report a novel large DNA mutation within the DMD gene and provide evidence that LRMD is a relevant model to pinpoint additional DMD modifier genes.