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IMAGING OF FAILED REGENERATION IN MUSCLES OF MUSCULAR DYSTROPHY PATIENTS

$284,186U54FY2018ARNIH

University Of Florida, Gainesville FL

Investigators

Linked publications & trials

Abstract

Project Summary Duchenne Muscular Dystrophy (DMD) is a neuromuscular disease caused by mutations in dystrophin and characterized by progressive muscle weakness, early loss of ambulation, cardiomyopathy and respiratory insufficiency. Clinical trials in DMD have been hampered by limited natural history data and a lack of sensitive noninvasive outcome measures. In addition, this single-gene disease displays considerable variability in disease severity. Phenotypic variability arises, in part, due to the presence of genetic modifiers that enhance or suppress the disease process. In this renewal application, we will examine the impact of polymorphisms reported to affect disease progression, including SPP1 and LTBP4, relative to magnetic resonance imaging (MRI) biomarkers. LTBP4 encodes the latent transforming growth factor (TGF) ? binding protein (LTBP4), that is highly expressed in both cardiac and skeletal muscle, and regulates the release of active TGF?. DMD patients homozygous for the IAAM LTBP4 haplotype have been reported to demonstrate preserved ambulatory function and reduced TGF? signaling compared to patients heterozygous or homozygous for the VTTT haplotype. Genotype at polymorphism rs28357094 in the promoter region of the SPP1 gene, encoding osteopontin, has been shown to influence muscle size and eccentric injury in healthy adults, as well as disease severity in DMD. To examine the association between these genetic polymorphisms and MRI biomarkers we will take advantage of the natural history lower extremity Magnetic Resonance images and biological samples acquired in a large DMD cohort (ImagingDMD). In addition, we will develop novel MRI strategies to monitor disease progression in the heart and respiratory muscles. This will be the first imaging study to monitor muscle pathology in the intercostal and abdominal muscle in boys with DMD. We hypothesize that DMD patients with the protective LTBP4 haplotype will demonstrate slower rates of cardiac disease progression and less severe pathophysiology in the respiratory muscles. The results of this study may ultimately be important for the stratification of homogenous patients for clinical trials, help identify new therapeutic targets, and provide new biomarkers for clinical trials targeting respiratory function.

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IMAGING OF FAILED REGENERATION IN MUSCLES OF MUSCULAR DYSTROPHY PATIENTS · GrantIndex