FSHD iPS Cells: Genetic Correction and Myogenesis

DESCRIPTION (provided by applicant): FSHD affects over 25,000 individuals in the United States. It is the third most common muscular dystrophy by incidence but may be the most common by prevalence (Orphanet, 2008). The DNA lesion causing this disease is a contraction within a series of 3.3 kb repeats (D4Z4 repeats) near the telomere of 4q. The contraction modifies the chromatin configuration of 4q35.2, which results in misexpression of a gene encoded within each D4Z4 repeat, DUX4. DUX4 is cytotoxic when overexpressed in various cellular model systems. However a pathological mechanism still eludes the field. We do not have a clear picture of which cell types in muscle express DUX4, nor when expression is initiated during development, nor how a transcriptionally active D4Z4 array affects development, muscle physiology, or regeneration. In addition, genetic correction of such a large deletion is not trivial. To address these questions, we have derived iPS cell lines from FSHD patients and controls. We propose a series of studies directed towards innovative approaches to genetic correction of this locus (Aim 1) and to developing a better understanding of myogenesis and the mechanism underlying the pathology in FSHD (Aim 2).