Muscle metabolism
P5
Berlin: Michael Boschmann, MD
Paris: Pierre Carlier, PhD
Facioscapulohumeral muscular dystrophy (FSHD) is the third most common inherited muscular dystrophy and is characterized by onset of weakness in an initially restricted and characteristic distribution, beginning with facial weakness, followed sequentially by scapular fixator, humeral, truncal, and lower-extremity muscle weakness, wasting and fatigueability. Its underlying molecular pathophysiology is not well understood, which complicates the development of therapeutic strategies. FSHD is an autosomal-dominant inherited condition and is caused by a deletion of a repetitive element on chromosome 4q35 known as D4Z4. This region contains a transcriptional silencer. Deletion of D4Z4 leads to overly active genes including FSHD-related gene (FRG1). FRG1 transgenic mice indeed develop the FSHD phenotype. FRG1 is located 120 kb from the D4Z4 repeats and encodes an evolutionarily highly conserved nuclear protein that may play a role in RNA biogenesis. A very recent report revealed that FRG1 is crucial for angiogenesis, linking FRG1 to FSHD-associated vasculopathy.3 FSHD has also been associated with dysfunction of adenine nucleotide translocase (ANT1), a product of a gene that is also located on 4q, and which is possibly de-repressed. These data suggest that FSHD might also affect mitochondrial function, although this question was not yet investigated. Most interestingly, impaired differentiation of myoblasts has been described in affected muscles of FSHD patients and a genome-wide mRNA-scan suggested that the insulin receptor pathway, which is known to modify the differentiation process of myoblasts, may be dysregulated in FSHD. As a result of a recent pilot study, we found insulin resistance in four FSHD patients. In summary, there is evidence that metabolic defects are associated with FSHD; however, the relevance and functional importance of those findings is entirely unclear. Despite the apparent impact of metabolism and specifically the insulin-signaling cascade in the differentiation and regeneration of muscle, this issue has not yet been investigated in FSHD or in other muscular dystrophies.
Completed theses
Students |
MyoGrad PhD student from |
Thesis project |
Defence and degree |
---|---|---|---|
Teresa Gerhalter | 2014-2018 |
Characterization of the dystrophic muscle by 23NA-NMR and 1H NMR T2 spectrum |
Defence on July 12, 2018 in Paris
|
Anna Pakula | 2010-2015 | Muscle metabolism and cyclin A1 in facioscapulohumeral muscular dystrophy-1 (FSHD-1) |
Defence on Sept. 22, 2015 in Berlin |
Matthew Thorley | 2013-2016 | Analysis of the dystrophin interactome for gene therapy in Duchenne muscular dystrophy |
Defence on Dec 7, 2016 in Paris
|