Research Papers: Pathology:
Inhibition of muscle fibrosis results in increases in both utrophin levels and the number of revertant myofibers in Duchenne muscular dystrophy
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Abstract
Oshrat Levi1, Olga Genin1, Corrado Angelini2, Orna Halevy3, Mark Pines1
1Institute of Animal Sciences, Volcani Center, Bet Dagan, Israel
2Department of Neurosciences, University of Padova, and IRCCS S. Camillo, Lido, Venice, Italy
3Department of Animal Sciences, the Hebrew University of Jerusalem, Rehovot, Israel
Correspondence to:
Mark Pines, e-mail: [email protected]
Keywords: fibrosis, muscular dystrophy, utrophin, collagen, halofuginone
Received: March 16, 2015 Accepted: May 09, 2015 Published: May 21, 2015
ABSTRACT
Duchenne Muscular Dystrophy is characterized by: near absence of dystrophin in skeletal muscles; low percentage of revertant myofibers; up-regulation of utrophin synthesis; and a high degree of muscle fibrosis. In patient quadriceps femoris biopsies (n = 6, ages between 3–9 years) an inverse correlation was observed between the levels of collagen type I – representing fibrosis – and the levels of utrophin. This correlation was independent of the patient’s age and was observed in the entire muscle biopsy sections. In the mdx mice diaphragm (n = 6/group), inhibition of fibrosis by halofuginone resulted in increases in the levels of utrophin. The utrophin/fibrosis relationships were not limited to collagen type I, but also applied to other constituents of the fibrosis machinery. The inverse correlation was found also in old mdx mice with established fibrosis. In addition, inhibition of collagen type I levels was associated with increases in the numbers of revertant myofibers, both as single myofibers and in clusters in the diaphragm and the gastrocnemius.
In summary, our results demonstrate an inverse correlation between the level of muscle fibrosis and the level of utrophin and that of the number of revertant myofibers. These findings may reveal common links between the fibrotic and utrophin-synthesis pathways and offer new insights into the regulation of utrophin synthesis.
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