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Kate Sullivan, Jad El-Hoss, Kate G.R. Quinlan, Nikita Deo, Fleur Garton, Jane T.C. Seto, Marie Gdalevitch, Nigel Turner, Gregory J. Cooney, Mateusz Kolanczyk, Kathryn N. North, David G. Little, Aaron Schindeler, NF1 is a critical regulator of muscle development and metabolism, Human Molecular Genetics, Volume 23, Issue 5, 1 March 2014, Pages 1250–1259, https://doi.org/10.1093/hmg/ddt515
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Abstract
There is emerging evidence for reduced muscle function in children with neurofibromatosis type 1 (NF1). We have examined three murine models featuring NF1 deficiency in muscle to study the effect on muscle function as well as any underlying pathophysiology. The Nf1+/– mouse exhibited no differences in overall weight, lean tissue mass, fiber size, muscle weakness as measured by grip strength or muscle atrophy-recovery with limb disuse, although this model lacks many other characteristic features of the human disease. Next, muscle-specific knockout mice (Nf1muscle−/−) were generated and they exhibited a failure to thrive leading to neonatal lethality. Intramyocellular lipid accumulations were observed by electron microscopy and Oil Red O staining. More mature muscle specimens lacking Nf1 expression taken from the limb-specific Nf1Prx1−/− conditional knockout line showed a 10-fold increase in muscle triglyceride content. Enzyme assays revealed a significant increase in the activities of oxidative metabolism enzymes in the Nf1Prx1−/− mice. Western analyses showed increases in the expression of fatty acid synthase and the hormone leptin, as well as decreased expression of a number of fatty acid transporters in this mouse line. These data support the hypothesis that NF1 is essential for normal muscle function and survival and are the first to suggest a direct link between NF1 and mitochondrial fatty acid metabolism.
