Reversal of neurobehavioral social deficits in dystrophic mice using inhibitors of phosphodiesterases PDE5A and PDE9A

M. S. Alexander; M. J. Gasperini; P. T. Tsai; D. E. Gibbs; J. M. Spinazzola; J. L. Marshall; M. J. Feyder; M. T. Pletcher; E. L.P. Chekler; C. A. Morris; M. Sahin; J. F. Harms; C. J. Schmidt; R. J. Kleiman; L. M. Kunkel

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Reversal of neurobehavioral social deficits in dystrophic mice using inhibitors of phosphodiesterases PDE5A and PDE9A

Translational Psychiatry (2016) 6(9)

DOI: 10.1038/tp.2016.174

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Abstract

Duchenne muscular dystrophy is caused by mutations in the DYSTROPHIN gene. Although primarily associated with muscle wasting, a significant portion of patients (approximately 25%) are also diagnosed with autism spectrum disorder. We describe social behavioral deficits in dystrophin-deficient mice and present evidence of cerebellar deficits in cGMP production. We demonstrate therapeutic potential for selective inhibitors of the cGMP-specific PDE5A and PDE9A enzymes to restore social behaviors in dystrophin-deficient mice.

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Alexander, M. S., Gasperini, M. J., Tsai, P. T., Gibbs, D. E., Spinazzola, J. M., Marshall, J. L., … Kunkel, L. M. (2016). Reversal of neurobehavioral social deficits in dystrophic mice using inhibitors of phosphodiesterases PDE5A and PDE9A. Translational Psychiatry, 6(9). https://doi.org/10.1038/tp.2016.174

Reversal of neurobehavioral social deficits in dystrophic mice using inhibitors of phosphodiesterases PDE5A and PDE9A

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