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Reduced activity-dependent protein levels in a mouse model of the fragile X premutation
  • Ramona E. von Leden
  • Lindsey C. Curley
  • Gian D. Greenberg, Santa Clara University
  • Michael R. Hunsaker
  • Rob Willemsen
  • Robert F. Berman
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Environmental enrichment results in increased levels of Fmrp in brain and increased dendritic complexity. The present experiment evaluated activity-dependent increases in Fmrp levels in the motor cortex in response to training on a skilled forelimb reaching task in the CGG KI mouse model of the fragile X premutation. Fmrp, Arc, and c-Fos protein levels were quantified by Western blot in the contralateral motor cortex of mice following training to reach for sucrose pellets with a non-preferred paw and compared to levels in the ipsilateral motor cortex. After training, all mice showed increases in Fmrp, Arc, and c-Fos protein levels in the contralateral compared to the ipsilateral hemisphere; however, the increase in CGG KI mice was less than wildtype mice. Increases in Fmrp and Arc proteins scaled with learning, whereas this relationship was not observed with the c-Fos levels. These data suggest the possibility that reduced levels of activity-dependent proteins associated with synaptic plasticity such as Fmrp and Arc may contribute to the neurocognitive phenotype reported in the CGG KI mice and the fragile X premutation.

Citation Information
Von Leden RE, Curley LC, Greenberg GD, Hunsaker MR, Willemsen R, Berman RF (2014). Reduced activity-dependent protein levels in a mouse model of the Fragile X premutation. Neurobiology of Learning and Memory. 109: 160-8.