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Research Description:

Gene expression activated by the neurotrophins nerve growth factor (NGF) and brain-derived neurotrophic factor (BDNF) underlies such diverse processes as the refinement of neuronal connections during development, to learning and memory within the adult brain, to hyperalgesia following tissue injury and inflammation . To date, however, the mechanisms by which these neurotrophins induce gene expression are not fully understood. Recently, members of the NFATc family of transcription factors have also been implicated in shaping long-term changes in cellular functioning. Intriguingly, neurotrophin signaling appears ideally suited to activate NFATc transcription factors. As such, the experiments of my thesis project are designed to investigate the role of NFAT-dependent transcription in the neurotrophin-mediated gene expression required to establish enduring changes in synaptic neurotransmission. These experiments are organized to address the following three specific aims:  

The proposed research will serve to further the understanding of:(1) the mechanisms by which neurotrophin signaling elicits lasting changes in cellular functioning, (2) the regulation of NFAT-dependent transcription within the nervous system, and (3) the mechanism underlying the establishment of hyperalgesia, with the ultimate goal of identifying novel therapeutic approaches, by examining the role of NFATc transcription factors in neurotrophin-mediated gene expression in vitro and in a model of persistent pain in vivo.

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