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ACTIVITY DEPENDENT REGULATION OF BDNF EXPRESSION

$260,415R01FY2004MHNIH

University Of California San Diego, La Jolla CA

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Abstract

Synaptic activity has a profound effect on the formation of appropriate connections in the brain. Work during the last decade has indicated that such activity-dependent plasticity requires calcium influx, which triggers a cascade of intracellular biochemical events that lead to long lasting physiological and anatomical changes. Many of these changes require calcium-dependent gene expression, and several lines of evidence suggest that the Brain-derived neurotophic factor (BDNF) gene is an important target of calcium signaling in neurons. The focus of the proposed experiments is to identify the mechanisms by which calcium influx leads to BDNF expression in cortical neurons. Our preliminary studies suggest that calcium- dependent expression of BDNF is regulated by two calcium-response elements. The first is a novel element (CRS-I) that is regulated by an as yet unidentified transcription factor. The second element is homologous to the cAMP response element (CRE) and is regulated by the transcription factor CREB. To gain further insight into the mechanisms by which calcium regulates BDNF expression, we propose to (i) identify and characterize the transcription factor that mediates transactivation via CRS-I, and (ii) determine the mechanism by which CRS-I and BIII-CRE cooperate to regulate BDNF expression. The mechanisms underlying activity-dependent BDNF expression are of scientific as well as clinical interest. It is clear that BDNF plays a critical role in brain development and plasticity, ans therefore perturbation of BDNF regulation might contribute to neurological and neuropsychiatric disorders. Our investigations should lead to the identification of molecules involved in regulating BDNF expression, and it is likely that this molecular understanding will eventually be useful in developing clinical strategies to correct disorders of the nervous system.

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