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Epigenetic Control of Reward Learning

$51,326F32FY2011DANIH

University Of Alabama At Birmingham, Birmingham AL

Investigators

Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): The ability to form and maintain associations between environmental cues, actions, and rewarding stimuli is an elementary yet fundamental aspect of learned behavior that is necessary for survival. Multiple lines of research have identified that such reward-related learning is mediated by a distributed network of brain nuclei centered upon the nucleus accumbens and its innervation from dopamine neurons located in the midbrain. Both dopamine and nucleus accumbens neurons encode stimulus-reward relationships, and impaired processing in either area inhibits reward learning. Within the nucleus accumbens, dopamine operates through several well- defined intracellular signaling cascades to direct synaptic plasticity and alter neuronal output. Recent studies indicate that dopamine transmission within the nucleus accumbens induces epigenetic remodeling that is associated with both brief and prolonged changes in gene expression. However, the role that epigenetic changes play in reward learning is unclear. This proposal will examine whether two different types of epigenetic alteration (histone modification and DNA methylation) are induced by classical stimulus-reward conditioning. These changes will be investigated using a variety of cutting-edge techniques, including chromatin immunoprecipitation, direct bisulfite sequencing of DNA, and quantitative RT-PCR. These assays will allow us to determine not only whether reward learning is associated with epigenetic modification in the nucleus accumbens, but will also reveal which genes such changes are affecting. Furthermore, the ability of epigenetic changes to functionally modulate learning will be examined by blocking specific histone modifications or DNA methylation in the nucleus accumbens during conditioning. The results will provide novel insight into the epigenetic control of reward learning and enhance our understanding of the molecular pathways that regulate motivated behavior.

View original record on NIH RePORTER →