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Food Reward and Stress

$337,060R01FY2012DKNIH

University Of Cincinnati, Cincinnati OH

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Linked publications & trials

Abstract

DESCRIPTION (provided by applicant): Individuals often engage in rewarding behaviors, including consuming highly-palatable, calorically- dense comfort foods or taking drugs of abuse, as a means of self-medication for stress relief, but the neural mechanisms underlying stress relief by palatable foods are largely unknown. We propose to study these mechanisms using a model in which rats with free access to food and water are given twice-daily access to a small amount of palatable sucrose solution or water as a control. Using this model, we have found that sucrose rats have attenuated hypothalamic-pituitary-adrenal (HPA) axis and behavioral-anxiety responses to stress and diminished stress-induced neuronal activation in brain reward regions. Moreover, the calories and other post- ingestive consequences of sucrose are neither sufficient nor necessary for the HPA dampening, suggesting that brain reward per se may mediate the response. The basolateral amygdala (BLA) is a key brain reward region that is also implicated in driving stress responses. Moreover, neural activity in the BLA is necessary for stress-dampening by sucrose, and genes related to structural and functional plasticity are up-regulated in the BLA following a history of sucrose intake. In support of this idea, immunolabeling for synaptophysin (a marker of presynaptic terminals), phosphorylated cAMP response element-binding protein (pCREB; a postsynaptic marker associated with synaptic plasticity), and gephyrin (a postsynaptic marker of inhibitory postsynaptic densities) are all increased in the BLA following sucrose. The current proposal addresses the hypothesis that palatable food dampens stress responses via pCREB-dependent synaptic remodeling in the BLA. We predict that sucrose intake increases BLA inhibitory tone, leading to attenuated stress-excitatory output. We will test this hypothesis in three specific aims. The first aim will use intra-BLA blockade of CREB/pCREB expression to determine whether this signaling pathway mediates sucrose-induced synaptic reorganization and stress- dampening. The second aim will assess structural and functional plasticity in the BLA after sucrose (using dual immunolabeling with confocal microscopy to quantify synaptic appositions onto BLA neurons, as well as whole- cell electrophysiological recordings from BLA slice preparations) to test the hypothesis that sucrose-induced synaptic remodeling results in increased inhibitory tone in BLA. The third aim will combine tract-tracing and lesion approaches to test the hypothesis that medial prefrontal cortex (mPFC) projections to BLA are necessary for sucrose-mediated synaptic remodeling and stress dampening.

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Food Reward and Stress · GrantIndex