Sparrow AW, Lowery EG, Thiele TE (2007) Amygdalar neuropeptide Y (NPY) signaling modulates stress-induced reductions of food intake in Balb/cJ mice. Neuroscience 2007 Abstracts 270.10/X24. Society for Neuroscience, San Diego, CA.
Summary: The existing literature suggests that NPY signaling in the amygdala modulates anxiety-like behaviors and ethanol consumption in rodents, but does not modulate food intake. On the other hand, NPY signaling within the hypothalamus controls food intake but does not influence anxiety-like behavior. Based on these observations, the current study tested the hypothesis that attenuation of NPY signaling within the amygdala would increase anxiety-like behavior and augment stress-induced increases of ethanol consumption while at the same time have no effect of feeding behavior. To address this hypothesis, male Balb/cJ were given bilateral injection (48 ng/5-min/side) into the central nucleus of the amygdala (CeA) of NPY conjugated to the neurotoxin saporin (NPY-SAP) or saporin alone (Blank-SAP). NPY-SAP is a ribosome inactivating neurotoxin that targets and kills cells expressing NPY receptors. After recovery, mice were first tested for anxiety-like behavior using the zero maze test. They were then given access to 8% (v/v) ethanol versus water in a two-bottle test. After ethanol intake stabilized, half the NPY-SAP and Blank-SAP mice were subjected to a 5-min forced swim stress sessions, once a day over 5-days. Ethanol, water and food consumption were measured for 4-weeks following the forced swim procedures. At the end of the experiment, ethanol was removed for two-weeks and all mice were given a 24-hour open-field locomotor activity test. The results showed that mice treated with NPY-SAP in the CeA spent significantly less time in the open portion of the zero maze reflecting elevated anxiety-like behavior. Contrary to predictions, neither neurotoxin treatment nor stress condition altered ethanol intake. Interestingly, NPY-SAP treated mice that experienced forced swim stress consumed significantly less food than non-stressed NPY-SAP treated mice and stress and non-stressed mice treated with the Blank-SAP. Reduced feeding by NPY-SAP stressed mice was not associated with reduced body weight, suggesting possible alterations of energy metabolism. Further, reduced feeding was not attributable to reductions of activity. This study provides novel evidence that amygdalar NPY signaling modulates feeding/energy balance in mice with a history of stress exposure.
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