Truitt WA, Oberlin BG, Dietrich AD, Fitz SD, Shekhar A (2005) Neurokinin 1 receptor containing interneurons of the BLA are putative candidates for the inhibitory component of feed-forward inhibition from the mPFC to the BLA. Neuroscience 2005 Abstracts 796.12. Society for Neuroscience, Washington, DC.
Summary: The amygdala and in particular the basolateral nucleus of the amygdala (BLA) is a central site for fear and anxiety. The BLA is under tonic inhibition by a network of inhibitory interneurons. Additionally, cortical inputs can both excite or inhibit the output of the BLA, resulting in increases or decreases in anxiety/fear-like behaviors. In particular mPFC inputs to the BLA can suppress BLA output and inhibit fear conditioning. However, the mechanism by which this occurs is not fully understood. Evidence from electrophysiological studies suggests a feed forward inhibitory relationship between the mPFC and the BLA. This feed forward inhibition putatively occurs by mPFC-glutamatergic inputs exciting GABAergic interneurons of the BLA, which in turn suppress firing of the BLA projection neurons. However, tracing studies demonstrate that the vast majority of mPFC inputs to the BLA form synapses with dendritic spines, which have been reported to exist only on projection neurons of the BLA. Here we present data that suggests a specific subclass of BLA interneurons, those that express neurokinin 1 receptors (NK-1r) are likely candidates for the inhibitory component of the feed forward inhibition described above. Here we report that, in the rat, the NK-1r containing BLA-interneurons contain dendritic spines and NMDA receptors. Furthermore, we report that in anesthetized rats disinhibition of mPFC neurons by injections of bicuculline methiodide (50 pmol), leads to cFos induction in 25 – 50% of the NK-1r containing interneurons in the BLA, while 0% of the NK-1r interneurons expressed cFos following vehicle injections. Furthermore, selective ablation of these NK-1r containing BLA-interneurons (by use of the targeted toxin, SSP-Saporin) suppressed anxiolytic-like effects of familiarity in the SI test. Collectively, these data suggest the NK-1r containing interneurons of the BLA may respond to glutamatergic inputs from the mPFC and may be involved in a mPFC-BLA anxiety or fear regulating pathway.
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