The mITC receives excitatory input from the BA as well as other r

The mITC receives excitatory input from the BA as well as other regions (Royer et al., 2000). The pattern of pαCamKII levels in the mITC correlates with the relative levels of Fos activation of the BA after fear retrieval and extinction. Moreover, as BA cells are functionally heterogeneous with distinct subpopulations active after fear conditioning and extinction (Herry et al., 2008), it is tempting to speculate that mITC neurons might exhibit a similar heterogeneity, and that the mITC might not only be involved in fear extinction (Jüngling Roscovitine chemical structure et al., 2008; Likhtik et al., 2008) but also in the regulation of high fear states (Paréet al., 2004).

In the rat brain, the CEl receives inputs from the cortex, BA and LA (Cassell et al., 1999). Therefore, the increased phosphorylation of αCamKII we detected in the WT CEl after extinction would be consistent with a sufficiently increased input from the BA as indicated by the increased density of Fos-immunopositive cells. In

contrast, PN1-KO mice exhibited a shift in the distribution of pαCamKII after extinction training relative to WT animals. The absence of a further increase over fear retrieval levels of phosphorylation in the mITC correlates with the unchanged Fos induction in the BA and is consistent with the behavioral readout of high freezing levels in PN-1 KO mice after the extinction training. The increased pαCamKII levels in the CEl of KO mice after extinction training could be explained http://www.selleckchem.com/products/AZD6244.html by a reduced inhibitory input from the mITC, implied by the below WT phosphorylation level. This may serve to offset a decreased BA input, implied by the relatively low Fos immunoreactivity, leading Sulfite dehydrogenase to a net increased activation of the CEl. Indeed, connections between mITC and CEl have been described in the

cat (Paré & Smith, 1993), and extracellular stimulation within the mITC was reported to activate synapses on the dendrites of CEl neurons in the rat (Delaney & Sah, 2001). Another consideration is that increased pαCamKII levels in the CEl of PN-1 KO mice might reflect activation of functionally distinct, fear-promoting subpopulations of neurons that are normally not active during extinction training. Our study shows the usefulness of laser dissection to monitor changes in protein phosphorylation in small, specific regions of the brain and correlate them to learning. We show that WT mice, acquiring extinction with the associated reduced freezing response and increased Fos protein expression in BLA, also display corresponding increases in pαCamKII levels in mITC and CEl. PN-1 KO mice, which we show are capable of acquiring conditioned fear responses but are resistant to acquiring extinction, show impairments in these responses.

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