Likhtik E, Apergis-Schoute J, Pare D (2006) A selective lesioning method to probe the role of intercalated (ITC) amygdala neurons in the extinction of classically conditioned fear responses. Neuroscience 2006 Abstracts 370.19. Society for Neuroscience, Atlanta, GA.
Summary: The acquisition of conditioned fear responses (CRs) is thought to involve the potentiation of synapses conveying information about the conditioned stimulus (CS) to the basolateral (BLA) amygdala. Expression of CRs would depend on transfer of potentiated CS inputs by the BLA to the central amygdala (CE). In contrast, the mechanisms of extinction remain controversial. It was proposed that ITC neurons, which receive BLA inputs and generate feedforward inhibition in CE, are in a key position to mediate extinction. In this view, potentiation of BLA inputs to ITC cells during extinction training, would dampen the impact of CS-related BLA activity on CE neurons, inhibiting CRs. However, this idea is difficult to test because ITC cells occur in small, lateromedially dispersed clusters, making conventional lesioning methods inadequate. The present study aimed to find an effective way of eliminating ITC cells, taking advantage of the fact that, compared to the rest of the amygdala, they exhibit strong immunoreactivity for mu opioid receptors (muORs). First, we performed electron microscopic observations to determine whether muORs are expressed by ITC cells vs. afferents to ITC cells. This test revealed that muORs are concentrated in the postsynaptic membrane density of asymmetric synapses found on ITC cells. Next, we tested whether it is possible to obtain selective ITC lesions by injecting the toxin saporin conjugated to the mu opioid agonist dermorphin (DER-SAP) in the proximity of ITC cells. Thus, rats received intra-amygdaloid pressure injections of DER-SAP in one hemisphere and of vehicle on the contralateral side. Seven days later, the animals were perfused and the tissue processed to reveal muOR. DER-SAP injections produced a marked reduction in muOR immunoreactivity at the BLA-CE border, where ITC cells are usually located. Thus, selective lesioning of ITC cells can be achieved using this method. We are currently testing the impact of such ITC lesions on extinction learning.
Related Products: Dermorphin-SAP / MOR-SAP (Cat. #IT-12)