1. Role of dorsal hippocampus κ opioid receptors in contextual aversive memory consolidation in rats.
- Author
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Vanz, Felipe, Bicca, Maíra Assunção, Linartevichi, Vagner Fagnani, Giachero, Marcelo, Bertoglio, Leandro José, and Monteiro de Lima, Thereza C.
- Subjects
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MEMORY , *HIPPOCAMPUS (Brain) , *OPIOID receptors , *BRAIN physiology , *COGNITION - Abstract
The main κ opioid receptors (κORs) subtypes already described (κ 1 ORs and κ 2 ORs) are expressed in brain regions involved in aversive memory consolidation, including the dorsal hippocampus (DH). However, the role of DH κORs in consolidation of aversive memories with varied intensity and specificity is still uncertain. The present study aimed to investigate this question using pharmacological agents in rats subjected to a weak, moderate or strong contextual aversive conditioning (CAC) protocol. Antagonizing DH κORs with nor -binaltorphimine ( nor -BNI), immediately after, but not 6 h later, a moderate CAC leads to intensified freezing behavior in the re-exposure to the paired context. Thus, indicating that DH κORs have an inhibitory role in the consolidation of an aversive memory. Increased DH κORs expression 1 h and 3 h after the moderate CAC was also observed. This up-regulation was absent in animals only exposed to the shock or to the context, indicating that this phenomenon requires a shock-context pairing to occur. Intra-DH nor -BNI infusion induced no changes following a weak CAC, but it was able to potentiate the expression of freezing behavior in novel and unpaired context after a strong CAC, indicating that DH κORs also modulate the consolidation of a more intense and generalized memory. Moreover, infusing the κ 2 ORs agonist GR 89696, but not the κ 1 ORs agonist U-69593, into the DH reduced the conditioned freezing expression. Nor -BNI pretreatment in a sub-effective dose prevented the κ 2 ORs agonist effects. Altogether, the present findings provide convergent evidence that κORs activation negatively modulates contextual aversive memory consolidation in rat dorsal hippocampus. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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