The interaction between hippocampal cholinergic and nitrergic neurotransmission coordinates NMDA-dependent behavior and autonomic changes induced by contextual fear retrieval.

RATIONALE: Re-exposing an animal to an environment previously paired with an aversive stimulus evokes large alterations in behavioral and cardiovascular parameters. Dorsal hippocampus (dHC) receives important cholinergic inputs from the basal forebrain, and respective acetylcholine (ACh) levels are described to influence defensive behavior. Activation of muscarinic M1 and M3 receptors facilitates autonomic and behavioral responses along threats. Evidence show activation of cholinergic receptors promoting formation of nitric oxide (NO) and cyclic guanosine monophosphate (cGMP) in dHC. Altogether, the action of ACh and NO on conditioned responses appears to converge within dHC. OBJECTIVES: As answer about how ACh and NO interact to modulate defensive responses has so far been barely addressed, we aimed to shed additional light on this topic. METHODS: Male Wistar rats had guide cannula implanted into the dHC before being submitted to the contextual fear conditioning (3footshocks/085 mA/2 s). A catheter was implanted in the femoral artery the next day for cardiovascular recordings. Drugs were delivered into dHC 10 min before contextual re-exposure, which occurred 48 h after the conditioning procedure. RESULTS: Neostigmine (Neo) amplified the retrieval of conditioned responses. Neo effects (1 nmol) were prevented by the prior infusion of a M1-M3 antagonist (fumarate), a neuronal nitric oxide synthase inhibitor (NPLA), a NO scavenger (cPTIO), a guanylyl cyclase inhibitor (ODQ), and a NMDA antagonist (AP-7). Pretreatment with a selective M1 antagonist (pirenzepine) only prevented the increase in autonomic responses induced by Neo. CONCLUSION: The results show that modulation in the retrieval of contextual fear responses involves coordination of the dHC M1-M3/NO/cGMP/NMDA pathway.

Dorsal hippocampal muscarinic cholinergic receptors orchestrate behavioral and autonomic changes induced by contextual fear retrieval.

Re-exposure of rats to a previously fear-conditioned environment arouses great alterations in behavioral and cardiovascular parameters. Pieces of works provide putative evidence for the contribution of the dorsal hippocampus (dHC) to contextual conditioning. dHC gathers massive cholinergic inputs from the basal forebrain, and dHC acetylcholine (ACh) is often described as triggering the retrieval of defensive behavior. ACh acts partially through muscarinic receptors (mAChRs) M1R and M3R subtypes. Hence, activation of mAChRs facilitates autonomic and behavioral responses associated with threats and dangers. Therefore, this study explored the likely involvement of M1R and M3R in rat dHC to establish the behavioral and autonomic changes associated with contextual fear retrieval. Male Wistar rats had stainless steel guide cannula implanted into the dHC before being submitted to contextual fear conditioning (6 footshocks, 1.5 mA, 3 s). A catheter placed within the femoral artery allowed autonomic recordings. A variety of drugs were delivered into the dHC 10 min before contextual re-exposure. The choline reuptake inhibitor hemicholinium induced a decrease of the fear conditioned responses, while did not modify it in non-conditioned animals. The non-selective mAChR antagonist atropine also reduced the fear-conditioned responses, as did the selective M1/M3 mAChRs antagonist fumarate. On the other hand, the M1 selective mAChR antagonist pirenzepine inhibited all the autonomic fear responses without affecting animal freezing. These findings support that cholinergic neurotransmission present in the dHC acts through mAChRs to coordinate the expression of fear evoked by contextual conditioning.