The Lateral Habenula and Its Input to the Rostromedial Tegmental Nucleus Mediates Outcome-Specific Conditioned Inhibition.

Animals can readily learn that stimuli predict the absence of specific appetitive outcomes; however, the neural substrates underlying such outcome-specific conditioned inhibition remain largely unexplored. Here, using female and male rats as subjects, we examined the involvement of the lateral habenula (LHb) and of its inputs onto the rostromedial tegmental nucleus (RMTg) in inhibitory learning. In these experiments, we used backward conditioning and contingency reversal to establish outcome-specific conditioned inhibitors for two distinct appetitive outcomes. Then, using the Pavlovian-instrumental transfer paradigm, we assessed the effects of manipulations of the LHb and the LHb-RMTg pathway on that inhibitory encoding. In control animals, we found that an outcome-specific conditioned inhibitor biased choice away from actions delivering that outcome and toward actions earning other outcomes. Importantly, this bias was abolished by both electrolytic lesions of the LHb and selective ablation of LHb neurons using Cre-dependent Caspase3 expression in Cre-expressing neurons projecting to the RMTg. This deficit was specific to conditioned inhibition; an excitatory predictor of a specific outcome-biased choice toward actions delivering the same outcome to a similar degree whether the LHb or the LHb-RMTg network was intact or not. LHb lesions also disrupted the ability of animals to inhibit previously encoded stimulus-outcome contingencies after their reversal, pointing to a critical role of the LHb and of its inputs onto the RMTg in outcome-specific conditioned inhibition in appetitive settings. These findings are consistent with the developing view that the LHb promotes a negative reward prediction error in Pavlovian conditioning.SIGNIFICANCE STATEMENT Stimuli that positively or negatively predict rewarding outcomes influence choice between actions that deliver those outcomes. Previous studies have found that a positive predictor of a specific outcome biases choice toward actions delivering that outcome. In contrast, a negative predictor of an outcome biases choice away from actions earning that outcome and toward other actions. Here we reveal that the lateral habenula is critical for negative predictors, but not positive predictors, to affect choice. Furthermore, these effects were found to require activation of lateral habenula inputs to the rostromedial tegmental nucleus. These results are consistent with the view that the lateral habenula establishes inhibitory relationships between stimuli and food outcomes and computes a negative prediction error in Pavlovian conditioning.

δ-Opioid receptors in the accumbens shell mediate the influence of both excitatory and inhibitory predictions on choice.

BACKGROUND AND PURPOSE: Stimuli that predict rewarding events can control choice between future actions, and this control could be mediated by δ-opioid receptors in the nucleus accumbens shell (NAc-S). Stimuli predicting the absence of important events can also guide choice, although it remains unknown whether they do so via changes in an accumbal δ-opioid receptor-related process. EXPERIMENTAL APPROACH: δ-opioid receptor-eGFP mice were trained to perform two instrumental actions that delivered different food outcomes. Choice between the two actions was then tested in the presence of stimuli paired with either the delivery or the non-delivery of each of the two outcomes. Bilateral infusions of the δ-opioid receptor antagonist naltrindole into the NAc-S were used to determine the role of these receptors at the time of choice and δ-opioid receptor expression in the NAc-S used to assess functional activity. KEY RESULTS: A stimulus predicting a specific outcome biased choice performance towards the action previously earning that same outcome. In contrast, a stimulus signalling the absence of that outcome biased performance away from the action that delivered that outcome towards actions associated with the absence of that outcome. Both effects were associated with increased δ-opioid receptor expression on the membrane of cholinergic interneurons within the NAc-S. Furthermore, both effects were blocked by naltrindole infused into the NAc-S. CONCLUSIONS AND IMPLICATIONS: These findings suggest that δ-opioid receptors in the NAc-S were involved in the effects of predictive learning on choice between actions, whether those predictions involve the presence or absence of specific rewarding events. LINKED ARTICLES: This article is part of a themed section on Opioids: New Pathways to Functional Selectivity. To view the other articles in this section visit http://dx.doi.org/10.1111/bph.2015.172.issue-2.