Mal. Two sections per animal were counted in 3 animals in Experiment 2 (cueinduced reinstatement). ORX-Eur J Neurosci. Author manuscript; available in PMC 2016 March 08.Moorman et al.Pagepositive and Fos/ORX-positive neurons were counted bilaterally in each section. Three subregions of the orexin cell field were analyzed independently. Data analysis All statistical analyses were conducted using GraphPad Prism (Version 5.1). In PF-04418948 chemical information Experiments 1 and 2, behavioral measures were numbers of active and inactive lever presses in extinction vs. reinstatement/renewal and were compared using student t-tests. For Experiments 1 and 2, animals that did not reinstate above the group extinction average were excluded from Fos correlation analyses, as was one animal in Experiment 2 that did not extinguish. In Experiment 3, preference measures (EtOH/(EtOH+water)) were numbers of licks on each sipper tube measured on test day (see Figure 4 A ), or ml of fluid consumed (see Figure 4D) compared using student t-tests. One animal was removed from analysis due to corrupted lickometer detection. In all three experiments, the percentages of ORX+ neurons that were also Fos+ (double-labeled neurons) were PD325901 manufacturer correlated with number of behavioral responses (active lever presses in Experiments 1 and 2; EtOH-lickometer preference in Experiment 3). Correlations were calculated separately for double-labeled neurons in lateral, perifornical, and medial LHA.Author Manuscript Author Manuscript Author Manuscript Author ManuscriptResultsExperiment 1: Context-induced reinstatement of ethanol seeking Animals exhibited robust context-induced reinstatement of alcohol seeking– Two groups of animals were trained to respond for EtOH in operant chambers located in two separate rooms. Responding on the active and inactive levers, as well as the total number of infusions earned, were statistically similar for both training groups across FR1, FR2 and FR3 training (p>0.05 for all t-tests, data not shown). On the final three days of selfadministration training, rats exhibited an average of 74.2 (?2.7 SEM) active lever responses, 3.0 (?.2 SEM) inactive lever responses and earned 19.3 (?.8 SEM) EtOH rewards (Figure 2A). Following self-administration training, rats were switched to the opposite room for extinction training over a period of 10 days. Both training groups extinguished at similar rates, and on the final day of extinction, exhibited an average of 5.6 (?.3 SEM) active lever responses and 1.6 (?.7 SEM) inactive lever responses (Figure 2A). Finally, rats were returned to the room where they originally received alcohol and tested for renewal of EtOH seeking. Animals exhibited robust reinstatement behavior, as evidenced by a significant increase in active lever responding as compared to the final day of extinction (t(20)=6.959, p<0.001; Figure 2A,B). Responding on the inactive lever did not differ between test day and the final day of extinction (p>0.05; Figure 2A), indicating a specific reinstatement of EtOH seeking. Reinstatement behavior was identical across the two training groups (p>0.05, data not shown). Context-induced reinstatement of EtOH seeking is positively correlated with activation of ORX neurons in DMH and LH areas–Next, we assessed whether there was a relationship between the magnitudes of context-induced reinstatement behavior and activation of ORX neurons in DMH, PF and LH areas. We observed a significant, positive correlation between active lever responses during reinst.Mal. Two sections per animal were counted in 3 animals in Experiment 2 (cueinduced reinstatement). ORX-Eur J Neurosci. Author manuscript; available in PMC 2016 March 08.Moorman et al.Pagepositive and Fos/ORX-positive neurons were counted bilaterally in each section. Three subregions of the orexin cell field were analyzed independently. Data analysis All statistical analyses were conducted using GraphPad Prism (Version 5.1). In Experiments 1 and 2, behavioral measures were numbers of active and inactive lever presses in extinction vs. reinstatement/renewal and were compared using student t-tests. For Experiments 1 and 2, animals that did not reinstate above the group extinction average were excluded from Fos correlation analyses, as was one animal in Experiment 2 that did not extinguish. In Experiment 3, preference measures (EtOH/(EtOH+water)) were numbers of licks on each sipper tube measured on test day (see Figure 4 A ), or ml of fluid consumed (see Figure 4D) compared using student t-tests. One animal was removed from analysis due to corrupted lickometer detection. In all three experiments, the percentages of ORX+ neurons that were also Fos+ (double-labeled neurons) were correlated with number of behavioral responses (active lever presses in Experiments 1 and 2; EtOH-lickometer preference in Experiment 3). Correlations were calculated separately for double-labeled neurons in lateral, perifornical, and medial LHA.Author Manuscript Author Manuscript Author Manuscript Author ManuscriptResultsExperiment 1: Context-induced reinstatement of ethanol seeking Animals exhibited robust context-induced reinstatement of alcohol seeking– Two groups of animals were trained to respond for EtOH in operant chambers located in two separate rooms. Responding on the active and inactive levers, as well as the total number of infusions earned, were statistically similar for both training groups across FR1, FR2 and FR3 training (p>0.05 for all t-tests, data not shown). On the final three days of selfadministration training, rats exhibited an average of 74.2 (?2.7 SEM) active lever responses, 3.0 (?.2 SEM) inactive lever responses and earned 19.3 (?.8 SEM) EtOH rewards (Figure 2A). Following self-administration training, rats were switched to the opposite room for extinction training over a period of 10 days. Both training groups extinguished at similar rates, and on the final day of extinction, exhibited an average of 5.6 (?.3 SEM) active lever responses and 1.6 (?.7 SEM) inactive lever responses (Figure 2A). Finally, rats were returned to the room where they originally received alcohol and tested for renewal of EtOH seeking. Animals exhibited robust reinstatement behavior, as evidenced by a significant increase in active lever responding as compared to the final day of extinction (t(20)=6.959, p<0.001; Figure 2A,B). Responding on the inactive lever did not differ between test day and the final day of extinction (p>0.05; Figure 2A), indicating a specific reinstatement of EtOH seeking. Reinstatement behavior was identical across the two training groups (p>0.05, data not shown). Context-induced reinstatement of EtOH seeking is positively correlated with activation of ORX neurons in DMH and LH areas–Next, we assessed whether there was a relationship between the magnitudes of context-induced reinstatement behavior and activation of ORX neurons in DMH, PF and LH areas. We observed a significant, positive correlation between active lever responses during reinst.