BACKGROUND: Converging experimental data indicate that δ opioid receptors contribute to mediate drug reinforcement processes. Whether their contribution reflects a role in the modulation of drug reward or an implication in conditioned learning, however, has not been explored. In the present study, we investigated the impact of δ receptor gene knockout on reinforced conditioned learning under several experimental paradigms. METHODS: We assessed the ability of δ receptor knockout mice to form drug-context associations with either morphine (appetitive)- or lithium (aversive)-induced Pavlovian place conditioning. We also examined the efficiency of morphine to serve as a positive reinforcer in these mice and their motivation to gain drug injections, with operant intravenous self-administration under fixed and progressive ratio schedules and at two different doses. RESULTS: Mutant mice showed impaired place conditioning in both appetitive and aversive conditions, indicating disrupted context-drug association. In contrast, mutant animals displayed intact acquisition of morphine self-administration and reached breaking-points comparable to control subjects. Thus, reinforcing effects of morphine and motivation to obtain the drug were maintained. CONCLUSION: Collectively, the data suggest that δ receptor activity is not involved in morphine reinforcement but facilitates place conditioning. This study reveals a novel aspect of δ opioid receptor function in addiction-related behaviors.
BACKGROUND: Converging experimental data indicate that δ opioid receptors contribute to mediate drug reinforcement processes. Whether their contribution reflects a role in the modulation of drug reward or an implication in conditioned learning, however, has not been explored. In the present study, we investigated the impact of δ receptor gene knockout on reinforced conditioned learning under several experimental paradigms. METHODS: We assessed the ability of δ receptor knockout mice to form drug-context associations with either morphine (appetitive)- or lithium (aversive)-induced Pavlovian place conditioning. We also examined the efficiency of morphine to serve as a positive reinforcer in these mice and their motivation to gain drug injections, with operant intravenous self-administration under fixed and progressive ratio schedules and at two different doses. RESULTS: Mutant mice showed impaired place conditioning in both appetitive and aversive conditions, indicating disrupted context-drug association. In contrast, mutant animals displayed intact acquisition of morphine self-administration and reached breaking-points comparable to control subjects. Thus, reinforcing effects of morphine and motivation to obtain the drug were maintained. CONCLUSION: Collectively, the data suggest that δ receptor activity is not involved in morphine reinforcement but facilitates place conditioning. This study reveals a novel aspect of δ opioid receptor function in addiction-related behaviors.
Authors: Traci A Czyzyk; Amparo Romero-Picó; John Pintar; Jaime H McKinzie; Matthias H Tschöp; Michael A Statnick; Ruben Nogueiras Journal: FASEB J Date: 2012-05-16 Impact factor: 5.191
Authors: Pauline Charbogne; Olivier Gardon; Elena Martín-García; Helen L Keyworth; Aya Matsui; Anna E Mechling; Thomas Bienert; Md Taufiq Nasseef; Anne Robé; Luc Moquin; Emmanuel Darcq; Sami Ben Hamida; Patricia Robledo; Audrey Matifas; Katia Befort; Claire Gavériaux-Ruff; Laura-Adela Harsan; Dominik von Elverfeldt; Jurgen Hennig; Alain Gratton; Ian Kitchen; Alexis Bailey; Veronica A Alvarez; Rafael Maldonado; Brigitte L Kieffer Journal: Biol Psychiatry Date: 2016-12-26 Impact factor: 13.382