Naloxone and diprenorphine reduce responding for brain self-stimulation in a fixed-ratio schedule in rats.

Rats were implanted with bipolar stimulating electrodes in the midbrain-central gray area (MID-CG) and trained to lever-press for intracranial self-stimulation (ICSS) on a continuous reinforcement schedule (CRF). When behavior was stable, animals were tested in 30 min ICSS sessions following the administration of either naloxone or diprenorphine, both over the dose-range 0.001-10 mg/kg, or with vehicle. Following testing on the CRF schedule, animals were re-trained on a fixed-ratio:30 (FR:30) schedule. When behavior had again stabilized, testing with naloxone, diprenorphine and vehicle was repeated. In the CRF tests, neither naloxone nor diprenorphine had any effects on response rates over the 10,000-fold dose-range used. In the FR:30 tests, however, both drugs significantly reduced response rates at the 10 mg/kg dose, and the reduction produced by naloxone was significantly greater than that produce by diprenorphine. These results suggested that diprenorphine is qualitatively similar to naloxone in altering the rate of responding maintained by ICSS, but is less potent than the prototypical opioid antagonist in this paradigm.