Septal nuclei critically mediate the development of behavioral sensitization to a single morphine injection in rats.

Behavioral sensitization to a single morphine injection is a unique model to study the neuroanatomical substrates of long-lasting behavioral plasticity associated with opioid reward and abuse. Earlier observations have demonstrated that septal nuclei are critically involved in the processes of reward, learning and memory. In the present study, we investigated the effects of septal nuclei lesions on behavioral sensitization to a single morphine injection, morphine induced conditioned place preference and antinociception in rats. Behavioral sensitization was established by a single injection of 3-30 mg/kg morphine in rats. Bilateral electrical lesions of septal nuclei were carried out 7 days before morphine pretreatment. Acute morphine injection induced hyperactivity in the non-surgery control, sham surgery and septal nuclei-lesioned rats. Seven days later, the challenge injection with 3mg/kg morphine induced significant behavioral sensitization in rats with no surgery and sham surgery, but failed to induce behavioral sensitization in septal nuclei-lesioned rats. When the septal nuclei ablation was carried out after acute morphine pretreatment, the expression of behavioral sensitization was unaffected and not different among rats. In addition, septal nuclei lesions did not impact the rewarding and antinociceptive effects of 10 mg/kg morphine when the rats were tested in a conditioned place preference test and tail-flick test, respectively. Collectively, these results suggest that septal nuclei may be selectively involved in the initiation of behavioral sensitization to morphine, which is separable from the effects of morphine for exerting its rewarding and antinociceptive effects.