Abstract Clinical and animal studies have indicated that propofol has potential for abuse, but the specific neurobi- ological mechanism underlying propofol reward is not fully understood. The purpose of this study was...Abstract Clinical and animal studies have indicated that propofol has potential for abuse, but the specific neurobi- ological mechanism underlying propofol reward is not fully understood. The purpose of this study was to inves- tigate the role of extracellular signal-regulated kinase (ERK) signal transduction pathways in the nucleus accumbens (NAc) in propofol self-administration. We tested the expression of p-ERK in the NAc following the maintenance of propofol self-administration in rats. We also assessed the effect of administration of SCH23390, an antagonist of the D1 dopamine receptor, on the expression of p-ERK in the NAc in propofol self-administering rats, and examined the effects of intra-NAc injection of U0126, an MEK inhibitor, on propofol reinforcement in rats. The results showed that the expression of p-ERK in the NAc increased significantly in rats maintained on propofol, and pre-treatment with SCH23390 inhibited the propofol self- administration and diminished the expression of p-ERK in the NAc. Moreover, intra-NAc injection of U0126 (4 μg/ side) attenuated the propofol self-administration. The data suggest that ERK signal transduction pathways coupledwith D1 dopamine receptors in the NAc may be involved in the maintenance of propofol self-administration and its rewarding effects.展开更多
基金supported in part by the National Natural Science Foundation of China(81271469 and 81471350)the Natural Science Foundation of Zhejiang Province,China(Z2101211 and Y20140692)a Medical Health Project of Zhejiang Province, China(2014KYB161)
文摘Abstract Clinical and animal studies have indicated that propofol has potential for abuse, but the specific neurobi- ological mechanism underlying propofol reward is not fully understood. The purpose of this study was to inves- tigate the role of extracellular signal-regulated kinase (ERK) signal transduction pathways in the nucleus accumbens (NAc) in propofol self-administration. We tested the expression of p-ERK in the NAc following the maintenance of propofol self-administration in rats. We also assessed the effect of administration of SCH23390, an antagonist of the D1 dopamine receptor, on the expression of p-ERK in the NAc in propofol self-administering rats, and examined the effects of intra-NAc injection of U0126, an MEK inhibitor, on propofol reinforcement in rats. The results showed that the expression of p-ERK in the NAc increased significantly in rats maintained on propofol, and pre-treatment with SCH23390 inhibited the propofol self- administration and diminished the expression of p-ERK in the NAc. Moreover, intra-NAc injection of U0126 (4 μg/ side) attenuated the propofol self-administration. The data suggest that ERK signal transduction pathways coupledwith D1 dopamine receptors in the NAc may be involved in the maintenance of propofol self-administration and its rewarding effects.
