Sleipness Evan P, Jansen Heiko T, Schenk James O, Sorg Barbara A
Program in Neuroscience, Washington State University, Pullman, Washington 99164, USA.
Synapse. 2008 Dec;62(12):877-85. doi: 10.1002/syn.20552.
Circadian rhythms influence cocaine-seeking behavior in rats, and this behavior may be mediated by variability in the rate of extracellular dopamine clearance across the day:night cycle. We used rotating disk electrode voltammetry to examine dopamine clearance and inhibition of clearance by cocaine in the rat medial prefrontal cortex (mPFC) and nucleus accumbens (NAc). Rats were housed under light:dark conditions (LD, 12 h:12 h) or in constant darkness (DD), the latter given just prior to the day of sacrifice. Tissue was collected at 4-h intervals under LD and DD conditions. Under LD, dopamine clearance in both brain regions was greatest at 4h after lights on. Under DD, there was a blunted but still rhythmic pattern of dopamine clearance across the 24-h cycle. Cocaine-induced inhibition of dopamine clearance in the mPFC was not different across the day:night cycle in rats under LD. Paradoxically, under DD, dopamine clearance in the mPFC was enhanced by cocaine at ZT16, 4 h into the subjective night, and only minimally inhibited at other times. In the NAc, cocaine inhibition of dopamine clearance was lowest at ZT4 under LD, and did not vary under DD. We conclude that dopamine clearance varies both in a diurnal and possibly in a circadian manner in the mPFC, and in a diurnal manner in the NAc. These results indicate that light itself may be used to manipulate molecules implicated in drug addiction.
昼夜节律影响大鼠对可卡因的觅求行为,这种行为可能由全天昼夜周期中细胞外多巴胺清除率的变化介导。我们使用旋转圆盘电极伏安法来检测大鼠内侧前额叶皮质(mPFC)和伏隔核(NAc)中多巴胺的清除以及可卡因对清除的抑制作用。大鼠饲养在光照:黑暗条件(LD,12小时:12小时)或持续黑暗(DD)环境中,后者在处死前一天给予。在LD和DD条件下,每隔4小时收集组织样本。在LD条件下,两个脑区的多巴胺清除率在光照开启后4小时最高。在DD条件下,24小时周期内多巴胺清除呈现出减弱但仍有节律的模式。在LD条件下,大鼠全天昼夜周期中可卡因对mPFC中多巴胺清除的抑制作用没有差异。矛盾的是,在DD条件下,主观夜间4小时(ZT16)时,可卡因增强了mPFC中的多巴胺清除,而在其他时间仅产生最小程度的抑制。在NAc中,LD条件下ZT4时可卡因对多巴胺清除的抑制作用最低,DD条件下则没有变化。我们得出结论,mPFC中多巴胺清除率以昼夜和可能的昼夜节律方式变化,而NAc中则以昼夜方式变化。这些结果表明,光本身可能被用于操纵与药物成瘾相关的分子。