Kiyatkin E A, Stein E A
Department of Psychiatry, Medical College of Wisconsin, Milwaukee 53226, USA.
Neuroscience. 1995 Feb;64(3):599-617. doi: 10.1016/0306-4522(94)00436-9.
High-speed chronoamperometry with Nafion-coated monoamine-sensitive carbon fiber electrodes was used to estimate changes in extracellular dopamine concentration in the nucleus accumbens during cocaine self-administration behavior in rats. In trained animals, time-locked biphasic fluctuations in dopamine-dependent electrochemical signal were found to accompany cocaine self-injections (0.8-0.9 mg/kg/inj). The mean signal gradually increased by the equivalent of 20-30 nM of dopamine during the 60 s preceding the injection, reached a peak value at the lever-press and decreased abruptly by about 20-30 nM for 40-60 s after the injection. This cyclic pattern was repeated with the next lever-press. The post-cocaine signal decreases were most pronounced during the first 30 min of each session, when self-administration behavior was highest (eight to 16 injections), and gradually diminished during the session. In contrast, the pre-injection signal increases became enhanced over time. Lever-presses reinforced by a double cocaine dose were followed by significantly larger and longer lasting signal decreases. These biphasic fluctuations quickly disappeared after several non-reinforced lever-presses. Although experimenter-delivered cocaine injections paced to mimic the pattern of self-administration also induced biphasic signal fluctuations, both the post-drug signal decreases and subsequent pre-injection increases were significantly smaller. It is hypothesized that the increases in signal seen in trained animals are a consequence of cocaine-induced dopamine uptake inhibition following behavior-associated dopamine cell activation. In contrast, the post-cocaine abrupt transient signal depression may be related to a decrease in mesolimbic dopamine release due to inhibition of dopamine cell activity. Signal decreases seen after self-administered procaine suggest that cocaine's local anesthetic action may contribute to this decrease in dopamine release. Additionally, while the latency of response differed somewhat, since apomorphine administration also led to a reduction in signal, autoreceptor activation may also have contributed to the cocaine-induced signal depression. That learning and behavioral mechanisms are also important determinants of the observed cocaine-induced signal changes is suggested by the signal decreases after the first non-reinforced responses, signal differences between self- and passively-administered cocaine and signal increases caused by cocaine-related cues. In light of numerous neuropharmacological studies implicating the significance of the mesolimbic dopamine system in the organization and regulation of goal-directed behaviors, these data suggest that mesolimbic dopamine system activation may mediate motivational and activational components of drug-seeking and drug-taking behavior, while the transient, reward-associated inhibition of the system may be involved in regulating these behaviors.(ABSTRACT TRUNCATED AT 400 WORDS)
利用涂有Nafion的单胺敏感碳纤维电极进行高速计时电流法,以评估大鼠可卡因自我给药行为期间伏隔核细胞外多巴胺浓度的变化。在经过训练的动物中,发现与可卡因自我注射(0.8 - 0.9毫克/千克/注射)相关的、与多巴胺相关的电化学信号中存在锁时双相波动。在注射前60秒内,平均信号相当于多巴胺浓度逐渐增加20 - 30纳摩尔,在杠杆按压时达到峰值,注射后40 - 60秒内突然下降约20 - 30纳摩尔。下一次杠杆按压时重复这种循环模式。每次实验的前30分钟内,可卡因注射后的信号下降最为明显,此时自我给药行为最为频繁(8至16次注射),且在实验过程中逐渐减弱。相比之下,注射前信号的增加随时间增强。双倍可卡因剂量强化的杠杆按压后,信号下降幅度更大且持续时间更长。经过几次无强化的杠杆按压后,这些双相波动迅速消失。尽管实验者给予的可卡因注射模仿自我给药模式也会诱导双相信号波动,但药物注射后的信号下降和随后注射前的增加都明显较小。据推测,在经过训练的动物中看到的信号增加是行为相关多巴胺细胞激活后可卡因诱导的多巴胺摄取抑制的结果。相比之下,可卡因注射后信号的突然短暂下降可能与多巴胺细胞活性受抑制导致的中脑边缘多巴胺释放减少有关。自我注射普鲁卡因后看到的信号下降表明,可卡因的局部麻醉作用可能导致多巴胺释放减少。此外,虽然反应潜伏期有所不同,但由于给予阿扑吗啡也会导致信号降低,自身受体激活可能也促成了可卡因诱导的信号抑制。首次无强化反应后的信号下降、自我给药和被动给药可卡因之间的信号差异以及可卡因相关线索引起的信号增加表明,学习和行为机制也是观察到的可卡因诱导信号变化的重要决定因素。鉴于大量神经药理学研究表明中脑边缘多巴胺系统在目标导向行为的组织和调节中具有重要意义,这些数据表明,中脑边缘多巴胺系统激活可能介导了觅药和用药行为的动机和激活成分,而该系统短暂的、与奖励相关的抑制可能参与调节这些行为。(摘要截选至400字)
