Kelm Mary Katherine, Boettiger Charlotte Ann
Department of Psychology, University of North Carolina, Chapel Hill, NC 27599, United States; Bowles Center for Alcohol Studies, University of North Carolina, Chapel Hill, NC 27599, United States.
Department of Psychology, University of North Carolina, Chapel Hill, NC 27599, United States; Bowles Center for Alcohol Studies, University of North Carolina, Chapel Hill, NC 27599, United States; Biomedical Research Imaging Center, University of North Carolina, Chapel Hill, NC 27599, United States; Neurobiology Curriculum, University of North Carolina, Chapel Hill, NC 27599, United States.
Pharmacol Biochem Behav. 2015 Apr;131:57-63. doi: 10.1016/j.pbb.2015.01.014. Epub 2015 Jan 28.
Despite extensive links between reinforcement-based learning and dopamine (DA), studies to date have not found consistent effects of acute DA reduction on reinforcement learning in both men and women. Here, we tested the effects of reducing DA on reward- and punishment-based learning using the deterministic passive avoidance learning (PAL) task. We tested 16 (5 female) adults (ages 22-40) in a randomized, cross-over design to determine whether reducing global DA by administering an amino acid beverage deficient in the DA precursors, phenylalanine and tyrosine (P/T[-]), would affect PAL task performance. We found that P/T[-] beverage effects on PAL performance were modulated by age. Specifically, we found that P/T depletion significantly improved learning from punishment with increasing participant age. Participants committed 1.49 fewer passive avoidance errors per additional year of age (95% CI, -0.71 - -2.27, r=-0.74, p=0.001). Moreover, P/T depletion improved learning from punishment in adults (ages 26-40) while it impaired learning from punishment in emerging adults (ages 22-25). We observed similar, but non-significant trends in learning from reward. While there was no overall effect of P/T-depletion on reaction time (RT), there was a relationship between the effect of P/T depletion on PAL performance and RT; those who responded more slowly on the P/T[-] beverage also made more errors on the P/T[-] beverage. When P/T-depletion slowed RT after a correct response, there was a worsening of PAL task performance; there was no similar relationship for the RT after an incorrect response and PAL task performance. Moreover, among emerging adults, changes in mood on the P/T[-] beverage negatively correlated with learning from reward on the P/T[-] beverage. Together, we found that both reward- and punishment-based learning are sensitive to central catecholamine levels, and that these effects of acute DA reduction vary with age.
尽管基于强化的学习与多巴胺(DA)之间存在广泛联系,但迄今为止的研究尚未发现急性DA减少对男性和女性强化学习的一致影响。在此,我们使用确定性被动回避学习(PAL)任务测试了减少DA对基于奖励和惩罚的学习的影响。我们采用随机交叉设计对16名(5名女性)成年人(年龄22 - 40岁)进行测试,以确定通过饮用缺乏DA前体苯丙氨酸和酪氨酸的氨基酸饮料(P/T[-])来降低整体DA是否会影响PAL任务表现。我们发现P/T[-]饮料对PAL表现的影响受年龄调节。具体而言,我们发现随着参与者年龄的增加,P/T耗竭显著改善了从惩罚中学习的能力。参与者每增加一岁,被动回避错误减少1.49个(95%置信区间,-0.71 - -2.27,r = -0.74,p = 0.001)。此外,P/T耗竭改善了成年人(年龄26 - 40岁)从惩罚中学习的能力,而损害了新兴成年人(年龄22 - 25岁)从惩罚中学习的能力。我们在从奖励中学习方面观察到了类似但不显著的趋势。虽然P/T耗竭对反应时间(RT)没有总体影响,但P/T耗竭对PAL表现的影响与RT之间存在关系;那些在P/T[-]饮料上反应较慢的人在P/T[-]饮料上也犯了更多错误。当正确反应后P/T耗竭使RT减慢时,PAL任务表现会恶化;错误反应后的RT与PAL任务表现之间没有类似关系。此外,在新兴成年人中,P/T[-]饮料引起的情绪变化与在P/T[-]饮料上从奖励中学习呈负相关。总之,我们发现基于奖励和惩罚的学习都对中枢儿茶酚胺水平敏感,并且急性DA减少的这些影响随年龄而变化。
