Instituto de Investigación Médica M. y M. Ferreyra (INIMEC-CONICET), Córdoba, CP 5000, Argentina.
Chem Senses. 2011 Jul;36(6):565-77. doi: 10.1093/chemse/bjr026. Epub 2011 Mar 28.
When amphetamine is associated with a tastant conditioned stimulus, rats learn to avoid the taste even when employing doses that promote conditioned place preference. One hypothesis raised to account for this effect proposes that taste avoidance induced by amphetamine may be motivated by fear. A sensitive period has been identified in the rat (until postnatal day 10) in which infants learn conditioned appetitive effects to stimuli to which aversions are conditioned after this period. Exogenous administration of corticosterone within this period reverses this effect, generating aversive conditioning. In the present study, we tested conditioning of aversions to amphetamine or LiCl, within and after the sensitive period (Experiments 1 and 2). A third experiment evaluated unconditioned rejection of an aversive quinine solution within the sensitive period. Finally, we tested whether corticosterone administration before conditioning modulates amphetamine-induced taste avoidance. After the sensitive period, infant rats rejected the solution paired with amphetamine or LiCl after 2 conditioning trials, but within the sensitive period, aversions were conditioned only by LiCl and after 4 conditioning trials. Amphetamine-induced taste avoidance was not observed even when corticosterone was administered before conditioning. Additionally, during the sensitive period, a low LiCl dose promoted conditioned taste preference. According to Experiment 3, parameters employed in this study were suitable to yield rejection of aversive solutions within the sensitive period. These results suggest that during the sensitive period, there is a notable resistance to the acquisition of taste avoidance induced by amphetamine. The present experimental framework may represent a useful tool for studying mechanisms underlying taste avoidance and aversion effects.
当安非他命与味觉条件刺激相关联时,老鼠即使使用促进条件位置偏好的剂量,也会学会避免这种味道。为了解释这种效果,提出了一种假设,即安非他命引起的味觉回避可能是由恐惧驱动的。在大鼠中已经确定了一个敏感时期(直到出生后第 10 天),在此期间,婴儿会学习到对条件性食欲效应的条件作用,而在此之后,对厌恶的条件作用则会被条件作用。在此期间内给予外源性皮质酮会逆转这种效应,产生厌恶条件作用。在本研究中,我们在敏感时期内和之后测试了对安非他命或氯化锂的厌恶条件作用(实验 1 和 2)。实验 3 评估了在敏感时期内对厌恶的奎宁溶液的无条件排斥。最后,我们测试了在条件作用之前给予皮质酮是否会调节安非他命引起的味觉回避。在敏感时期后,婴儿大鼠在 2 次条件作用试验后拒绝与安非他命或氯化锂配对的溶液,但在敏感时期内,只有氯化锂可以引起厌恶条件作用,并且需要 4 次条件作用试验。即使在条件作用之前给予皮质酮,也没有观察到安非他命引起的味觉回避。此外,在敏感时期,低剂量的氯化锂促进了条件味觉偏好。根据实验 3 的结果,本研究中使用的参数适合在敏感时期内产生对厌恶溶液的排斥。这些结果表明,在敏感时期,对安非他命引起的味觉回避的获得存在明显的抵抗力。本实验框架可能代表了研究味觉回避和厌恶效应机制的有用工具。