Friedrich Anke, Thomas Ulf, Müller Uli
Institut für Biologie-Neurobiologie, Freie Universität Berlin, 14195 Berlin, Germany.
J Neurosci. 2004 May 5;24(18):4460-8. doi: 10.1523/JNEUROSCI.0669-04.2004.
Learning and memory formation in intact animals is generally studied under defined parameters, including the control of feeding. We used associative olfactory conditioning of the proboscis extension response in honeybees to address effects of feeding status on processes of learning and memory formation. Comparing groups of animals with different but defined feeding status at the time of conditioning reveals new and characteristic features in memory formation. In animals fed 18 hr earlier, three-trial conditioning induces a stable memory that consists of different phases: a mid-term memory (MTM), translation-dependent early long-term memory (eLTM; 1-2 d), and a transcription-dependent late LTM (lLTM; > or =3 d). Additional feeding of a small amount of sucrose 4 hr before conditioning leads to a loss of all of these memory phases. Interestingly, the basal activity of the cAMP-dependent protein kinase A (PKA), a key player in LTM formation, differs in animals with different satiation levels. Pharmacological rescue of the low basal PKA activity in animals fed 4 hr before conditioning points to a specific function of cAMP-PKA cascade in mediating satiation-dependent memory formation. An increase in PKA activity during conditioning rescues only transcription-dependent lLTM; acquisition, MTM, and eLTM are still impaired. Thus, during conditioning, the cAMP-PKA cascade mediates the induction of the transcription-dependent lLTM, depending on the satiation level. This result provides the first evidence for a central and distinct function of the cAMP-PKA cascade connecting satiation level with learning.
完整动物的学习和记忆形成通常在特定参数下进行研究,包括进食控制。我们利用蜜蜂伸吻反应的联合嗅觉条件反射来研究进食状态对学习和记忆形成过程的影响。比较在条件反射时具有不同但明确进食状态的动物组,揭示了记忆形成中的新特征和独特特征。在提前18小时进食的动物中,三次试验的条件反射诱导出一种稳定的记忆,该记忆由不同阶段组成:中期记忆(MTM)、翻译依赖性早期长期记忆(eLTM;1 - 2天)和转录依赖性晚期长期记忆(lLTM;≥3天)。在条件反射前4小时额外喂食少量蔗糖会导致所有这些记忆阶段丧失。有趣的是,环磷酸腺苷依赖性蛋白激酶A(PKA)是长期记忆形成中的关键参与者,其基础活性在不同饱腹感水平的动物中有所不同。对在条件反射前4小时进食的动物中低基础PKA活性进行药理学挽救,表明环磷酸腺苷 - PKA级联在介导饱腹感依赖性记忆形成中具有特定功能。在条件反射期间PKA活性的增加仅挽救了转录依赖性晚期长期记忆;获取、中期记忆和早期长期记忆仍然受损。因此,在条件反射期间,环磷酸腺苷 - PKA级联根据饱腹感水平介导转录依赖性晚期长期记忆的诱导。这一结果首次证明了环磷酸腺苷 - PKA级联在将饱腹感水平与学习联系起来方面具有核心且独特的功能。