短期和长期记忆的分子药理学剖析
Molecular pharmacological dissection of short- and long-term memory.
作者信息
Izquierdo Luciana A, Barros Daniela M, Vianna Monica R M, Coitinho Adriana, deDavid e Silva Tiago, Choi Humberto, Moletta Beatriz, Medina Jorge H, Izquierdo Ivan
机构信息
Centro de Memoria, Departamento de Bioquímica, Instituto de Ciências Básicas da Saúde, Universidade Federal do Rio Grande do Sul, Porto Alegre, RS, Brazil.
出版信息
Cell Mol Neurobiol. 2002 Jun;22(3):269-87. doi: 10.1023/a:1020715800956.
Abstract
- It has been discussed for over 100 years whether short-term memory (STM) is separate from, or just an early phase of, long-term memory (LTM). The only way to solve this dilemma is to find out at least one treatment that blocks STM while keeping LTM intact for the same task in the same animal. 2. The effect of a large number of treatments infused into the hippocampus, amygdala, and entorhinal, posterior parietal or prefrontal cortex on STM and LTM of a one-trial step-down inhibitory avoidance task was studied. The animals were tested at 1.5 h for STM, and again at 24 h for LTM. The treatments were given after training. 3. Eleven different treatments blocked STM without affecting LTM. Eighteen treatments affected the two memory types differentially, either blocking or enhancing LTM alone. Thus, STM is separate from, and parallel to the first hours of processing of, LTM of that task. 4. The mechanisms of STM are different from those of LTM. The former do not include gene expression or protein synthesis; the latter include a double peak of cAMP-dependent protein kinase activity, accompanied by the phosphorylation of CREB, and both gene expression and protein synthesis. 5. Possible cellular and molecular events that do not require mRNA or protein synthesis should account for STM. These might include a hyperactivation of glutamate AMPA receptors, ribosome changes, or the exocytosis of glycoproteins that participate in cell addition.
摘要
- 关于短期记忆(STM)是与长期记忆(LTM)分离,还是仅仅是长期记忆的早期阶段,这个问题已经讨论了100多年。解决这一困境的唯一方法是在同一只动物身上,找到至少一种能在同一任务中阻断STM同时保持LTM完整的处理方法。2. 研究了大量注入海马体、杏仁核、内嗅皮层、顶叶后部或前额叶皮层的处理方法对单次递减抑制性回避任务的STM和LTM的影响。在1.5小时时测试动物的STM,在24小时时再次测试其LTM。处理在训练后进行。3. 11种不同的处理方法阻断了STM而不影响LTM。18种处理方法对这两种记忆类型有不同影响,要么单独阻断要么增强LTM。因此,STM与该任务LTM处理的最初几个小时是分离且并行的。4. STM的机制与LTM不同。前者不包括基因表达或蛋白质合成;后者包括cAMP依赖性蛋白激酶活性的双峰,伴随着CREB的磷酸化,以及基因表达和蛋白质合成。5. 不需要mRNA或蛋白质合成的可能的细胞和分子事件应解释STM。这些可能包括谷氨酸AMPA受体的过度激活、核糖体变化或参与细胞添加的糖蛋白的胞吐作用。
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