果蝇的短期和长期记忆需要不同神经元类型中的cAMP信号传导。

Short- and long-term memory in Drosophila require cAMP signaling in distinct neuron types.

作者信息

Blum Allison L, Li Wanhe, Cressy Mike, Dubnau Josh

机构信息

Cold Spring Harbor Laboratory, 1 Bungtown Road, Cold Spring Harbor, NY 11724, USA.

出版信息

Curr Biol. 2009 Aug 25;19(16):1341-50. doi: 10.1016/j.cub.2009.07.016. Epub 2009 Jul 30.

DOI:10.1016/j.cub.2009.07.016

PMID:19646879

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2752374/

Abstract

BACKGROUND

A common feature of memory and its underlying synaptic plasticity is that each can be dissected into short-lived forms involving modification or trafficking of existing proteins and long-term forms that require new gene expression. An underlying assumption of this cellular view of memory consolidation is that these different mechanisms occur within a single neuron. At the neuroanatomical level, however, different temporal stages of memory can engage distinct neural circuits, a notion that has not been conceptually integrated with the cellular view.

RESULTS

Here, we investigated this issue in the context of aversive Pavlovian olfactory memory in Drosophila. Previous studies have demonstrated a central role for cAMP signaling in the mushroom body (MB). The Ca(2+)-responsive adenylyl cyclase RUTABAGA is believed to be a coincidence detector in gamma neurons, one of the three principle classes of MB Kenyon cells. We were able to separately restore short-term or long-term memory to a rutabaga mutant with expression of rutabaga in different subsets of MB neurons.

CONCLUSIONS

Our findings suggest a model in which the learning experience initiates two parallel associations: a short-lived trace in MB gamma neurons, and a long-lived trace in alpha/beta neurons.

摘要

背景

记忆及其潜在的突触可塑性的一个共同特征是，它们都可以分为涉及现有蛋白质修饰或运输的短期形式和需要新基因表达的长期形式。这种关于记忆巩固的细胞观点的一个基本假设是，这些不同的机制发生在单个神经元内。然而，在神经解剖学层面，记忆的不同时间阶段可以涉及不同的神经回路，这一概念尚未在概念上与细胞观点相结合。

结果

在这里，我们在果蝇的厌恶性巴甫洛夫嗅觉记忆背景下研究了这个问题。先前的研究已经证明cAMP信号在蘑菇体（MB）中起核心作用。Ca(2+)反应性腺苷酸环化酶rutabaga被认为是γ神经元中的一种巧合探测器，γ神经元是MB肯扬细胞的三种主要类型之一。我们能够通过在MB神经元的不同亚群中表达rutabaga，分别将短期或长期记忆恢复到rutabaga突变体中。

结论

我们的研究结果提出了一个模型，其中学习经历启动了两个平行的关联：MBγ神经元中的短期痕迹和α/β神经元中的长期痕迹。

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