Newborn neurons in the olfactory bulb selected for long-term survival through olfactory learning are prematurely suppressed when the olfactory memory is erased.

Sultan S; Rey N; Sacquet J; Mandairon N; Didier A

首页> 外文期刊>The Journal of Neuroscience: The Official Journal of the Society for Neuroscience >Newborn neurons in the olfactory bulb selected for long-term survival through olfactory learning are prematurely suppressed when the olfactory memory is erased.

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Newborn neurons in the olfactory bulb selected for long-term survival through olfactory learning are prematurely suppressed when the olfactory memory is erased.

机译：当嗅觉记忆被清除时，通过嗅觉学习选择用于长期生存的嗅球中的新生神经元会被过早抑制。

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A role for newborn neurons in olfactory memory has been proposed based on learning-dependent modulation of olfactory bulb neurogenesis in adults. We hypothesized that if newborn neurons support memory, then they should be suppressed by memory erasure. Using an ecological approach in mice, we showed that behaviorally breaking a previously learned odor-reward association prematurely suppressed newborn neurons selected to survive during initial learning. Furthermore, intrabulbar infusions of the caspase pan-inhibitor ZVAD (benzyloxycarbonyl-Val-Ala-Asp) during the behavioral odor-reward extinction prevented newborn neurons death and erasure of the odor-reward association. Newborn neurons thus contribute to the bulbar network plasticity underlying long-term memory.

机译：基于成人对成年人嗅球神经发生的学习依赖性调节，已经提出了新生神经元在嗅觉记忆中的作用。我们假设，如果新生神经元支持记忆，则应通过记忆擦除来抑制它们。在小鼠中使用生态学方法，我们发现在行为上打破了先前学习的气味-奖励关联，会过早地抑制新生的神经元，这些新生的神经元在初次学习过程中得以存活。此外，在行为性气味奖励消灭过程中，球囊内注入半胱天冬酶泛抑制剂ZVAD（苄氧羰基-Val-Ala-Asp）可防止新生儿神经元死亡并消除气味奖励关联。新生儿神经元因此有助于长期记忆基础的延髓网络可塑性。

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《The Journal of Neuroscience: The Official Journal of the Society for Neuroscience》 |2011年第42期|共6页
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Sultan S; Rey N; Sacquet J; Mandairon N; Didier A;
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1. Newborn neurons in the olfactory bulb selected for long-term survival through olfactory learning are prematurely suppressed when the olfactory memory is erased. [J] . Sultan S, Rey N, Sacquet J, The Journal of Neuroscience: The Official Journal of the Society for Neuroscience . 2011,第42期

机译：当嗅觉记忆被清除时，通过嗅觉学习选择用于长期生存的嗅球中的新生神经元会被过早抑制。
2. Excessive microglial activation aggravates olfactory dysfunction by impeding the survival of newborn neurons in the olfactory bulb of Niemann-Pick disease type C1 mice [J] . SeoY., KimH.-S., ShinY., Biochimica et biophysica acta. Molecular basis of disease: BBA . 2014,第11期

机译：小胶质细胞过度活化会阻碍Niemann-Pick疾病C1型小鼠嗅球中新生神经元的存活，从而加剧嗅觉功能障碍
3. Excessive microglial activation aggravates olfactory dysfunction by impeding the survival of newborn neurons in the olfactory bulb of Niemann-Pick disease type C1 mice [J] . SeoY., KimH.-S., ShinY., Biochimica et biophysica acta. Molecular basis of disease: BBA . 2014,第11期

机译：过量的微胶质激活通过阻碍Niemann-Pick疾病类型C1小鼠的嗅球中新生儿神经元的存活来加剧嗅功能障碍
4. The function of periglomerular cells on olfactory coding in a detailed electrophysiological model of vertebrate olfactory bulb [C] . IEEE 5th International Bio-Inspired Computing: Theories and Applications . 2010

机译：在脊椎动物嗅球的详细电生理模型中，肾小球周围细胞对嗅编码的功能
5. In vivo control of olfactory receptor neuron input to the olfactory bulb by presynaptic inhibition. [D] . Pirez, Nicolas. 2009

机译：通过突触前抑制对输入到嗅球的嗅觉受体神经元进行体内控制。
6. Newborn Neurons in the Olfactory Bulb Selected for Long-Term Survival through Olfactory Learning Are Prematurely Suppressed When the Olfactory Memory Is Erased [O] . Sébastien Sultan, Nolwen Rey, Joelle Sacquet, 2011

机译：当嗅觉记忆被清除时通过嗅觉学习选择长期生存的嗅球中的新生神经元被过早抑制。
7. Consolidation of an Olfactory Memory Trace in the Olfactory Bulb Is Required for Learning-Induced Survival of Adult-Born Neurons and Long-Term Memory [O] . Kermen, Florence, Sultan, Sébastien, Sacquet, Joëlle, 2010

机译：嗅球记忆中的嗅觉记忆痕迹的整合是成人出生的神经元的学习诱导生存和长期记忆所必需的。

Newborn neurons in the olfactory bulb selected for long-term survival through olfactory learning are prematurely suppressed when the olfactory memory is erased.

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