学习识别母体气味介导了小鼠的第一次哺乳行为。

Learned recognition of maternal signature odors mediates the first suckling episode in mice.

机构信息

Department of Cell Biology, The Scripps Research Institute, La Jolla, CA 92037, USA.

出版信息

Curr Biol. 2012 Nov 6;22(21):1998-2007. doi: 10.1016/j.cub.2012.08.041. Epub 2012 Oct 4.

DOI:10.1016/j.cub.2012.08.041

PMID:23041191

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3494771/

Abstract

BACKGROUND

Soon after birth, all mammals must initiate milk suckling to survive. In rodents, this innate behavior is critically dependent on uncharacterized maternally derived chemosensory ligands. Recently, the first pheromone sufficient to initiate suckling was isolated from the rabbit. Identification of the olfactory cues that trigger first suckling in the mouse would provide the means to determine the neural mechanisms that generate innate behavior.

RESULTS

Here we use behavioral analysis, metabolomics, and calcium imaging of primary sensory neurons and find no evidence of ligands with intrinsic bioactivity, such as pheromones, acting to promote first suckling in the mouse. Instead, we find that the initiation of suckling is dependent on variable blends of maternal "signature odors" that are learned and recognized prior to first suckling.

CONCLUSIONS

As observed with pheromone-mediated behavior, the response to signature odors releases innate behavior. However, this mechanism tolerates variability in both the signaling ligands and sensory neurons, which may maximize the probability that this first essential behavior is successfully initiated. These results suggest that mammalian species have evolved multiple strategies to ensure the onset of this critical behavior.

摘要

背景

哺乳动物出生后不久，必须开始吮吸乳汁才能存活。在啮齿动物中，这种先天行为严重依赖于尚未确定的母体来源的化学感觉配体。最近，从兔子身上分离出了第一个足以引发吮吸的信息素。确定触发老鼠第一次吮吸的嗅觉线索将提供确定产生先天行为的神经机制的手段。

结果

在这里，我们使用行为分析、代谢组学和初级感觉神经元的钙成像，没有发现具有内在生物活性的配体（如信息素）作为促进老鼠第一次吮吸的作用的证据。相反，我们发现吮吸的开始依赖于在第一次吮吸之前学习和识别的母体“特征气味”的可变混合物。

结论

正如观察到的信息素介导的行为一样，对特征气味的反应释放出先天行为。然而，这种机制容忍信号配体和感觉神经元的可变性，这可能最大限度地提高这种第一次基本行为成功启动的概率。这些结果表明，哺乳动物物种已经进化出多种策略来确保这种关键行为的发生。

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