气味在路径整合过程中刺激海马结构背外侧区域的神经元活动。

Odours stimulate neuronal activity in the dorsolateral area of the hippocampal formation during path integration.

机构信息

Unidade de Investigação em Eco-Etologia, ISPA-Instituto Universitário, , Lisboa 1149-041, Portugal, Department of Biological Sciences, Virginia Tech, , Blacksburg, VA 24061-0406, USA, MUHNAC, Universidade de Lisboa, , Lisboa 1250-102, Portugal, Faculty of Science, Department of Zoology, Charles University in Prague, , 128 44 Praha 2, Czech Republic.

出版信息

Proc Biol Sci. 2014 Mar 26;281(1783):20140025. doi: 10.1098/rspb.2014.0025. Print 2014 May 22.

DOI:10.1098/rspb.2014.0025

PMID:24671977

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3996611/

Abstract

The dorsolateral area of the hippocampal formation of birds is commonly assumed to play a central role in processing information needed for geographical positioning and homing. Previous work has interpreted odour-induced activity in this region as evidence for an 'olfactory map'. Here, we show, using c-Fos expression as a marker, that neuronal activation in the dorsolateral area of the hippocampal formation of pigeons is primarily a response to odour novelty, not to the spatial distribution of odour sources that would be necessary for an olfactory map. Pigeons exposed to odours had significantly more neurons activated in this area of the brain than pigeons exposed to filtered air with odours removed. This increased activity was observed only in response to unfamiliar odours. No change in activity was observed when pigeons were exposed to home odours. These findings are consistent with non-home odours activating non-olfactory components of the pigeon's navigation system. The pattern of neuronal activation in the triangular and dorsomedial areas of the hippocampal formation was, by contrast, consistent with the possibility that odours play a role in providing spatial information.

摘要

鸟类海马体的背外侧区域通常被认为在处理地理定位和归巢所需的信息方面起着核心作用。先前的工作将该区域的气味诱导活动解释为“嗅觉地图”的证据。在这里，我们使用 c-Fos 表达作为标记表明，鸽子海马体背外侧区域的神经元激活主要是对气味新奇性的反应，而不是对气味源空间分布的反应，而这种空间分布对于嗅觉地图是必要的。与暴露于去除气味的过滤空气中的鸽子相比，暴露于气味中的鸽子的大脑这一区域的激活神经元数量明显更多。这种活性增加仅在对不熟悉的气味作出反应时才观察到。当鸽子暴露于其熟悉的气味时，没有观察到活性变化。这些发现与非熟悉气味激活鸽子导航系统的非嗅觉成分的说法一致。相比之下，海马体的三角区和背内侧区的神经元激活模式与气味在提供空间信息方面发挥作用的可能性一致。

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