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突触后气味浓度依赖性抑制控制鳞翅目触角叶投射神经元的尖峰反应的时间特性。

Postsynaptic odorant concentration dependent inhibition controls temporal properties of spike responses of projection neurons in the moth antennal lobe.

机构信息

Graduate School of Information Science and Technology, The University of Tokyo, Tokyo, Japan.

Research Center for Advanced Science and Technology, The University of Tokyo, Tokyo, Japan.

出版信息

PLoS One. 2014 Feb 19;9(2):e89132. doi: 10.1371/journal.pone.0089132. eCollection 2014.

Abstract

Although odorant concentration-response characteristics of olfactory neurons have been widely investigated in a variety of animal species, the effect of odorant concentration on neural processing at circuit level is still poorly understood. Using calcium imaging in the silkmoth (Bombyx mori) pheromone processing circuit of the antennal lobe (AL), we studied the effect of odorant concentration on second-order projection neuron (PN) responses. While PN calcium responses of dendrites showed monotonic increases with odorant concentration, calcium responses of somata showed decreased responses at higher odorant concentrations due to postsynaptic inhibition. Simultaneous calcium imaging and electrophysiology revealed that calcium responses of PN somata but not dendrites reflect spiking activity. Inhibition shortened spike response duration rather than decreasing peak instantaneous spike frequency (ISF). Local interneurons (LNs) that were specifically activated at high odorant concentrations at which PN responses were suppressed are the putative source of inhibition. Our results imply the existence of an intraglomerular mechanism that preserves time resolution in olfactory processing over a wide odorant concentration range.

摘要

尽管在多种动物物种中广泛研究了嗅觉神经元的气味浓度反应特性,但气味浓度对电路水平神经处理的影响仍知之甚少。使用钙成像技术在蚕(Bombyx mori)触角叶(AL)的信息素处理电路中,我们研究了气味浓度对二级投射神经元(PN)反应的影响。虽然 PN 树突的钙反应随气味浓度呈单调增加,但由于突触后抑制,PN 体的钙反应在较高的气味浓度下显示出反应降低。同时进行钙成像和电生理学研究揭示,PN 体而非树突的钙反应反映了尖峰活动。抑制缩短了尖峰反应持续时间,而不是降低了瞬时尖峰频率(ISF)。在 PN 反应受到抑制的高气味浓度下被特异性激活的局部中间神经元(LN)是抑制的潜在来源。我们的结果表明,在广泛的气味浓度范围内,存在一种球内机制,可在嗅觉处理中保持时间分辨率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0515/3929629/b0a3a23442d8/pone.0089132.g001.jpg

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