钙激活氯离子通道钳制嗅觉受体神经元中气味诱发的尖峰活动。

Calcium-activated chloride channels clamp odor-evoked spike activity in olfactory receptor neurons.

机构信息

Department of Molecular and Cellular Biology & Center for Brain Science, Harvard University, 16 Divinity Ave, Cambridge, MA, 02138, USA.

Molecules, Cells & Organisms Program, Harvard University, Cambridge, 02138, MA, USA.

出版信息

Sci Rep. 2018 Jul 13;8(1):10600. doi: 10.1038/s41598-018-28855-3.

DOI:10.1038/s41598-018-28855-3

PMID:30006552

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6045664/

Abstract

The calcium-activated chloride channel anoctamin-2 (Ano2) is thought to amplify transduction currents in olfactory receptor neurons (ORNs), a hypothesis supported by previous studies in dissociated neurons from Ano2 mice. Paradoxically, despite a reduction in transduction currents in Ano2 ORNs, their spike output for odor stimuli may be higher. We examined the role of Ano2 in ORNs in their native environment in freely breathing mice by imaging activity in ORN axons as they arrive in the olfactory bulb glomeruli. Odor-evoked responses in ORN axons of Ano2 animals were consistently larger for a variety of odorants and concentrations. In an open arena, Ano2 animals took longer to approach a localized odor source than Ano2 animals, revealing clear olfactory behavioral deficits. Our studies provide the first in vivo evidence toward an alternative or additional role for Ano2 in the olfactory transduction cascade, where it may serve as a feedback mechanism to clamp ORN spike output.

摘要

钙激活氯离子通道蛋白 anoctamin-2（Ano2）被认为可以放大嗅觉受体神经元（ORNs）中的转导电流，这一假说得到了先前在分离的 Ano2 小鼠神经元中进行的研究的支持。矛盾的是，尽管 Ano2 ORNs 中的转导电流减少，但它们对气味刺激的锋电位输出可能更高。我们通过在自由呼吸的小鼠中对 ORN 轴突在到达嗅球小球时的活动进行成像，检查了 Ano2 在其天然环境中的 ORNs 中的作用。对于各种气味剂和浓度，Ano2 动物的 ORN 轴突诱发反应始终更大。在开放的竞技场中，Ano2 动物比 Ano2 动物需要更长的时间才能接近局部气味源，这揭示了明显的嗅觉行为缺陷。我们的研究提供了体内证据，证明 Ano2 在嗅觉转导级联中可能具有替代或额外的作用，它可能作为一种反馈机制来限制 ORN 锋电位输出。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/becb/6045664/facc9ca5a17a/41598_2018_28855_Fig1_HTML.jpg

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钙激活氯离子通道钳制嗅觉受体神经元中气味诱发的尖峰活动。

Calcium-activated chloride channels clamp odor-evoked spike activity in olfactory receptor neurons.

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