缺乏NKCC1的小鼠嗅上皮中的神经元氯离子蓄积

Neuronal chloride accumulation in olfactory epithelium of mice lacking NKCC1.

作者信息

Nickell William T, Kleene Nancy K, Gesteland Robert C, Kleene Steven J

机构信息

Dept. of Cell Biology, Neurobiology, and Anatomy, Univ. of Cincinnati, PO Box 670667, Cincinnati, OH 45267-0667, USA.

出版信息

J Neurophysiol. 2006 Mar;95(3):2003-6. doi: 10.1152/jn.00962.2005. Epub 2005 Nov 30.

DOI:10.1152/jn.00962.2005

PMID:16319203

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1379662/

Abstract

When stimulated with odorants, olfactory receptor neurons (ORNs) produce a depolarizing receptor current. In isolated ORNs, much of this current is caused by an efflux of Cl-. This implies that the neurons have one or more mechanisms for accumulating cytoplasmic Cl- at rest. Whether odors activate an efflux of Cl- in intact olfactory epithelium, where the ionic environment is poorly characterized, has not been previously determined. In mouse olfactory epithelium, we found that >80% of the summated electrical response to odors is blocked by niflumic acid or flufenamic acid, each of which inhibits Ca2+-activated Cl- channels in ORNs. This indicates that ORNs accumulate Cl- in situ. Recent evidence has shown that NKCC1, a Na+-K+-2Cl- cotransporter, contributes to Cl- accumulation in mammalian ORNs. However, we find that the epithelial response to odors is only reduced by 39% in mice carrying a null mutation in Nkcc1. As in the wild-type, most of the response is blocked by niflumic acid or flufenamic acid, indicating that the underlying current is carried by Cl-. We conclude that ORNs effectively accumulate Cl- in situ even in the absence of NKCC1. The Cl- -transport mechanism underlying this accumulation has not yet been identified.

摘要

当受到气味剂刺激时，嗅觉受体神经元（ORN）会产生去极化的受体电流。在分离的ORN中，这种电流大部分是由Cl-外流引起的。这意味着神经元具有一种或多种在静息状态下积累细胞质Cl-的机制。此前尚未确定在离子环境特征不明的完整嗅觉上皮中，气味是否会激活Cl-外流。在小鼠嗅觉上皮中，我们发现对气味的总和电反应中超过80%被尼氟灭酸或氟芬那酸阻断，这两种药物均可抑制ORN中的Ca2+激活的Cl-通道。这表明ORN在原位积累Cl-。最近的证据表明，Na+-K+-2Cl-共转运体NKCC1有助于哺乳动物ORN中Cl-的积累。然而，我们发现Nkcc1基因发生无效突变的小鼠中，上皮对气味的反应仅降低了39%。与野生型一样，大部分反应被尼氟灭酸或氟芬那酸阻断，表明基础电流是由Cl-携带的。我们得出结论，即使在没有NKCC1的情况下，ORN也能在原位有效积累Cl-。这种积累背后的Cl-转运机制尚未确定。

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