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对分离的小鼠嗅觉受体神经元进行的膜片钳研究。

Patch-clamp studies of isolated mouse olfactory receptor neurons.

作者信息

Maue R A, Dionne V E

出版信息

J Gen Physiol. 1987 Jul;90(1):95-125. doi: 10.1085/jgp.90.1.95.

DOI:10.1085/jgp.90.1.95
PMID:2442298
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2228861/
Abstract

Olfactory receptor neurons isolated from embryonic, neonatal, and adult mice were studied using the patch-clamp technique. Several distinct types of ion channels were characterized in patches of membrane from the neuronal soma and the dendritic knob of receptor neurons, including a 130-pS Ca++-activated K+ channel with voltage-dependent kinetics, an 80-pS Ca++-activated K+ channel with voltage-insensitive kinetics, a 25-pS K+ channel with properties similar to inward rectifiers, and a 40-pS K+ channel that was activated and then inactivated by rapid depolarization. Evidence of large-conductance (greater than 200 pS) Cl- channels, which were Ca++ insensitive and increasingly active at depolarizing membrane potentials, and voltage-activated Ca++ channels (16 pS) was also obtained. From K+ channel activity recorded from cell-attached patches, the intracellular [Ca++] was inferred to be below 0.1 microM, and the membrane potential was inferred to be approximately -50 mV. The receptor neurons had high input resistances, and action potentials could be elicited by picoampere amounts of depolarizing current. The receptor neurons responded to applied odorant molecules and to forskolin with increases in membrane conductance. These results provide a description of the membrane properties of olfactory receptor neurons and a basis for understanding their electrical activity and response to odorants.

摘要

利用膜片钳技术对从胚胎、新生和成年小鼠分离出的嗅觉受体神经元进行了研究。在受体神经元的胞体膜片和树突小结中鉴定出了几种不同类型的离子通道,包括一种具有电压依赖性动力学的130皮秒钙离子激活钾通道、一种具有电压不敏感动力学的80皮秒钙离子激活钾通道、一种特性类似于内向整流器的25皮秒钾通道以及一种经快速去极化激活后失活的40皮秒钾通道。还获得了大电导(大于200皮秒)氯离子通道的证据,这些通道对钙离子不敏感,在膜去极化电位时活性增加,以及电压激活钙离子通道(16皮秒)的证据。从细胞贴附膜片记录的钾通道活性推断,细胞内钙离子浓度低于0.1微摩尔,膜电位约为-50毫伏。受体神经元具有高输入电阻,皮安量级的去极化电流即可引发动作电位。受体神经元对施加的气味分子和福斯高林有反应,膜电导增加。这些结果描述了嗅觉受体神经元的膜特性,并为理解其电活动和对气味的反应提供了基础。

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