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钙激活钾通道缺乏导致的小脑共济失调和浦肯野细胞功能障碍。

Cerebellar ataxia and Purkinje cell dysfunction caused by Ca2+-activated K+ channel deficiency.

作者信息

Sausbier M, Hu H, Arntz C, Feil S, Kamm S, Adelsberger H, Sausbier U, Sailer C A, Feil R, Hofmann F, Korth M, Shipston M J, Knaus H-G, Wolfer D P, Pedroarena C M, Storm J F, Ruth P

机构信息

Pharmakologie und Toxikologie, Pharmazeutisches Institut, Universitat Tübingen, D-72076 Tuebingen, Germany.

出版信息

Proc Natl Acad Sci U S A. 2004 Jun 22;101(25):9474-8. doi: 10.1073/pnas.0401702101. Epub 2004 Jun 11.

DOI:10.1073/pnas.0401702101
PMID:15194823
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC439001/
Abstract

Malfunctions of potassium channels are increasingly implicated as causes of neurological disorders. However, the functional roles of the large-conductance voltage- and Ca(2+)-activated K(+) channel (BK channel), a unique calcium, and voltage-activated potassium channel type have remained elusive. Here we report that mice lacking BK channels (BK(-/-)) show cerebellar dysfunction in the form of abnormal conditioned eye-blink reflex, abnormal locomotion and pronounced deficiency in motor coordination, which are likely consequences of cerebellar learning deficiency. At the cellular level, the BK(-/-) mice showed a dramatic reduction in spontaneous activity of the BK(-/-) cerebellar Purkinje neurons, which generate the sole output of the cerebellar cortex and, in addition, enhanced short-term depression at the only output synapses of the cerebellar cortex, in the deep cerebellar nuclei. The impairing cellular effects caused by the lack of postsynaptic BK channels were found to be due to depolarization-induced inactivation of the action potential mechanism. These results identify previously unknown roles of potassium channels in mammalian cerebellar function and motor control. In addition, they provide a previously undescribed animal model of cerebellar ataxia.

摘要

钾通道功能障碍越来越多地被认为是神经疾病的病因。然而,大电导电压和钙激活钾通道(BK通道)作为一种独特的钙和电压激活钾通道类型,其功能作用仍然难以捉摸。在此我们报告,缺乏BK通道的小鼠(BK(-/-))表现出小脑功能障碍,表现为异常的条件性眨眼反射、异常运动和明显的运动协调缺陷,这些可能是小脑学习缺陷的后果。在细胞水平上,BK(-/-)小鼠的BK(-/-)小脑浦肯野神经元的自发活动显著降低,这些神经元产生小脑皮质的唯一输出,此外,在小脑深部核团中,小脑皮质唯一输出突触处的短期抑制增强。发现缺乏突触后BK通道所导致的细胞效应损伤是由于动作电位机制的去极化诱导失活。这些结果揭示了钾通道在哺乳动物小脑功能和运动控制中以前未知的作用。此外,它们提供了一种以前未描述的小脑共济失调动物模型。

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