共济失调与小脑功能障碍:突触可塑性缺陷的影响?
Ataxias and cerebellar dysfunction: involvement of synaptic plasticity deficits?
作者信息
Rinaldo L, Hansel C
机构信息
Department of Neurobiology, University of Chicago, Chicago, IL, USA.
出版信息
Funct Neurol. 2010 Jul-Sep;25(3):135-9.
Abstract
Adaptive processes within cerebellar circuits, such as long-term depression and long-term potentiation at parallel fiber-Purkinje cell synapses, have long been seen as important to cerebellar motor learning, and yet little attention has been given to any possible significance of these processes for cerebellar dysfunction and disease. Several forms of ataxia are caused by mutations in genes encoding for ion channels located at key junctures in pathways that lead to the induction of synaptic plasticity, suggesting that there might be an association between deficits in plasticity and the ataxic phenotype. Herein we explore this possibility and examine the available evidence linking the two together, highlighting specifically the role of P/Q-type calcium channels and their downstream effector small-conductance calcium-sensitive (SK2) potassium channels in the regulation of synaptic gain and intrinsic excitability, and reviewing their connections to ataxia.
摘要
小脑回路中的适应性过程,如平行纤维-浦肯野细胞突触处的长时程抑制和长时程增强,长期以来一直被视为对小脑运动学习很重要,然而这些过程对小脑功能障碍和疾病的任何可能意义却很少受到关注。几种形式的共济失调是由位于导致突触可塑性诱导的关键通路中的离子通道编码基因突变引起的,这表明可塑性缺陷与共济失调表型之间可能存在关联。在此,我们探讨这种可能性,并审视将两者联系在一起的现有证据,特别强调P/Q型钙通道及其下游效应器小电导钙敏感(SK2)钾通道在调节突触增益和内在兴奋性中的作用,并回顾它们与共济失调的联系。
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