TRIP8b 剪接异构体协同调节 CA1 锥体神经元中 HCN1 通道的定位和表达。
TRIP8b splice forms act in concert to regulate the localization and expression of HCN1 channels in CA1 pyramidal neurons.
机构信息
Department of Neuroscience, Columbia University, New York, NY 10032, USA.
出版信息
Neuron. 2011 May 12;70(3):495-509. doi: 10.1016/j.neuron.2011.03.023.
Abstract
HCN1 channel subunits, which contribute to the hyperpolarization-activated cation current (Ih), are selectively targeted to distal apical dendrites of hippocampal CA1 pyramidal neurons. Here, we addressed the importance of the brain-specific auxiliary subunit of HCN1, TRIP8b, in regulating HCN1 expression and localization. More than ten N-terminal splice variants of TRIP8b exist in brain and exert distinct effects on HCN1 trafficking when overexpressed. We found that isoform-wide disruption of the TRIP8b/HCN1 interaction caused HCN1 to be mistargeted throughout CA1 somatodendritic compartments. In contrast, HCN1 was targeted normally to CA1 distal dendrites in a TRIP8b knockout mouse that selectively lacked exons 1b and 2. Of the two remaining hippocampal TRIP8b isoforms, TRIP8b(1a-4) promoted HCN1 surface expression in dendrites, whereas TRIP8b(1a) suppressed HCN1 misexpression in axons. Thus, proper subcellular localization of HCN1 depends on its differential additive and subtractive sculpting by two isoforms of a single auxiliary subunit.
摘要
HCN1 通道亚基有助于超极化激活阳离子电流 (Ih),它们选择性地靶向海马 CA1 锥体神经元的远端顶树突。在这里,我们研究了 HCN1 的脑特异性辅助亚基 TRIP8b 在调节 HCN1 表达和定位中的重要性。TRIP8b 在脑中存在十多种 N 端剪接变体,当过表达时,对 HCN1 运输有不同的影响。我们发现,TRIP8b/HCN1 相互作用的广泛破坏导致 HCN1 在 CA1 体树突区错位。相比之下,在选择性缺乏外显子 1b 和 2 的 TRIP8b 敲除小鼠中,HCN1 正常靶向 CA1 远端树突。在两种剩余的海马 TRIP8b 异构体中,TRIP8b(1a-4)促进 HCN1 在树突中的表面表达,而 TRIP8b(1a)抑制 HCN1 在轴突中的错误表达。因此,HCN1 的适当亚细胞定位取决于其由单个辅助亚基的两种异构体进行的差异加性和减性塑造。
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