Jacob P. Lombardi, David A. Kinzlmaier, Tija C. Jacob
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Abstract
It is increasingly evident that neurotransmitter receptors, including ionotropic GABA A receptors (GABAARs), exhibit highly dynamic trafficking and cell surface mobility. Regulated trafficking to and from the surface is a critical determinant of GABAAR neurotransmission. Receptors delivered by exocytosis diffuse laterally in the plasma membrane, with tethering and reduced movement at synapses occurring through receptor interactions with the subsynaptic scaffold. After diffusion away from synapses, receptors are internalized by clathrin-dependent endocytosis at extrasynaptic sites and can be either recycled back to the cell membrane or degraded in lysosomes. To study the dynamics of these key trafficking events in neurons, we have developed novel optical methods based around receptors containing a dual-tagged γ2 subunit (γ2pHFAP) in combination with fluorogen dyes. Specifically, the GABAAR γ2 subunit is tagged with a pH-sensitive green fluorescent protein and a fluorogen-activating peptide (FAP). The FAP allows receptor labeling with fluorogen dyes that are optically silent until bound to the FAP. Combining FAP and fluorescent imaging with organelle labeling allows novel and accurate measurement of receptor turnover and accumulation into intracellular compartments under basal conditions in scenarios ranging from in vitro seizure models to drug exposure paradigms. Here we provide a protocol to track and quantify receptors in transit from the neuronal surface to endosomes and lysosomes. This protocol is readily applicable to cell lines and primary cells, allowing rapid quantitative measurements of receptor surface levels and postendocytic trafficking decisions. © 2020 by John Wiley & Sons, Inc.
Basic Protocol 1 : Preparation of cortical neuronal cultures for imaging assays
Basic Protocol 2 : Surface receptor internalization and trafficking to early endosomes
Basic Protocol 3 : Measurement of receptor steady state surface level, synaptic level, and lysosomal targeting
用荧光蛋白标记可视化GABA A受体运输动态
越来越明显的是,神经递质受体,包括嗜离子性gabaa受体(GABAARs),表现出高度动态的运输和细胞表面移动。受管制的进出地表的贩运是GABAAR神经传递的关键决定因素。胞吐作用传递的受体在质膜中向外侧扩散,通过受体与突触亚支架的相互作用,突触的栓系和运动减少。从突触扩散出去后,受体通过胞丝蛋白依赖的胞吞作用内化在胞丝胞外位点,并可循环回到细胞膜或在溶酶体中降解。为了研究神经元中这些关键运输事件的动力学,我们开发了基于含有双标记γ2亚基(γ2pHFAP)的受体与氟染料结合的新型光学方法。具体来说,GABAAR γ - 2亚基被一个ph敏感的绿色荧光蛋白和一个氟激活肽(FAP)标记。FAP允许用荧光染料标记受体,荧光染料在与FAP结合之前在光学上是沉默的。将FAP和荧光成像与细胞器标记相结合,可以在从体外癫痫模型到药物暴露范式的基本条件下,对细胞内受体的周转和积累进行新颖而准确的测量。在这里,我们提供了一种方案来跟踪和量化从神经元表面转运到核内体和溶酶体的受体。该方案很容易适用于细胞系和原代细胞,允许快速定量测量受体表面水平和内吞后运输决策。©2020 by John Wiley &基本方案1:为成像检测准备皮质神经元培养;基本方案2:表面受体内化和早期内核体的运输;基本方案3:受体稳态、表面水平、突触水平和溶酶体靶向的测量
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