Monitoring cell membrane recycling dynamics of proteins using whole-cell fluorescence recovery after photobleaching of pH-sensitive genetic tags

光漂白 光漂白后的荧光恢复 活体细胞成像 细胞膜 细胞 生物物理学 人口 遗传筛选 细胞生物学 胞浆 生物 荧光 化学 生物化学 突变体 基因 物理 社会学 人口学 量子力学
作者
Piotr Michaluk,Dmitri A. Rusakov
出处
期刊:Nature Protocols [Nature Portfolio]
卷期号:17 (12): 3056-3079 被引量:8
标识
DOI:10.1038/s41596-022-00732-4
摘要

Population behavior of signaling molecules on the cell surface is key to their adaptive function. Live imaging of proteins tagged with fluorescent molecules has been an essential tool in understanding this behavior. Typically, genetic or chemical tags are used to target molecules present throughout the cell, whereas antibody-based tags label the externally exposed molecular domains only. Both approaches could potentially overlook the intricate process of in–out membrane recycling in which target molecules appear or disappear on the cell surface. This limitation is overcome by using a pH-sensitive fluorescent tag, such as Super-Ecliptic pHluorin (SEP), because its emission depends on whether it resides inside or outside the cell. Here we focus on the main glial glutamate transporter GLT1 and describe a genetic design that equips GLT1 molecules with SEP without interfering with the transporter’s main function. Expressing GLT1-SEP in astroglia in cultures or in hippocampal slices enables monitoring of the real-time dynamics of the cell-surface and cytosolic fractions of the transporter in living cells. Whole-cell fluorescence recovery after photobleaching and quantitative image-kinetic analysis of the resulting time-lapse images enables assessment of the rate of GLT1-SEP recycling on the cell surface, a fundamental trafficking parameter unattainable previously. The present protocol takes 15–20 d to set up cell preparations, and 2–3 d to carry out live cell experiments and data analyses. The protocol can be adapted to study different membrane molecules of interest, particularly those proteins whose lifetime on the cell surface is critical to their adaptive function. The cell membrane turnover kinetics of the main glial glutamate transporter GLT1 are quantified by fusing it to a pH-sensitive fluorescent protein and performing measurements using whole-cell fluorescence recovery after photobleaching.
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