通过活细胞中的单细胞荧光比率成像分析(FRIA)监测囊性纤维化跨膜传导调节因子(CFTR)变体的内吞分选。
Endocytic sorting of CFTR variants monitored by single-cell fluorescence ratiometric image analysis (FRIA) in living cells.
作者信息
Barrière Herve, Apaja Pirjo, Okiyoneda Tsukasa, Lukacs Gergely L
机构信息
Department of Physiology, McGill University, H3E 1Y6, Montréal, QC, Canada.
出版信息
Methods Mol Biol. 2011;741:301-17. doi: 10.1007/978-1-61779-117-8_20.
Abstract
The wild-type CFTR channel undergoes constitutive internalization and recycling at the plasma membrane. This process is initiated by the recognition of the Tyr- and di-Leu-based endocytic motifs of CFTR by the AP-2 adaptor complex, leading to the formation of clathrin-coated vesicles and the channel delivery to sorting/recycling endosomes. Accumulating evidence suggests that conformationally defective mutant CFTRs (e.g. rescued F508del and glycosylation-deficient channel) are unstable at the plasma membrane and undergo augmented ubiquitination in post-Golgi compartments. Ubiquitination conceivably accounts for the metabolic instability at cell surface by provoking accelerated internalization, as well as rerouting the channel from recycling towards lysosomal degradation. We developed an in vivo fluorescence ratiometric image analysis (FRIA) that in concert with genetic manipulation can be utilized to establish the post-endocytic fate and sorting determinants of mutant CFTRs.
摘要
野生型囊性纤维化跨膜传导调节因子(CFTR)通道在质膜上进行组成型内化和再循环。这一过程由AP-2衔接复合体识别CFTR基于酪氨酸和双亮氨酸的内吞基序启动,导致网格蛋白包被小泡的形成以及通道被转运至分选/再循环内体。越来越多的证据表明,构象缺陷的突变型CFTR(如挽救型F508del和糖基化缺陷通道)在质膜上不稳定,并在高尔基体后区室中经历增强的泛素化。泛素化可能通过引发加速内化以及将通道从再循环重新导向溶酶体降解来解释其在细胞表面的代谢不稳定性。我们开发了一种体内荧光比率图像分析(FRIA)方法,该方法与基因操作相结合,可用于确定突变型CFTR的内吞后命运和分选决定因素。
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