A Dual Functional Electroactive and Fluorescent Probe for Coupled Measurements of Vesicular Exocytosis with High Spatial and Temporal Resolution

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• 作者：Xiaoqing Liu ; Alexandra Savy ; Sylvie Maurin ; Laurence Grimaud ; Franç ; ois Darchen ; Damien Quinton ; Eric Labbé ; Olivier Buriez ; Jé ; rô ; me Delacotte ; Fré ; dé ; ric Lemaî ; tre and Manon Guille-Collignon
• 刊名：Angewandte Chemie International Edition
• 出版年：2017
• 出版时间：February 20, 2017
• 年：2017
• 卷：56
• 期：9
• 页码：2366-2370
• 全文大小：2052K
• ISSN：1521-3773

文摘

In this work, Fluorescent False Neurotransmitter 102 (FFN102), a synthesized analogue of biogenic neurotransmitters, was demonstrated to show both pH-dependent fluorescence and electroactivity. To study secretory behaviors at the single-vesicle level, FFN102 was employed as a new fluorescent/electroactive dual probe in a coupled technique (amperometry and total internal reflection fluorescence microscopy (TIRFM)). We used N13 cells, a stable clone of BON cells, to specifically accumulate FFN102 into their secretory vesicles, and then optical and electrochemical measurements of vesicular exocytosis were experimentally achieved by using indium tin oxide (ITO) transparent electrodes. Upon stimulation, FFN102 started to diffuse out from the acidic intravesicular microenvironment to the neutral extracellular space, leading to fluorescent emissions and to the electrochemical oxidation signals that were simultaneously collected from the ITO electrode surface. The correlation of fluorescence and amperometric signals resulting from the FFN102 probe allows real-time monitoring of single exocytotic events with both high spatial and temporal resolution. This work opens new possibilities in the investigation of exocytotic mechanisms.