Development of a fluorescent chemical probe with the ability to visualize nascent phase-separated stress granules

Stress granules (SGs) are a fascinating type of membrane-less organelle that form through liquid-liquid phase separation in eukaryotic cells. Our previous investigations have been instrumental in the development of the first small-molecule fluorescent probe, named TASG, which can selectively identify SGs. However, the practical utility of TASG for monitoring SG dynamics in live cells has been hindered by the difficulty in visualizing small nascent SGs. To overcome this obstacle, the present study systematically modified the structure of TASG, with the aim of discovering fluorescent chemical probes that exhibit superior performance. Among the evaluated candidates, TASG-8 exhibited the most promising ability to image SGs. Importantly, TASG-8 possessed a critical advantage over TASG, in that it could effectively label small nascent SGs. The structure-activity relationship of the candidates was analyzed. Additionally, the underlying mechanism responsible for this enhancement was extensively explored. Collectively, our research presents a rational strategy for the development of innovative fluorescent probes that selectively target SGs, and introduces a powerful new tool, TASG-8, which has the potential to facilitate more comprehensive and efficient investigations into the functions of SGs in cells.