A dye-andrographolide assembly as a turn-on sensor for detection of phthalate in both cells and fish.

Phthalates can penetrate the environment and enrich various aquatic organisms through the food chain, which is involved in promoting the growth of breast cancer. It is of current interest to develop new sensors for phthalates. We herein reported a hydrogen-bond competing fluorescent sensor, BANP, for the detection of dibutyl phthalate (DBP). The BANP compound was synthesized by assembling andrographolide (Andro), nitro- and cyano-substituted BODIPY dye (BCN), and polyethylene glycol derivatives (DSPE-mPEG5000). BANP was found to be a turn-on fluorescent probe for DBP in water with a detection limit of 0.13 μg/g; the DBP-water system acts as a hydrogen bond switch to turn on the fluorescence. And BANP fluorescently detected DBP in contaminated fish meat. Moreover, BANP sensed the DBP-induced growth of human breast cancer MCF-7 cells, and the release of Andro in the DBP-cultivated cancer cells inhibited the proliferation of the MCF-7 cells. Taken together, BANP is a DBP-responsive probe for sensitive DBP detection in water, cells, and fish meats. The BANP sensor may be used in both in vitro fluorescence and cellular imaging analyses. Our results show that guest-induced reassembly brings forth significant fluorescence change, which is a promising way of designing new fluorescent probes for the analysis of phthalates in the environment and food.