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A near infrared BODIPY-based lysosome targeting probe for selectively detection of carboxylesterase 1 in living cells pretreated with pesticides

A near infrared BODIPY-based lysosome targeting probe for selectively detection of carboxylesterase 1 in living cells pretreated with pesticides. [Display omitted] •A novel near-infrared probe MPBOD was designed and synthesized based on BODIPY fluorophore.•Probe MPBOD with lysosome labeling ability...

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Published in:Sensors and actuators. B, Chemical Chemical, 2020-12, Vol.325, p.128798, Article 128798
Main Authors: Ma, Chenggong, Wu, Jichun, Sun, Wen, Hou, Yadan, Zhong, Guoyan, Gao, Rui, Shen, Baoxing, Huang, He
Format: Article
Language:English
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Summary:A near infrared BODIPY-based lysosome targeting probe for selectively detection of carboxylesterase 1 in living cells pretreated with pesticides. [Display omitted] •A novel near-infrared probe MPBOD was designed and synthesized based on BODIPY fluorophore.•Probe MPBOD with lysosome labeling ability and can be used for cell imaging.•MPBOD was successfully applied to the quantitative detection of endogenous and exogenous carboxylesterase 1.•MPBOD has been successfully used as an effective tool in pesticide residue detection. A novel near-infrared BODIPY-based fluorescent probe MPBOD was designed and synthesized. MPBOD can be used to minitor carboxylesterase1 (CES1) activities in living cells. MPBOD has high selectivity to CES1 and its detection mechanism is based on the spontaneous hydrolysis of carboxylate bonds catalyzed by (CES1). Compared with the only few reported CES1 probes, MPBOD showed high sensitivity, low background interference, low cytotoxicity and good biocompatibility. Additionally, MPBOD was successfully applied to detect carbamates pesticide (carbaryl) as well as monitor the real activities of CES1 in lysosome of HepG2 cells. This type of probe can be a promising tool to visualize many pathological processes because CES1 is involved in the biotransformation of drugs and poisons with ester groups.
ISSN:0925-4005
1873-3077
DOI:10.1016/j.snb.2020.128798