Visualizing NO2-/NAD(P)H metabolic crosstalk in E. coli-infected bladder cancer via a dual-responsive probe

Jiayun  Guan; Xusheng  Jiang; Yilin Lv; Yajin  Xue; Jingyi  Zhang; Haiwei Ji; Guo Li; Xiaobo Zhou; Minfeng Yang; Qi Wang

doi:10.1039/D6CC02834A

Visualizing NO2-/NAD(P)H metabolic crosstalk in E. coli-infected bladder cancer via a dual-responsive probe

Jiayun Guan, Xusheng Jiang, Yilin Lv, Yajin Xue, Jingyi Zhang, Haiwei Ji, Guo Li, Xiaobo Zhou, Minfeng Yang and Qi Wang

Abstract

A dual-responsive fluorescent probe was developed for real-time monitoring of NO2- and NAD(P)H dynamics. Imaging reveals an E. coli-driven metabolic feedforward loop in bladder cancer, whereby bacteria-derived NO2- upregulates host NAD(P)H, hyperactivating glycolysis and accelerating tumor proliferation.

Chemical Communications

Visualizing NO2-/NAD(P)H metabolic crosstalk in E. coli-infected bladder cancer via a dual-responsive probe

Abstract

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Visualizing NO2-/NAD(P)H metabolic crosstalk in E. coli-infected bladder cancer via a dual-responsive probe

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