A near-infrared fluorescent probe for detecting hydrogen sulfide with high selectivity in cells and ulcerative colitis in mice

Qin, Chong-Kang; Yan, Ling; Wang, Zhi-Qing; Yu, Guo; Mao, Guo-Jiang; Xu, Fen; Li, Chun-Yan

doi:10.1039/d3an01442h

Cited by 2 publications

(3 citation statements)

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“…24−28 Although ClO − is one of the vital biomarkers of IBD, fluorescent probes designed to monitor the dynamic ClO − in IBD have been rarely reported so far. 29 To date, a series of fluorescent probes activated by hydrogen sulfide (H 2 S), 30 nitric oxide (NO), 31,32 nitroreductase, 33,34 and intestinal alkaline phosphatase 35 shown that intestinal damage in patients with IBD will lead to the enrichment of inflammatory cells such as macrophages and neutrophils in the intestine, which are involved in regulating the immune response. 36−41 During this process, a large amount of hypochloric acid (HClO) would be produced under the catalysis of myeloperoxidase (MPO) in macrophages and neutrophils, accompanied by high levels of fecal calprotectin and HClO observed in the stool.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Hypochlorite (ClO – ), as one of the most important reactive oxygen species (ROS), − can induce mucosal damage, exacerbate inflammatory responses, and accelerate mucosal ulcers in the progress of IBD. − Although ClO – is one of the vital biomarkers of IBD, fluorescent probes designed to monitor the dynamic ClO – in IBD have been rarely reported so far . To date, a series of fluorescent probes activated by hydrogen sulfide (H 2 S), nitric oxide (NO), , nitroreductase, , and intestinal alkaline phosphatase has been developed for the detection of IBD. Despite great progress being made, most of these fluorescent probes suffer from low sensitivity, slow response time, and poor uptake by inflammatory cells.…”

Section: Introductionmentioning

confidence: 99%

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Fast-Responsive HClO-Activated Near-Infrared Fluorescent Probe for In Vivo Diagnosis of Inflammatory Bowel Disease and Ex Vivo Optical Fecal Analysis

Yang,

Tian,

Zheng

et al. 2024

Anal. Chem.

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Inflammatory bowel disease (IBD) is an idiopathic intestinal inflammatory disease, whose etiology is intimately related to the overproduction of hypochlorous acid (HClO). Optical monitoring of HClO in the living body favors real-time diagnosis of inflammatory diseases. However, HClO-activated near-infrared (NIR) fluorescent probes with rapid response and high inflammatory cell uptake are still lacking. Herein, we report an activatable acceptor−π−acceptor (A−π−A)-type NIR fluorescent probe (Cy-DM) bearing two D-mannosamine groups for the sensitive detection of HClO in early IBD and stool testing. Once reacted with HClO, nonfluorescent Cy-DM could be turned on within 2 s by generating a donor−π−acceptor (D−π−A) structure due to the enhanced intramolecular charge transfer mechanism, showing intense NIR fluorescence emission at 700 nm and a large Stokes shift of 115 nm. Moreover, it was able to sensitively and selectively image exogenous and endogenous HClO in the lysosomes of living cells with a detection limit of 0.84 μM. More importantly, because of the D-mannosamine modification, Cy-DM was efficiently taken up by inflammatory cells in the intestine after intravenous administration, allowing noninvasive visualization of endogenous HClO in a lipopolysaccharide-induced IBD mouse model with a high fluorescence contrast of 6.8/1. In addition, water-soluble Cy-DM has also been successfully applied in ex vivo optical fecal analysis, exhibiting a 3.4-fold higher fluorescence intensity in the feces excreted by IBD mice. We believe that Cy-DM is promising as an invaluable tool for rapid diagnosis of HClO-related diseases as well as stool testing.

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Section: ■ Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Fast-Responsive HClO-Activated Near-Infrared Fluorescent Probe for In Vivo Diagnosis of Inflammatory Bowel Disease and Ex Vivo Optical Fecal Analysis

Yang,

Tian,

Zheng

et al. 2024

Anal. Chem.

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“…Further applications of this probe were used to monitor endogenous upregulation of H 2 S in mouse lungs following LPS injection in models of acute lung injury. Using a similar construct, Li reported 351 (IX-H 2 S), which provided a response at 770 nm with good selectivity over competing ions, metals, amino acids, and thiols 384. This probe was further used to image exogenous and endogenous H 2 S in HCT116 cells, exogenous H 2 S in nude mice, and differences in H 2 S generation in the colon of mouse models of ulcerative colitis.Also in 2014, Xu and Xu reported the doubly protected fluorescein derivative 352, which showed excellent selectivity for H 2 S over Cys, Hcy, NAC, and GSH and was used to image exogenous H 2 S in HeLa cells (Figure…”

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confidence: 99%

Activity-Based Fluorescent Probes for Hydrogen Sulfide and Related Reactive Sulfur Species

Fosnacht,

Pluth

2024

Chem. Rev.

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Hydrogen sulfide (H 2 S) is not only a well-established toxic gas but also an important small molecule bioregulator in all kingdoms of life. In contemporary biology, H 2 S is often classified as a "gasotransmitter," meaning that it is an endogenously produced membrane permeable gas that carries out essential cellular processes. Fluorescent probes for H 2 S and related reactive sulfur species (RSS) detection provide an important cornerstone for investigating the multifaceted roles of these important small molecules in complex biological systems. A now common approach to develop such tools is to develop "activitybased probes" that couple a specific H 2 S-mediated chemical reaction to a fluorescent output. This Review covers the different types of such probes and also highlights the chemical mechanisms by which each probe type is activated by specific RSS. Common examples include reduction of oxidized nitrogen motifs, disulfide exchange, electrophilic reactions, metal precipitation, and metal coordination. In addition, we also outline complementary activity-based probes for imaging reductant-labile and sulfane sulfur species, including persulfides and polysulfides. For probes highlighted in this Review, we focus on small molecule systems with demonstrated compatibility in cellular systems or related applications. Building from breadth of reported activity-based strategies and application, we also highlight key unmet challenges and future opportunities for advancing activity-based probes for H 2 S and related RSS.

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A near-infrared fluorescent probe for detecting hydrogen sulfide with high selectivity in cells and ulcerative colitis in mice

Abstract: Although hydrogen sulfide (H2S) is a well-known toxic gas, its vital role as a gas transmitter in various physiological and pathological processes of living systems cannot be ignored. The relevant...

Cited by 2 publications

References 41 publications

Fast-Responsive HClO-Activated Near-Infrared Fluorescent Probe for In Vivo Diagnosis of Inflammatory Bowel Disease and Ex Vivo Optical Fecal Analysis

Fast-Responsive HClO-Activated Near-Infrared Fluorescent Probe for In Vivo Diagnosis of Inflammatory Bowel Disease and Ex Vivo Optical Fecal Analysis

Activity-Based Fluorescent Probes for Hydrogen Sulfide and Related Reactive Sulfur Species

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