Huan‐Hua Lai scite author profile

Organic dye based NIR‐II fluorescent probes, owing to their high signal‐to‐background ratio and deeper penetration, are highly useful for deep‐tissue high‐contrast imaging in vivo. However, it is still a challenge to design activatable NIR‐II fluorescent probes. Here, a novel class of polymethine dyes (NIRII‐RTs), with bright (quantum yield up to 2.03 %), stable, and anti‐solvent quenching NIR‐II emission, together with large Stokes shifts, was designed. Significantly, the novel NIR‐II dyes NIRII‐RT3 and NIRII‐RT4, equipped with a carboxylic acid group, can serve as effective NIR‐II platforms for the design of activatable bioimaging probes with high contrast. As a proof of concept, a series of target‐activatable NIRII‐RT probes (NIRII‐RT‐pH, NIRII‐RT‐ATP and NIRII‐RT‐Hg) for pH, adenosine triphosphate (ATP), and metal‐ion detection, were synthesized. By applying the NIRII‐RT probe, the real‐time monitoring of drug‐induced hepatotoxicity was realized.

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Chromophore‐Modified Highly Selective Ratiometric Upconversion Nanoprobes for Detection of ONOO⁻‐Related Hepatotoxicity In Vivo

Liu

Lai

Peng

et al. 2019

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Acute hepatitis is a major problem affecting public health and has attracted more and more attention. Generally, as the standard means, blood tests are taken for evaluating hepatitis. However, such tests fail to accurately reflect the level of hepatitis in vivo. Herein, two highly selective ratiometric fluorescent probes are designed to track peroxynitrite (ONOO−) as the hepatitis indicator, and further evaluate acute liver injury in vivo through dye‐grafted upconversion nanoparticles (UCNPs). Specifically, upconversion luminescence of nanoprobes at 540 or 660 nm can be quenched by the designed and synthesized chromophore E‐CC or H‐CC, that can be destroyed by ONOO− via energy transfer (ET) process, while the upconversion luminescence intensity at 810 nm remains the same. Thus, the developed nanoprobes can be used for ratiometric detection (I540/I660 or I660/I810) of ONOO−. Moreover, the developed near infrared ratiometric nanoprobes can highly selectively detect ONOO−, which can eliminate the interference of HOCl and SO32−. Finally, it is demonstrated that this highly selective ratiometric nanosystem can achieve effective detection of ONOO− in living cells and CCl4‐induced acute liver injury models. It provides some reference value for clinical detection of hepatotoxicity.

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Engineering a highly selective probe for ratiometric imaging of H₂S_n and revealing its signaling pathway in fatty liver disease

Wang

Yin

et al. 2020

Chem. Sci.

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A General Strategy for Development of Activatable NIR‐II Fluorescent Probes for In Vivo High‐Contrast Bioimaging

et al. 2020

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Huan‐Hua Lai

A General Strategy for Development of Activatable NIR‐II Fluorescent Probes for In Vivo High‐Contrast Bioimaging

Chromophore‐Modified Highly Selective Ratiometric Upconversion Nanoprobes for Detection of ONOO⁻‐Related Hepatotoxicity In Vivo

Engineering a highly selective probe for ratiometric imaging of H₂S_n and revealing its signaling pathway in fatty liver disease

A General Strategy for Development of Activatable NIR‐II Fluorescent Probes for In Vivo High‐Contrast Bioimaging

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Huan‐Hua Lai

A General Strategy for Development of Activatable NIR‐II Fluorescent Probes for In Vivo High‐Contrast Bioimaging

Chromophore‐Modified Highly Selective Ratiometric Upconversion Nanoprobes for Detection of ONOO−‐Related Hepatotoxicity In Vivo

Engineering a highly selective probe for ratiometric imaging of H2Sn and revealing its signaling pathway in fatty liver disease

A General Strategy for Development of Activatable NIR‐II Fluorescent Probes for In Vivo High‐Contrast Bioimaging

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Chromophore‐Modified Highly Selective Ratiometric Upconversion Nanoprobes for Detection of ONOO⁻‐Related Hepatotoxicity In Vivo

Engineering a highly selective probe for ratiometric imaging of H₂S_n and revealing its signaling pathway in fatty liver disease