Qingrong Qi scite author profile

Mitochondria are recognized as the ideal target for cancer treatment because they play a central role in oxidative metabolism and apoptosis. In this work, a mitochondria‐targeted near‐infrared (NIR) photosensitizer (PS) for synchronous cancer photodynamic therapy (PDT) and photothermal therapy (PTT) is synthesized. This multifunctional small‐molecule PS is developed from a variety of synthesized heptamethine cyanine dyes, which are modified with various N‐alkyl side chains on the lipophilic cationic heptamethine core. It is demonstrated to preferentially accumulate in cancer cells by organic‐anion transporting polypeptide mediated active transport and retain in mitochondria by its lipophilic cationic property. As mitochondria are susceptible to hyperthermia and excessive reactive oxygen species, this new PS integrating PTT and PDT treatment exhibits highly efficient phototherapy in multiple cancer cells and animal xenograft models. Furthermore, this targeted PS with NIR imaging property also enables tumors and their margins clearly visualized, providing the potential for precisely imaging‐guided phototherapy and treatment monitoring. This is the first report that a small‐molecule PS integrates both cancer PTT and PDT treatment by targeting mitochondria, significantly increasing the photosensitization. This work may also present a practicable strategy to develop small‐molecule‐based cancer theranostic agents for simultaneous cancer targeting, imaging, and therapy.

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Gold Nanoclusters for NIR‐II Fluorescence Imaging of Bones

Liu

et al. 2020

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Fluorescence imaging in the second near-infrared window (NIR-II, 1000-1700 nm) is a highly promising and emerging technique for biomedical applications because of its deeper tissue penetration capability and higher signal-background ratio (SBR) compared to traditional imaging approaches using the shorter emission wavelength windows. [1] Numerous novel NIR-II fluorophores have been developed and evaluated in small animal models. [1] Importantly, a conventional NIR Fluorescence imaging in the second near-infrared window (NIR-II, 1000-1700 nm) holds great promise for deep tissue visualization. Development of novel clinical translatable NIR-II probes is crucial for realizing the medical applications of NIR-II fluorescence imaging. Herein, the glutathione-capped gold nanoclusters (AuNCs, specifically Au 25 (SG) 18) demonstrate highly efficient binding capability to hydroxyapatite in vitro for the first time. Further in vivo NIR-II fluorescence imaging of AuNCs indicate that they accumulate in bone tissues with high contrast and signal-background ratio. AuNCs are also mainly and quickly excreted from body through renal system, showing excellent ribs and thoracic vertebra imaging because of no background signal in liver and spleen. The deep tissue penetration capability and high resolution of AuNCs in NIR-II imaging render their great potential for fluorescence-guided surgery like spinal pedicle screw implantation. Overall, AuNCs are highly promising and clinical translatable NIR-II imaging probe for visualizing bone and bone related abnormalities.

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A multifunctional heptamethine near-infrared dye for cancer theranosis

Luo¹,

Tan²,

et al. 2013

Biomaterials

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Preliminary Structure–activity Relationship Study of Heptamethine Indocyanine Dyes for Tumor-Targeted Imaging

Guo

Luo

et al. 2013

J. Innov. Opt. Health Sci.

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Our research has identi¯ed a couple of near-infrared (NIR) heptamethine indocyanine dyes exhibiting preferential tumor accumulation property for in vivo imaging. On the basis of our foregoing work, we describe here a preliminary structureÀactivity relationship (SAR) study of 11 related heptamethine indocyanine dyes and several essential requirements of these structures for in vivo tumor-targeted imaging.

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Qingrong Qi

Mitochondria‐Targeted Small‐Molecule Fluorophores for Dual Modal Cancer Phototherapy

Gold Nanoclusters for NIR‐II Fluorescence Imaging of Bones

A multifunctional heptamethine near-infrared dye for cancer theranosis

Preliminary Structure–activity Relationship Study of Heptamethine Indocyanine Dyes for Tumor-Targeted Imaging

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