通过π桥工程实现双模态光动力和光热疗法的聚集诱导发光（AIE）gens的合理设计。

Rational design of AIEgens through π-bridge engineering for dual-modal photodynamic and photothermal therapy.

作者信息

Liu Yanwen, Gou Shunzhi, Wang Hongchao, Wu Yumei, Yang Mingyan, Li Xinmin, Li Hongyu, Zheng Zhe, Yuan Zeli, Gao Jie

机构信息

School of Pharmacy, Key Laboratory of Basic Pharmacology of Ministry of Education and Joint International Research Laboratory of Ethnomedicine of Ministry of Education, Guizhou International Science & Technology Cooperation Base of Medical Optical Theranostics Research, Zunyi Medical University, Zunyi, Guizhou 563003, PR China.

College of Chemistry, Tianjin Normal University, Tianjin 300387, PR China.

出版信息

Bioorg Med Chem. 2025 Mar 1;119:118081. doi: 10.1016/j.bmc.2025.118081. Epub 2025 Jan 23.

DOI:10.1016/j.bmc.2025.118081

PMID:39870023

Abstract

A series of aggregation-induced emission luminogens (AIEgens) with donor-π-acceptor (D-π-A) architecture were rationally designed and synthesized through π-bridge engineering for dual-modal photodynamic and photothermal therapy. The AIEgens (TPT, TFT, and TTT) were constructed using methoxy-substituted tetraphenylene as the electron donor and tricyanofuran as the electron acceptor, connected via different π-bridges (phenyl, furan, or thiophene). These compounds exhibited red-shifted absorption (460-545 nm) and emission (712-720 nm) with remarkable aggregation-induced emission characteristics. Among them, TTT demonstrated superior photophysical properties and was successfully encapsulated into amphiphilic calixarene-based nanoparticles (T@Q NPs) with uniform morphology. The T@Q NPs showed efficient reactive oxygen species generation and photothermal conversion (η = 6.98 %), enabling effective tumor cell ablation through combined photodynamic and photothermal therapy. In vivo studies revealed that T@Q NPs achieved 70 % tumor growth inhibition in 4T1 tumor-bearing mice without obvious systemic toxicity. This work presents an effective strategy for designing AIEgens-based phototherapeutic agents through π-bridge engineering, offering promising candidates for clinical translation in tumor phototherapy.

摘要

通过π桥工程合理设计并合成了一系列具有供体-π-受体（D-π-A）结构的聚集诱导发光荧光团（AIEgens），用于双模态光动力和光热治疗。AIEgens（TPT、TFT和TTT）以甲氧基取代的四亚苯基作为电子供体，三氰基呋喃作为电子受体，通过不同的π桥（苯基、呋喃或噻吩）连接而成。这些化合物表现出红移吸收（460 - 545 nm）和发射（712 - 720 nm），具有显著的聚集诱导发光特性。其中，TTT表现出优异的光物理性质，并成功封装到具有均匀形态的两亲性杯芳烃基纳米颗粒（T@Q NPs）中。T@Q NPs显示出高效的活性氧生成和光热转换（η = 6.98%），能够通过联合光动力和光热疗法有效消融肿瘤细胞。体内研究表明，T@Q NPs在4T1荷瘤小鼠中实现了70%的肿瘤生长抑制，且无明显的全身毒性。这项工作提出了一种通过π桥工程设计基于AIEgens的光治疗剂的有效策略，为肿瘤光治疗的临床转化提供了有前景的候选物。

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通过π桥工程实现双模态光动力和光热疗法的聚集诱导发光（AIE）gens的合理设计。

Rational design of AIEgens through π-bridge engineering for dual-modal photodynamic and photothermal therapy.

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