Self‐Immolative Activatable Nanoassembly toward Immuno‐Photodynamic Therapy in TME

光动力疗法 材料科学 体内 纳米技术 两亲性 体外 水溶液 癌症治疗 组合化学 荧光 限制 生物物理学 免疫系统 纳米颗粒 癌症研究 细胞内 小分子 肿瘤微环境 氧化应激 水介质 癌细胞 纳米医学 光敏剂 光电开关 癌症治疗 合理设计 药理学 受体 生物化学 适体 化学
作者
Jing Li,E Pang,Snehasish Debnath,Jia Hong,Aojun Qiu,D. J. Kim,Geon-Yong Kim,Minhuan Lan,Min‐Goo Lee,Qian‐Yong Cao,Jong Seung Kim
出处
期刊:Advanced Functional Materials [Wiley]
卷期号:36 (14) 被引量:1
标识
DOI:10.1002/adfm.202513250
摘要

Abstract Conventional “always‐on” photosensitizers are often plagued by off‐target toxicity and poor tumor selectivity, limiting the clinical efficacy of photodynamic therapy (PDT). Herein, an innovative quinone methide (QM)‐gated self‐immolative ‘OFF‐ON’ nano‐photosensitizer platform ( Pyz/PS ) is reported for highly efficient immuno‐photodynamic therapy. Unlike previous approaches, this study unprecedentedly introduces a self‐immolative nanoassembly platform integrating a rationally designed amphiphilic receptor (Pyz) with commercially available PSs (TPPS, Eosin Y, or Rose Bengal). The Pyz molecule is meticulously engineered with four functional motifs: H 2 O 2 ‐responsive boronate ester trigger, QM‐based self‐immolative linker, pyridinium/amide groups for anion recognition, and a hydrophobic hexadecyl tail for aqueous self‐assembly. In aqueous solution, Pyz/PS forms nano‐photosensitizers that suppress the fluorescence and ROS generation of the PS through PET. In response to elevated H 2 O 2 levels in TME, the nanoassemblies undergo selective disintegration, reinstating PS activity for spatially confined, imaging‐guided PDT. Concomitantly, the liberated QM species deplete intracellular GSH, amplifying the oxidative stress and further boosting PDT efficacy. Comprehensive in vitro and in vivo studies demonstrate that the Pyz/TPPS nanoplatform not only suppresses tumor growth but also triggers potent antitumor immune responses. This study presents an unprecedented and translationally promising strategy for activatable nano‐photosensitizers, advancing the frontier of PDT‐based cancer immunotherapy.
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