Reconstituting Low-Density Lipoprotein with NIR-Absorbing Organic Photothermal Agents for Targeted Killing of Cancer Cells
作者
Wang, JX (Wang, Jiaxin) [1] ; Tian, L (Tian, Liang) [1] ; Wu, KY (Wu, Kaiyu) [1] ; Wang, C (Wang, Chao) [1] ; Zhu, CL (Zhu, Chunlei) [1]
在线发表
AUG 2023
已索引
2023-10-17
文献类型
Article; Early Access
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摘要
Photothermal therapy (PTT) systems typically do not possess intrinsic tumor-targeting capability, resulting in indiscriminate thermal damage to both cancer and normal cells. Herein, a low-density lipoprotein (LDL)-based nanosystem (denoted as MTTQ@LDL) is reported for targeted photothermal killing of cancer cells. Such a nanosystem is fabricated by reconstituting the lipophilic core of LDL with an organic photothermal agent MTTQ. The reconstitution process improves the supramolecular photothermal effects of MTTQ assemblies, which contributes to the significantly enhanced photothermal conversion efficiency (41.3% vs. 16.2%). MTTQ@LDL can actively target LDL receptor-overexpressed cancer cells via receptor-mediated endocytosis, enabling the selective killing of cancer cells over normal cells (98% vs. 7%) post-NIR irradiation. Reconstituted LDL can serve as a promising platform for targeted delivery of functional materials, holding great promise in tumor eradication in vivo.
In this work, the lipophilic core of low-density lipoprotein (LDL) is reconstituted with a near-infrared (NIR)-absorbing organic photothermal agent. By virtue of the tumor-targeting capability of LDL, the reconstituted LDL particles can selectively kill LDL receptor-overexpressed cancer cells over normal cells via photothermal heating upon NIR irradiation, holding great promise in tumor eradication in vivo.