用于增强电子转移以提高放射动力疗法效果的电活性膜融合脂质体。

Electroactive membrane fusion-liposome for increased electron transfer to enhance radiodynamic therapy.

作者信息

Chen Ying-Chi, Li Yi-Ting, Lee Chin-Lai, Kuo Yen-Ting, Ho Chia-Lun, Lin Wei-Che, Hsu Ming-Chien, Long Xizi, Chen Jia-Sin, Li Wei-Peng, Su Chia-Hao, Okamoto Akihiro, Yeh Chen-Sheng

机构信息

Department of Chemistry, National Cheng Kung University, Tainan, Taiwan.

Department of Diagnostic Radiology, Kaohsiung Chang Gung Memorial Hospital, Kaohsiung, Taiwan.

出版信息

Nat Nanotechnol. 2023 Dec;18(12):1492-1501. doi: 10.1038/s41565-023-01476-2. Epub 2023 Aug 3.

DOI:10.1038/s41565-023-01476-2

PMID:37537274

Abstract

Dynamic therapies have potential in cancer treatments but have limitations in efficiency and penetration depth. Here a membrane-integrated liposome (MIL) is created to coat titanium dioxide (TiO) nanoparticles to enhance electron transfer and increase radical production under low-dose X-ray irradiation. The exoelectrogenic Shewanella oneidensis MR-1 microorganism presents an innate capability for extracellular electron transfer (EET). An EET-mimicking photocatalytic system is created by coating the TiO nanoparticles with the MIL, which significantly enhances superoxide anions generation under low-dose (1 Gy) X-ray activation. The c-type cytochromes-constructed electron channel in the membrane mimics electron transfer to surrounding oxygen. Moreover, the hole transport in the valence band is also observed for water oxidation to produce hydroxyl radicals. The TiO@MIL system is demonstrated against orthotopic liver tumours in vivo.

摘要

动态疗法在癌症治疗中具有潜力，但在效率和穿透深度方面存在局限性。在此，制备了一种膜整合脂质体（MIL）来包覆二氧化钛（TiO₂）纳米颗粒，以增强电子转移并在低剂量X射线照射下增加自由基生成。产电微生物希瓦氏菌MR-1具有细胞外电子转移（EET）的固有能力。通过用MIL包覆TiO₂纳米颗粒构建了一种模拟EET的光催化系统，该系统在低剂量（1 Gy）X射线激活下显著增强超氧阴离子的生成。膜中由c型细胞色素构建的电子通道模拟电子向周围氧气的转移。此外，还观察到价带中的空穴传输用于水氧化以产生羟基自由基。TiO₂@MIL系统在体内针对原位肝肿瘤进行了验证。

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用于增强电子转移以提高放射动力疗法效果的电活性膜融合脂质体。

Electroactive membrane fusion-liposome for increased electron transfer to enhance radiodynamic therapy.

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