The Sixth Affiliated Hospital of Guangzhou Medical University, Qingyuan People's Hospital, Qingyuan 511518, P. R. China.
The School of Biomedical Engineering, Guangzhou Medical University, Xinzao Town, Panyu District, Guangzhou 511436, P. R. China.
ACS Appl Mater Interfaces. 2023 Sep 27;15(38):44631-44640. doi: 10.1021/acsami.3c07130. Epub 2023 Sep 14.
In photothermal treatments (PTTs), normal tissues around cancerous tumors get injured by excessive heat, whereas damaged cancer cells are easily restored by stress-induced heat shock proteins (HSPs) at low temperatures. Therefore, to achieve a unique tumor microenvironment (TME), it is imperative to increase PTT efficiency and reduce normal tissue injury by adopting appropriate reactive oxygen species (ROS) and lipid peroxides (LPO) cross-linked with HSPs. In the present research, a potential strategy for mild photothermal treatments (mPTTs) was proposed by initiating localized catalytic chemical reactions in TME based on Pd nanozyme-modified hydrogenated TiO (H-TiO@Pd). and evaluations demonstrated that H-TiO@Pd had good peroxidase-like activities (POD), glutathione oxidase-like activities (GSHOx), and photodynamic properties and also satisfactory biocompatibility for 4T1 cells. Localized catalytic chemical reactions in H-TiO@Pd significantly depleted GSH to downregulate the protein expression of GPX4 and promoted the accumulation of LPO and ROS, which consumed HSP70 or inhibited its function in 4T1 cells. Hence, the as-constructed low-temperature photothermal therapeutic platform based on Pd nanozyme-modified H-TiO can be a promising candidate to develop a safe and effective mPTT for cancer treatments.
在光热治疗(PTT)中,癌肿瘤周围的正常组织会因过热而受伤,而受损的癌细胞在低温下很容易被应激诱导的热休克蛋白(HSPs)修复。因此,为了实现独特的肿瘤微环境(TME),必须通过采用适当的与 HSPs 交联的活性氧(ROS)和脂质过氧化物(LPO)来提高 PTT 效率并减少正常组织损伤。在本研究中,通过基于钯纳米酶修饰的氢化 TiO(H-TiO@Pd)在 TME 中引发局部催化化学反应,提出了一种温和光热治疗(mPTT)的潜在策略。并评价了 H-TiO@Pd 具有良好的过氧化物酶样活性(POD)、谷胱甘肽氧化酶样活性(GSHOx)和光动力特性,以及对 4T1 细胞良好的生物相容性。H-TiO@Pd 中的局部催化化学反应显著消耗 GSH,下调 GPX4 的蛋白表达,并促进 LPO 和 ROS 的积累,消耗 HSP70 或抑制其在 4T1 细胞中的功能。因此,基于钯纳米酶修饰的 H-TiO 构建的低温光热治疗平台有望成为开发安全有效的癌症 mPTT 的候选者。
