基于葡萄糖氧化酶功能化远古颜料纳米片的近红外二区光热增强饥饿触发化学动力学治疗。

Programmable NIR-II Photothermal-Enhanced Starvation-Primed Chemodynamic Therapy using Glucose Oxidase-Functionalized Ancient Pigment Nanosheets.

机构信息

Marshall Laboratory of Biomedical Engineering, International Cancer Center, Laboratory of Evolutionary Theranostics (LET), School of Biomedical Engineering, Shenzhen University Health Science Center, Shenzhen, 518060, China.

Key Laboratory of Optoelectronic Devices and Systems of Ministry of Education and Guangdong Province, College of Optoelectronic Engineering, Shenzhen University, Shenzhen, 518060, China.

出版信息

Small. 2020 Jun;16(25):e2001518. doi: 10.1002/smll.202001518. Epub 2020 May 28.

DOI:10.1002/smll.202001518

PMID:32468633

Abstract

Chemodynamic therapy (CDT) has attracted considerable attention recently, but the poor reaction kinetics restrict its practical utility in clinic. Herein, glucose oxidase (GOx) functionalized ancient pigment nanosheets (SrCuSi O , SC) for programmable near-infrared II (NIR-II) photothermal-enhanced starvation primed CDT is developed. The SC nanosheets (SC NSs) are readily exfoliated from SC bulk suspension in water and subsequently functionalized with GOx to form the nanocatalyst (denoted as SC@G NSs). Upon laser irradiation, the photothermal effect of SC NSs can enhance the catalytic activity of GOx for NIR-II photothermal-enhanced starvation therapy, which effectively eliminates intratumoral glucose and produces abundant hydrogen peroxide (H O ). Importantly, the high photothermal-conversion efficiency (46.3%) of SC@G NSs in second biological window permits photothermal therapy of deep-seated tumors under the guidance of NIR-II photoacoustic imaging. Moreover, the acidity amplification due to gluconic acid generation will in turn accelerate the degradation of SC NSs, facilitating the release of strontium (Sr) and copper (Cu) ions. Both the elevated H O and the released ions will prime the Cu /Sr -H O reaction for enhanced CDT. Thus, a programmable NIR-II photothermal-enhanced starvation primed CDT is established to combat cancer with minimal side effects.

摘要

化学动力学治疗（CDT）最近引起了相当大的关注，但较差的反应动力学限制了其在临床上的实际应用。在此，开发了一种用于可编程近红外二区（NIR-II）光热增强饥饿引发 CDT 的葡萄糖氧化酶（GOx）功能化古代颜料纳米片（SrCuSi O ，SC）。SC 纳米片（SC NSs）可轻易地从 SC 块状悬浮液中剥离出来，然后用 GOx 功能化形成纳米催化剂（表示为 SC@G NSs）。激光照射后，SC NSs 的光热效应可以增强 GOx 的 NIR-II 光热增强饥饿治疗的催化活性，从而有效消除肿瘤内的葡萄糖并产生丰富的过氧化氢（H O ）。重要的是，SC@G NSs 在第二生物窗口中的高光热转换效率（46.3%）允许在 NIR-II 光声成像的指导下对深部肿瘤进行光热治疗。此外，由于葡萄糖酸的生成而导致的酸度放大反过来又会加速 SC NSs 的降解，有利于 Sr 和 Cu 离子的释放。升高的 H O 和释放的离子都将引发 Cu/Sr-H O 反应以增强 CDT。因此，建立了一种可编程的 NIR-II 光热增强饥饿引发的 CDT，以最小的副作用对抗癌症。

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基于葡萄糖氧化酶功能化远古颜料纳米片的近红外二区光热增强饥饿触发化学动力学治疗。

Programmable NIR-II Photothermal-Enhanced Starvation-Primed Chemodynamic Therapy using Glucose Oxidase-Functionalized Ancient Pigment Nanosheets.

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