A self-supplied O2 versatile nanoplatform for GOx-mediated synergistic starvation and hypothermal photothermal therapy

[Display omitted] •UMIGH NPs, a targeted nanoplatform with multifunction and cascade effect, was introduced to treat colon cancer in mice.•UMIGH NPs could reduce the impact of HSPs at an upstream node through decreasing the adenosine triphosphate with glucose oxidase effectively.•UMIGH NPs realized...

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Bibliographic Details
Published in:Materials & design 2022-10, Vol.222, p.111067, Article 111067
Main Authors: Zhang, Bo, Li, Xinyu, Shu, Weibin, Yang, Yu-Shun, Zhu, Hai-Liang, Shao, Chenwen
Format: Article
Language:English
Subjects:
Hypothermal photothermal therapy
Hypoxia
Metal–organic frameworks
Starvation therapy
Thermoresistance
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Summary:[Display omitted] •UMIGH NPs, a targeted nanoplatform with multifunction and cascade effect, was introduced to treat colon cancer in mice.•UMIGH NPs could reduce the impact of HSPs at an upstream node through decreasing the adenosine triphosphate with glucose oxidase effectively.•UMIGH NPs realized the synergistic starvation therapy/low-temperature PTT with improved anti-tumor performance. Hypothermal photothermal therapy, as a non-invasive therapy method, is becoming ever more prevalent. However, due to cellular heat resistance from the generation of heat shock proteins (HSPs) and the monotonicity of therapeutic modality, the antitumor efficacy is severely restricted. Herein, a self-supplied O2 multifunctional nanoplatform mediated by glucose oxidase (GOx) is developed, which may combine starvation therapy (ST) and hypothermal photothermal therapy (HPTT) for tumor therapy. The obtained nanoplatform, UM@ICG@GOX@HA (UMIGH), was assembled by the UIO-66 core, MnO2, indocyanine green (ICG) and hyaluronic acid (HA). GOx was introduced to decrease the ATP level thus alleviating the HSPs-mediated heat tolerance, while the loaded MnO2 could decompose intratumoral H2O2 into O2, which enhanced the effect of HPTT and ST. Due to the coated HA, UMIGH could target the high expressed CD44 in CT26 tumor cells. The active targeting and NPs-associated passive targeting promoted the uptake of nanoparticles. Furthermore, ICG encapsulated in UMIGH NPs could also accurately image tumors. This synergistic treatment strategy of HPTT and ST exhibited an excellent anti-proliferation effect on colon cancer cells in vitro and mouse xenograft model in vivo, which might bring an informatic strategy for future investigations.
ISSN:0264-1275
1873-4197
DOI:10.1016/j.matdes.2022.111067