Yu-Hsuan Hsu scite author profile

Much effort has been focused on novel nanomedicine for cancer therapy. However, tumor hypoxia limits the efficacy of various cancer therapeutics. Herein, we constructed a self-sufficient hybrid enzyme-based silk fibroin hydrogel system, consisting of Pt-decorated hollow Ag−Au trimetallic nanocages (HGN@Pt) and glucose oxidase (GOx), to supply O 2 continuously and consume glucose concurrently and, thereby, synergistically enhance the anti-cancer efficacy of a combined starvation and photothermal therapy operating in a hypoxic tumor microenvironment. Thanks to the cooperative effects of the active surface atoms (resulting from the island-like features of the Pt coating), the intrinsically hollow structure, and the strain effect induced by the trimetallic composition, HGN@Pt displayed efficient catalase-like activity. The enhancement in the generation of O 2 through the decomposition of H 2 O 2 mediated by the as-designed nanozyme was greater than 400% when compared with that of hollow Ag−Pt bimetallic nanospheres or tiny Pt nanoparticles. Moreover, in the presence of HGN@Pt, significant amounts of O 2 could be generated within a few minutes, even in an acidic buffer solution (pH 5.8−6.5) containing a low concentration of H 2 O 2 (100−500 μM). Because HGN@Pt exhibited a strong surface plasmon resonance peak in the near-infrared wavelength range, it could be used as a photothermal agent for hyperthermia therapy. Furthermore, GOx was released gradually from the SF hydrogel into the tumor microenvironment to mediate the depletion of glucose, leading to glucose starvation-induced cancer cell death. Finally, the O 2 supplied by HGN@Pt overcame the hypoxia of the microenvironment and, thereby, promoted the starvation therapeutic effect of the GOx-mediated glucose consumption. Meanwhile, the GOx-produced H 2 O 2 from the oxidation of glucose could be used to regenerate O 2 and, thereby, construct a complementary circulatory system. Accordingly, this study presents a self-sufficient hybrid enzyme-based system that synergistically alleviates tumor hypoxia and induces an anti-cancer effect when combined with irradiation of light from a near-infrared laser.

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High-performance intermetallic PtCo oxygen reduction catalyst promoted by molybdenum

Lin

Kuo

Hsu

et al. 2022

Applied Catalysis B: Environmental

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Effect of substrate bias on biocompatibility of amorphous carbon coatings deposited on Ti6Al4V by PECVD

Cho

Liao

Hsu

et al. 2019

Surface and Coatings Technology

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Antibacterial Ag Cu coatings deposited using an asymmetric bipolar high-power impulse magnetron sputtering technique

Hsu

2019

Surface and Coatings Technology

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Yu-Hsuan Hsu

Bioapplication of TiN thin films deposited using high power impulse magnetron sputtering

Robust O₂ Supplementation from a Trimetallic Nanozyme-Based Self-Sufficient Complementary System Synergistically Enhances the Starvation/Photothermal Therapy against Hypoxic Tumors

High-performance intermetallic PtCo oxygen reduction catalyst promoted by molybdenum

Effect of substrate bias on biocompatibility of amorphous carbon coatings deposited on Ti6Al4V by PECVD

Antibacterial Ag Cu coatings deposited using an asymmetric bipolar high-power impulse magnetron sputtering technique

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About

Yu-Hsuan Hsu

Bioapplication of TiN thin films deposited using high power impulse magnetron sputtering

Robust O2 Supplementation from a Trimetallic Nanozyme-Based Self-Sufficient Complementary System Synergistically Enhances the Starvation/Photothermal Therapy against Hypoxic Tumors

High-performance intermetallic PtCo oxygen reduction catalyst promoted by molybdenum

Effect of substrate bias on biocompatibility of amorphous carbon coatings deposited on Ti6Al4V by PECVD

Antibacterial Ag Cu coatings deposited using an asymmetric bipolar high-power impulse magnetron sputtering technique

Contact Info

Product

Resources

About

Robust O₂ Supplementation from a Trimetallic Nanozyme-Based Self-Sufficient Complementary System Synergistically Enhances the Starvation/Photothermal Therapy against Hypoxic Tumors