Shuyue Yang scite author profile

Doxorubicin (DOX) is a widely used first-line antitumor agent; however, acquired drug resistance and side effects have become the main challenges to effective cancer therapy. Herein, DOX is loaded into iron-rich metal–organic framework/tannic acid (TA) nanocomplex to form a tumor-targeting and acid-activatable drug delivery system (MOF/TA-DOX, MTD). Under the acidic tumor microenvironment, MTD simultaneously releases DOX and ferrous ion (Fe2+) accompanied by degradation. Apart from the chemotherapeutic effect, DOX elevates the intracellular H2O2 levels through cascade reactions, which will be beneficial to the Fenton reaction between the Fe2+ and H2O2, to persistently produce hydroxyl radicals (•OH). Thus, MTD efficiently mediates chemodynamic therapy (CDT) and remarkably enhances the sensitivity of chemotherapy. More encouragingly, the cancer cell killing efficiency of MTD is up to ~86% even at the ultralow equivalent concentration of DOX (2.26 μg/mL), while the viability of normal cells remained >88% at the same concentration of MTD. Taken together, MTD is expected to serve as drug-delivery nanoplatforms and •OH nanogenerators for improving chemo/chemodynamic synergistic therapy and reducing the toxic side effects.

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Arctigenin prevents the progression of osteoarthritis by targeting PI3K/Akt/NF‐κB axis: In vitro and in vivo studies

Tang

Zhou

Zhong

et al. 2020

J Cellular Molecular Medi

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Osteoarthritis (OA), which is principally featured by progressive joint metabolic imbalance and subsequent degeneration of articular cartilage, is a common chronic joint disease. Arctigenin (ATG), a dietary phyto-oestrogen, has been described to have potent anti-inflammatory effects. Nevertheless, its protective effects on OA have not been clearly established. The target of our following study is to evaluate the protective effects of ATG on IL-1β-induced human OA chondrocytes and mouse OA model. Our results revealed that the ATG pre-treatment effectively decreases the level of pro-inflammatory mediators, such as prostaglandin E2 (PGE2), nitrous oxide (NO), inducible nitric oxide synthase (iNOS), cyclooxygenase-2 (COX-2), IL-6 and tumour necrosis factor alpha (TNF-α) in IL-1β-induced human chondrocytes. In addition, ATG protects against the degradation of extracellular matrix (ECM) under the stimulation of IL-1β and the possible mechanism might be connected with the inactivation of phosphatidylinositol-3-kinase (PI3K)/Akt/nuclear factor-kappa B (NF-κB) axis. Furthermore, a powerful binding capacity between ATG and PI3K was also uncovered in our molecular docking research. Meanwhile, ATG may act as a protector on the mouse OA model. Collectively, all these findings suggest that ATG could be utilized as a promising therapeutic agent for the treatment of OA. K E Y W O R D Sarctigenin, chondrocyte, inflammation, NF-κB, osteoarthritis Shangkun Tang and Weijun Zhou contributed equally to this work.

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Shuyue Yang

A reverse-design-strategy for C@Li₃VO₄ nanoflakes toward superb high-rate Li-ion storage

A scalable synthesis of 2D laminate Li₃VO₄/C for robust pseudocapacitive Li-ion storage

New insights into the Li-storage mechanism in α-Ga2O3 anode and the optimized electrode design

Doxorubicin-Loaded Metal-Organic Framework Nanoparticles as Acid-Activatable Hydroxyl Radical Nanogenerators for Enhanced Chemo/Chemodynamic Synergistic Therapy

Arctigenin prevents the progression of osteoarthritis by targeting PI3K/Akt/NF‐κB axis: In vitro and in vivo studies

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Shuyue Yang

A reverse-design-strategy for C@Li3VO4 nanoflakes toward superb high-rate Li-ion storage

A scalable synthesis of 2D laminate Li3VO4/C for robust pseudocapacitive Li-ion storage

New insights into the Li-storage mechanism in α-Ga2O3 anode and the optimized electrode design

Doxorubicin-Loaded Metal-Organic Framework Nanoparticles as Acid-Activatable Hydroxyl Radical Nanogenerators for Enhanced Chemo/Chemodynamic Synergistic Therapy

Arctigenin prevents the progression of osteoarthritis by targeting PI3K/Akt/NF‐κB axis: In vitro and in vivo studies

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A reverse-design-strategy for C@Li₃VO₄ nanoflakes toward superb high-rate Li-ion storage

A scalable synthesis of 2D laminate Li₃VO₄/C for robust pseudocapacitive Li-ion storage