Zhang Ke-fang scite author profile

5-Fluorouracil (5-FU) is one of the most commonly used chemotherapeutic agents in colon cancer treatment, but has a narrow therapeutic index limited by its toxicity. Melatonin exerts antitumor activity in various cancers, but it has never been combined with 5-FU as an anticolon cancer treatment to improve the chemotherapeutic effect of 5-FU. In this study, we assessed such combinational use in colon cancer and investigated whether melatonin could synergize the antitumor effect of 5-FU. We found that melatonin significantly enhanced the 5-FU-mediated inhibition of cell proliferation, colony formation, cell migration and invasion in colon cancer cells. We also found that melatonin synergized with 5-FU to promote the activation of the caspase/PARP-dependent apoptosis pathway and induce cell cycle arrest. Further mechanism study demonstrated that melatonin synergized the antitumor effect of 5-FU by targeting the PI3K/AKT and NF-κB/inducible nitric oxide synthase (iNOS) signaling. Melatonin in combination with 5-FU markedly suppressed the phosphorylation of PI3K, AKT, IKKα, IκBα, and p65 proteins, promoted the translocation of NF-κB p50/p65 from the nuclei to cytoplasm, abrogated their binding to the iNOS promoter, and thereby enhanced the inhibition of iNOS signaling. In addition, pretreatment with a PI3K- or iNOS-specific inhibitor synergized the antitumor effects of 5-FU and melatonin. Finally, we verified in a xenograft mouse model that melatonin and 5-FU exerted synergistic antitumor effect by inhibiting the AKT and iNOS signaling pathways. Collectively, our study demonstrated that melatonin synergized the chemotherapeutic effect of 5-FU in colon cancer through simultaneous suppression of multiple signaling pathways.

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Comparison of bioleaching and electrokinetic remediation processes for removal of heavy metals from wastewater treatment sludge

Zhang

Zhao

et al. 2017

Chemosphere

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Influence of inoculating white-rot fungi on organic matter transformations and mobility of heavy metals in sewage sludge based composting

Zhang

Zhao

et al. 2018

Journal of Hazardous Materials

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Effects of temperature on simultaneous nitrification and denitrification via nitrite in a sequencing batch biofilm reactor

Zhang

Wei

Ke-fang

et al. 2008

Bioprocess Biosyst Eng

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A laboratory scale experiment was described in this paper to enhance biological nitrogen removal by simultaneous nitrification and denitrification (SND) via nitrite with a sequencing batch biofilm reactor (SBBR). Under conditions of total nitrogen (TN) about 30 mg/L and pH ranged 7.15-7.62, synthetic wastewater was cyclically operated within the reactor for 110 days. Optimal operation conditions were established to obtain consistently high TN removal rate and nitrite accumulation ratio, which included an optimal temperature of 31 degrees C and an aeration time of 5 h under the air flow of 50 L/h. Stable nitrite accumulation could be realized under different temperatures and the nitrite accumulation ratio increased with an increase of temperature from 15 to 35 degrees C. The highest TN removal rate (91.9%) was at 31 degrees C with DO ranged 3-4 mg/L. Process control could be achieved by observing changes in DO and pH to judge the end-point of oxidation of ammonia and SND.

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Process integration analysis and improved options for an MEA CO2 capture system based on the pinch analysis

Ke-fang

Liu

Huang

et al. 2015

Applied Thermal Engineering

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Zhang Ke-fang

Melatonin synergizes the chemotherapeutic effect of 5‐fluorouracil in colon cancer by suppressing PI3K/AKT and NF‐κB/iNOS signaling pathways

Comparison of bioleaching and electrokinetic remediation processes for removal of heavy metals from wastewater treatment sludge

Influence of inoculating white-rot fungi on organic matter transformations and mobility of heavy metals in sewage sludge based composting

Effects of temperature on simultaneous nitrification and denitrification via nitrite in a sequencing batch biofilm reactor

Process integration analysis and improved options for an MEA CO2 capture system based on the pinch analysis

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