Yuantao Wu scite author profile

Yuantao Wu

3Publications

58Citation Statements Received

77Citation Statements Given

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Affiliations

Second Affiliated Hospital of Soochow University, Soochow University

Publications

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KIF11 is required for proliferation and self-renewal of docetaxel resistant triple negative breast cancer cells

et al. 2017

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Development of chemoresistance remains a major hurdle for triple negative breast cancer treatment. Previous studies suggest that CD44+/CD24- cells, subpopulation of cancer stem cells with self-renewing and tumor-initiating capacities, are partly responsible for chemoresistance and therapeutic failure of triple negative breast cancer. Therefore, novel agents that target cancer stem cells (CSCs) may improve the clinical outcome. KIF11 (kinesin family member 11), overexpressed in many cancer cells, is a molecular motor protein that plays essential role in mitosis. In this study, we assess its role in docetaxel resistant triple negative breast cancer (TNBC). We found that the expression of KIF11 was significantly increased in CD44+/CD24- subpopulation of docetaxel resistant TNBC cells. Knockdown of KIF11 resulted in a significant decrease in the percentage of CSCs and mammosphere formation. KIF11 knockdown also inhibits cell growth and induces cell cycle G2/M arrest followed by cell mitosis and apoptosis. Further docetaxel resistant TNBC xenograft models demonstrated that KIF11 inhibitor exerts growth inhibitory effect in vivo . Of note, we also found that KIF11 was highly expressed in TNBC and its expression was correlated with shorter disease free survival time. All these data indicate that KIF11 is critical for proliferation and self-renewal in TNBC tumor cells in vitro and in vivo , suggesting that KIF11 may be a promising therapeutic target for treating chemoresistant TNBC.

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<p>Dexamethasone inhibits the proliferation of tumor cells</p>

Wu¹,

Xia²,

Dai³

et al. 2019

CMAR

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ObjectiveDexamethasone (DEX) is a glucocorticoid that is commonly used in clinics. Previously, DEX has been shown to inhibit the function of immune system; however, DEX is often used to treat side reactions, such as nausea and vomiting caused by chemotherapy in clinics. Therefore, it is necessary to study the role of DEX in the treatment of cancer.MethodsThe effects of DEX on HepG2 were studied in vitro by Cell Counting Kit-8 method, cell cycle, and scratch test. The transplanted tumor model of HepG2 was established in nude mice to study the anti-tumor effect of DEX in vivo. In addition, in order to study the effect of DEX on the immune system, we also established a transplanted tumor model of 4T1 in normal immunized mice to study treatment effect and mechanism of DEX in mice of normal immune function.ResultsThe results showed that DEX inhibited the proliferation of HepG2 in vitro and in vivo, affecting the cycle and migration of HepG2 cells, and the expression of c-Myc and the activation of mTOR signaling pathway were inhibited. The expression of key enzymes related to glucose metabolism is altered, especially that of phosphoenolpyruvate carboxykinase2 (PCK2). In normal immunized mice, DEX also inhibits the proliferation of tumor cells 4T1, while the proportion of CD4+CD45+T cells and CD8+CD45+ T cells in CD45+ cells in the lymph nodes upregulated, the proportion of Treg cells in CD4+ T cells downregulated in lymph nodes, and the proportion of MDSCs in tumor tissues downregulated.ConclusionDEX can inhibit tumor cells in vitro and in vivo. The mechanism is to inhibit the activation of mTOR signaling pathway by inhibiting the expression of c-Myc, further affecting the expression of key enzymes involved in glucose metabolism, especially PCK2. In addition, DEX has an inhibitory effect on the immune system, which may be the reason why DEX still has anti-tumor effect in normal mice.

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Development of docetaxel liposome surface modified with CD133 aptamers for lung cancer targeting

Zhuang

et al. 2017

Artificial Cells, Nanomedicine, and Biotechnology

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The aim of the present study was to prepare a novel CD133 aptamer modified DTX liposome system and investigate its characteristics in vitro and in vivo studies. In this study, the CD133-DTX LP was prepared by the thin-film hydration method and with the particle size of 100-120 nm. The TEM photomicrographs were smooth, sub-spherical in shape and aggregated to form small clusters. In vitro, a relatively slower DTX release profile was observed in CD133-DTX LP due to the presence of CD133 aptamers on the outer surface which might hinder the drug release. The drug release mechanism fit well with the Higuchi equation better. In cytotoxicity study, CD133 aptamers modified DTX LP significantly decreased cell proliferation and improved the therapeutic efficiency. In vivo imaging result indicated that CD133-DTX LP had very good tumour targeting ability. In vivo antitumour activity indicated that the CD133-DTX LP showed a significant antitumour activity in A549 tumour mice, with a very low systemic toxicity.

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Yuantao Wu

KIF11 is required for proliferation and self-renewal of docetaxel resistant triple negative breast cancer cells

<p>Dexamethasone inhibits the proliferation of tumor cells</p>

Development of docetaxel liposome surface modified with CD133 aptamers for lung cancer targeting

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