Junzhe Ma scite author profile

Junzhe Ma

3Publications

49Citation Statements Received

89Citation Statements Given

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108

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Second Affiliated Hospital of Soochow University, Soochow University

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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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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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<p>Synergistic Effect of 3-Bromopyruvate in Combination with Rapamycin Impacted Neuroblastoma Metabolism by Inhibiting Autophagy</p>

Gan¹,

Ren²,

Lü³

et al. 2020

OTT

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Background Alterations in the cell metabolism, such as enhanced aerobic glycolysis, have been identified as a prominent hallmark of cancer cells. 3-Bromopyruvate (3-BrPA) is a proverbial hexokinase (HK)-II inhibitor, which can inhibit cancer cell energy metabolism. Rapamycin is a new type macrocyclic lactone, which can inhibit the serine/threonine protein kinase mTOR. In order to comprehend the influence of 3-BrPA on autophagy activity in vitro, we conducted a series of experiments using different human neuroblastoma (NB) cell lines. Materials and Methods The human NB cell lines were exposed to 3-BrPA and/or rapamycin, and the proliferation activity of the cells was detected by Cell Counting Kit-8 (CCK-8) assay. The mRNA expression of the cells treated with 3-BrPA and/or rapamycin was analyzed by quantitative real-time polymerase chain reaction (QPCR) assay. The protein expression of the cells was analyzed by Western Blotting (WB) assay. The effects of 3-BrPA and/or rapamycin treatment on cell cycle and cell apoptosis were analyzed by flow cytometry assay. Meanwhile, the cellular glucose absorption rate, lactate secretion rate and ATP content were also analyzed through the relevant metabolic analysis kits. Results Our results showed that 3-BrPA can induce growth inhibition in a dose-dependent pattern by cell apoptosis. 3-BrPA combined with rapamycin played a synergistic suppression role in NB cells, affected the cell apoptosis, cell cycle and the metabolic pathway. Up-regulated LC3-II accumulation was conscious in NB cells incubated with 3-BrPA and rapamycin. Rapamycin individually discourages the mTOR signaling pathway, while combined with 3-BrPA can enhance this phenomenon and influence cell metabolism of the NB cells. Conclusion The results suggested that 3-BrPA combined with rapamycin could induce cell apoptosis in NB cells by inhibiting mTOR activity. In conclusion, our research proposed that the dual inhibitory effect of the mTOR signaling pathway and the glycolytic activity may indicate a valid therapeutic tactic for NB chemoprevention.

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Junzhe Ma

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

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

<p>Synergistic Effect of 3-Bromopyruvate in Combination with Rapamycin Impacted Neuroblastoma Metabolism by Inhibiting Autophagy</p>

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