Yuka Takezaki scite author profile

Polo-like kinase1 (PLK1) belongs to the family of serine/ threonine kinases and plays an important role in centrosome maturation, bipolar spindle formation, and cytokinesis during mitosis. We found in this study that PLK1 was aberrantly highly expressed in a variety of human leukemia cell lines (n ¼ 20), as well as, freshly isolated leukemia cells from individuals with acute myelogenous leukemia (n ¼ 50) and acute lymphoblastic leukemia (n ¼ 15) compared with bone marrow mononuclear cells from healthy volunteers (n ¼ 13) (acute myelogenous leukemia, P ¼ 0.016; acute lymphoblastic leukemia, P ¼ 0.008), as measured by real-time RT-PCR. Downregulation of PLK1 by a small interfering RNA in NB4 acute myelogenous leukemia cells inhibited their proliferation. GW843682X is a novel selective PLK1 inhibitor. The compound-induced growth inhibition, caused accumulation of cells in the G2/M phase of the cell cycle and mediated apoptosis of human leukemia cells. Pre-treatment of cells with the caspase inhibitor Z-VAD-FMK attenuated the action of GW843682X in leukemia cells, indicating the involvement of the caspase pathway in the PLK1 inhibitor-mediated apoptosis. Furthermore, we found that the PLK1 inhibitor synergistically potentiated the growth inhibition and apoptosis of leukemia cells when combined with tubulindepolymerizing agent vincristine. Taken together, targeting PLK1 may be a promising treatment strategy for individuals with leukemia.

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Suppression of MicroRNA-7 (miR-7) Biogenesis by Nuclear Factor 90-Nuclear Factor 45 Complex (NF90-NF45) Controls Cell Proliferation in Hepatocellular Carcinoma

Higuchi¹,

Taniguchi²,

Sugiyama³

et al. 2016

Journal of Biological Chemistry

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MicroRNA-7 (miR-7)has been characterized as an anti-oncogenic microRNA (miRNA) in several cancers, including hepatocellular carcinoma (HCC). However, the mechanism for the regulation of miR-7 production in tumors remains unclear. Here, we identified nuclear factor 90 (NF90) and NF45 complex (NF90-NF45) as negative regulators of miR-7 processing in HCC. Expression of NF90 and NF45 was significantly elevated in primary HCC tissues compared with adjacent non-tumor tissues. To examine which miRNAs are controlled by NF90-NF45, we performed an miRNA microarray and quantitative RT-PCR analyses of HCC cell lines. Depletion of NF90 resulted in elevated levels of mature miR-7, whereas the expression of primary miR-7-1 (pri-miR-7-1) was decreased in cells following knockdown of NF90. Conversely, the levels of mature miR-7 were reduced in cells overexpressing NF90 and NF45, although pri-miR-7-1 was accumulated in the same cells. Furthermore, NF90-NF45 was found to bind pri-miR-7-1 in vitro These results suggest that NF90-NF45 inhibits the pri-miR-7-1 processing step through the binding of NF90-NF45 to pri-miR-7-1. We also found that levels of the EGF receptor, an oncogenic factor that is a direct target of miR-7, and phosphorylation of AKT were significantly decreased in HCC cell lines depleted of NF90 or NF45. Of note, knockdown of NF90 or NF45 caused a reduction in the proliferation rate of HCC cells. Taken together, NF90-NF45 stimulates an elevation of EGF receptor levels via the suppression of miR-7 biogenesis, resulting in the promotion of cell proliferation in HCC.

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Perioperative intensive insulin therapy using an artificial endocrine pancreas with closed-loop glycemic control system: the effects of no hypoglycemia

Hanazaki

Kitagawa

Yatabe

et al. 2014

The American Journal of Surgery

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Long‐term exposure of gastrointestinal stromal tumor cells to sunitinib induces epigenetic silencing of the PTEN gene

Yang

Ikezoe

Nishioka

et al. 2011

Intl Journal of Cancer

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Although sunitinib possesses significant clinical effects on imatinib‐resistant gastrointestinal stromal tumors (GISTs), the individuals with GIST eventually become resistant to treatment with this tyrosine kinase inhibitor. The mechanism of resistance to sunitinib is still under investigation. To address this issue, we have established sunitinib‐resistant GIST‐T1 sublines (designated as GIST‐T1R) by culturing cells with increasing concentrations of sunitinib. GIST‐T1R cells were also resistant to imatinib‐mediated growth inhibition. Examination of intracellular signaling found that Akt/ mammalian target of rapamycin (mTOR) signaling remained activated in GIST‐T1R but not in parental GIST‐T1 cells, after exposure of these cells to sunitinib, as measured by immunoblotting. Further study found that the phosphatase and tensin homolog deleted on chromosome ten (PTEN) gene was silenced by methylation of the promoter region of the gene. Notably, forced‐expression of PTEN in GIST‐T1R cells negatively regulated the Akt/mTOR pathways and sensitized these cells to sunitinib‐mediated growth arrest and apoptosis. Taken together, epigenetic silence of PTEN might be one of the mechanisms which cause drug‐resistance in individuals with GIST after exposure to tyrosine kinase inhibitors. Blockade of the PI3K/Akt signaling with the specific inhibitors could be useful in such a case.

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Evaluation of a Novel Artificial Pancreas: Closed Loop Glycemic Control System With Continuous Blood Glucose Monitoring

et al. 2013

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A closed-loop glycemic control system using an artificial pancreas has been applied with many clinical benefits in Japan since 1987. To update this system incorporating user-friendly features, we developed a novel artificial pancreas (STG-55). The purpose of this study was to evaluate STG-55 for device usability, performance of blood glucose measurement, glycemic control characteristics in vivo in animal experiments, and evaluate its clinical feasibility. There are several features for usability improvement based on the design concepts, such as compactness, display monitor, batteries, guidance function, and reduction of the preparation time. All animal study data were compared with a clinically available artificial pancreas system in Japan (control device: STG-22). We examined correlations of both blood glucose levels between two groups (STG-55 vs. control) using Clarke's error grid analysis, and also compared mean glucose infusion rate (GIR) during glucose clamp. The results showed strong correlation in blood glucose concentrations (Pearson's product-moment correlation coefficient: 0.97; n = 1636). Clarke's error grid analysis showed that 98.4% of the data fell in Zones A and B, which represent clinically accurate or benign errors, respectively. The difference in mean GIRs was less than 0.2 mg/kg/min, which was considered not significant. Clinical feasibility study demonstrated sufficient glycemic control maintaining target glucose range between 80 and 110 (mg/dL), and between 140 and 160 without any hypoglycemia. In conclusion, STG-55 was a clinically acceptable artificial pancreas with improved interface and usability. A closed-loop glycemic control system with STG-55 would be a useful tool for surgical and critical patients in intensive care units, as well as diabetic patients.

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Yuka Takezaki

A novel treatment strategy targeting polo-like kinase 1 in hematological malignancies

Suppression of MicroRNA-7 (miR-7) Biogenesis by Nuclear Factor 90-Nuclear Factor 45 Complex (NF90-NF45) Controls Cell Proliferation in Hepatocellular Carcinoma

Perioperative intensive insulin therapy using an artificial endocrine pancreas with closed-loop glycemic control system: the effects of no hypoglycemia

Long‐term exposure of gastrointestinal stromal tumor cells to sunitinib induces epigenetic silencing of the PTEN gene

Evaluation of a Novel Artificial Pancreas: Closed Loop Glycemic Control System With Continuous Blood Glucose Monitoring

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