Junko Kikuchi scite author profile

EZH2 (enhancer of zeste homolog 2) is the catalytic subunit of PRC2 (polycomb repressive complex 2), which mediates histone methyltransferase activity and functions as transcriptional repressor involved in gene silencing. EZH2 is involved in malignant transformation and biological aggressiveness of several human malignancies. We previously demonstrated that non-small cell lung cancers (NSCLCs) also overexpress EZH2 and that high expression of EZH2 correlates with poor prognosis. Growing evidence indicates that EZH2 may be an appropriate therapeutic target in malignancies, including NSCLCs. Recently, an S-adenosyl-L homocysteine hydrolase inhibitor, 3-Deazaneplanocin A (DZNep), has been shown to deplete and inhibit EZH2. The aim of this study was to determine the effect of DZNep in NSCLC cells. Knockdown of EZH2 by small-interfering RNA (siRNA) resulted in decreased growth of four NSCLC cell lines. MTT assays demonstrated that DZNep treatment resulted in dose-dependent inhibition of proliferation in the NSCLC cell lines with a half maximal inhibitory concentration (IC50) ranging from 0.08 to 0.24 μM. Immortalized but non-cancerous bronchial epithelial and fibroblast cell lines were less sensitive to DZNep than the NSCLC cell lines. Soft agarose assays demonstrated that anchorage-independent growth was also reduced in all three NSCLC cell lines that were evaluated using this assay. Flow cytometry analysis demonstrated that DZNep induced apoptosis and G1 cell cycle arrest in NSCLC cells, which was partially associated with cyclin A decrease and p27Kip1 accumulation. DZNep depleted cellular levels of EZH2 and inhibited the associated histone H3 lysine 27 trimethylation. These results indicated that an epigenetic therapy that pharmacologically targets EZH2 via DZNep may constitute a novel approach to treatment of NSCLCs.

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Minichromosome maintenance (MCM) protein 4 as a marker for proliferation and its clinical and clinicopathological significance in non-small cell lung cancer

Kikuchi

Kinoshita

Shimizu

et al. 2011

Lung Cancer

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Vincristine‐resistant Human Cancer KB Cell Line and Increased Expression of Multidrug‐resistance Gene

Kohno

Kikuchi

Sato

et al. 1988

Japanese Journal of Cancer Research

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A multidrug‐resistant clone of human cancer KB cells was isolated by stepwise selection on exposure to increasing doses of vincristine. The final clone, VJ‐300, obtained after ethylmethane sulfonate mutagenesis showed 400‐fold higher resistance to vincristine than did KB cells. Cellular accumulation of vincristine in VJ‐300 was decreased to less than one‐tenth of that in KB. The cells were also cross‐resistant to daunomycin, adriamycin, actinomycin D, colchicine and VP‐16. During continuous culturing in the absence of any drug for several months, a different colchicine‐resistant and multidrug‐resistant clone, KB‐C1, reverted almost completely to drug sensitivity, whereas drug resistance in VJ‐300 was stably maintained. Amplification of the multidrug‐resistance‐1 (mdr‐1) gene was more than 20‐fold in KB‐C1, but less than 2‐fold in VJ‐300, mdr‐1 mRNA was, however, expressed in VJ‐300 at a rate comparable to KB‐C1. Acquisition of high multidrug resistance in VJ‐300 might be correlated with both activated transcription of mdr‐1 gene and amplification.

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Distinctive expression of the polycomb group proteins Bmi1 polycomb ring finger oncogene and enhancer of zeste homolog 2 in nonsmall cell lung cancers and their clinical and clinicopathologic significance

Kikuchi

Kinoshita

Shimizu

et al. 2010

Cancer

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BACKGROUND:The polycomb group genes Bmi1 polycomb ring finger oncogene (Bmi1) and enhancer of zeste homolog 2 (EZH2) function as transcriptional repressors involved in gene silencing and in the malignant transformation and biologic aggressiveness of several human carcinomas. In the current study, the authors evaluated Bmi1 and EZH2 protein expression in specimens of human nonsmall cell lung cancer (NSCLC). METHODS: The authors conducted an immunohistochemical assessment of 157 surgically resected NSCLCs to evaluate the correlation between Bmi1 and EZH2 expression and various features, including clinical, clinicopathologic, and biologic characteristics. RESULTS: Normal bronchial epithelia revealed abundant expression of Bmi1 and sporadic expression of EZH2. Patients who had high EZH2 expression in tumor cells had a poorer prognosis than patients who had low EZH2 expression in tumor cells all pathologic stages of NSCLC (P ¼.001) and in pathologic stage I NSCLC (P ¼.006). Multivariate analysis revealed that high EZH2 expression was a independent, unfavorable prognostic factor in patients with pathologic stage I disease (P ¼.048). High EZH2 expression was correlated significantly with nonadenocarcinoma histology (P ¼.001), moderate and poor differentiation (P ¼.001), advanced pathologic tumor classification (P ¼.02), and high Ki-67 and cyclin E labeling indices (P < .001). Bmi1 expression, in contrast, was not a significant prognostic factor and was not correlated with any clinicopathologic factors other than early pathologic tumor classification. CONCLU-SIONS: Bmi1 and EZH2 had characteristic and distinctive expression in NSCLCs. High EZH2 expression was correlated with tumor aggressiveness and may provide a novel prognostic marker for NSCLCs. Cancer 2010;116:3015-24.

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DLL3 regulates the migration and invasion of small cell lung cancer by modulating Snail

et al. 2019

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Delta‐like protein 3 ( DLL 3) is a ligand of Notch signaling, which mediates cell‐fate decisions and is tumor‐suppressive or oncogenic depending on the cellular context. Previous studies show that DLL 3 is highly expressed in small cell lung cancer ( SCLC ) but not in normal lung tissue, suggesting that DLL 3 might be associated with neuroendocrine tumorigenesis. However, its role in SCLC remains unclear. To investigate the role of DLL 3 in tumorigenesis in SCLC , we performed loss‐of‐function and gain‐of‐function assays using SCLC cell lines. In vitro analysis of cell migration and invasion by transwell assay showed that DLL 3 knockdown reduced migration and invasion of SCLC cells, whereas DLL 3 overexpression increased these activities. In addition, DLL 3 positively regulated SNAI 1 expression and knockdown of SNAI 1 attenuated the migration and invasion ability of SCLC cells. Moreover, upregulated DLL 3 expression induced subcutaneous tumor growth in mouse models. These results indicate that DLL 3 promoted tumor growth, migration and invasion in an SCLC model by modulating SNAI 1/Snail.

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Junko Kikuchi

Epigenetic therapy with 3-deazaneplanocin A, an inhibitor of the histone methyltransferase EZH2, inhibits growth of non-small cell lung cancer cells

Minichromosome maintenance (MCM) protein 4 as a marker for proliferation and its clinical and clinicopathological significance in non-small cell lung cancer

Vincristine‐resistant Human Cancer KB Cell Line and Increased Expression of Multidrug‐resistance Gene

Distinctive expression of the polycomb group proteins Bmi1 polycomb ring finger oncogene and enhancer of zeste homolog 2 in nonsmall cell lung cancers and their clinical and clinicopathologic significance

DLL3 regulates the migration and invasion of small cell lung cancer by modulating Snail

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