E. Shelley Hwang scite author profile

Glioblastoma remains an incurable brain disease due to the prevalence of its recurrence. Considerable evidence suggests that glioma stem-like cells are responsible for glioma relapse after treatment, which commonly involves ionizing radiation. Here, we found that fractionated ionizing radiation (2 Gy ⁄ day for 3 days) induced glioma stem-like cell expansion and resistance to anticancer treatment such as cisplatin (50 lM) or taxol (500 nM), or by ionizing radiation (10 Gy) in both glioma cell lines (U87, U373) and patient-derived glioma cells. Of note, concomitant increase of nitric oxide production occurred with the radiation-induced increase of the glioma stem-like cell population through upregulation of inducible nitric oxide synthase (iNOS). In line with this observation, downregulation of iNOS effectively reduced the glioma stem-like cell population and decreased resistance to anticancer treatment. Collectively, our results suggest that targeting iNOS in combination with ionizing radiation might increase the efficacy of radiotherapy for glioma treatment. (Cancer Sci 2013;

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Phloroglucinol suppresses metastatic ability of breast cancer cells by inhibition of epithelial‐mesenchymal cell transition

Kim

Suh

Yoo

et al. 2014

Cancer Science

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Metastasis is a challenging clinical problem and the primary cause of death in breast cancer patients. However, there is no therapeutic agent against metastasis of breast cancer cells. Here we report that phloroglucinol, a natural phlorotannin component of brown algae suppresses metastatic ability of breast cancer cells. Treatment with phloroglucinol effectively inhibited mesenchymal phenotypes of basal type breast cancer cells through downregulation of SLUG without causing a cytotoxic effect. Importantly, phloroglucinol decreased SLUG through inhibition of PI3K/AKT and RAS/RAF-1/ERK signaling. In agreement with in vitro data, phloroglucinol was also effective against in vivo metastasis of breast cancer cells, drastically suppressing their metastatic ability to lungs, and extending the survival time of mice. Collectively, our findings demonstrate a novel anticancer activity of phloroglucinol against metastasis of breast cancer cells, implicating its clinical relevance.

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Identification of a robust gene signature that predicts breast cancer outcome in independent data sets

et al. 2007

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A Polymorphic Memtransistor with Tunable Metallic and Semiconducting Channel

et al. 2023

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PKCδ activated by c-MET enhances infiltration of human glioblastoma cells through NOTCH2 signaling

et al. 2015

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Poor prognosis of glioblastoma (GBM) is attributable to the propensity of tumor cells to infiltrate into the brain parenchyma. Protein kinase C (PKC) isozymes are highly expressed or aberrantly activated in GBM. However, how this signaling node translates to GBM cell invasiveness remains unknown. Here, we report that among PKC isoforms, PKCδ is strongly associated with infiltration of GBM cells. Notably, PKCδ enhanced Tyr418 phosphorylation of the non-receptor tyrosine kinase SRC, which in turn activated STAT3 and subsequent NOTCH2 signaling, ultimately leading to GBM cell invasiveness. Furthermore, we showed that PKCδ was aberrantly activated in GBM cells by c-MET, a receptor tyrosine kinase hyperactivated in GBM. In agreement, inhibition either component in the c-MET/PKCδ/SRC/STAT3 signaling axis effectively blocked the NOTCH2 signaling and invasiveness of GBM cells. Taken together, our findings shed a light on the signaling mechanisms behind the constitutive activation of PKCδ signaling in GBM.

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E. Shelley Hwang

Fractionated radiation‐induced nitric oxide promotes expansion of glioma stem‐like cells

Phloroglucinol suppresses metastatic ability of breast cancer cells by inhibition of epithelial‐mesenchymal cell transition

Identification of a robust gene signature that predicts breast cancer outcome in independent data sets

A Polymorphic Memtransistor with Tunable Metallic and Semiconducting Channel

PKCδ activated by c-MET enhances infiltration of human glioblastoma cells through NOTCH2 signaling

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