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Start Over Author "Chang, Hyo Won" Publisher elsevier b.v.
16 results on '"Chang, Hyo Won"'

5. Enhancer of zeste homolog 2 (EZH2)-dependent sirtuin-3 determines sensitivity to glucose starvation in radioresistant head and neck cancer cells.

Author

Chang, Hyo Won, Park, Jung Je, Lee, Won Hyeok, Kim, Song Hee, Lee, Jong Cheol, Nam, Hae Yun, Kim, Mi Ra, Han, Myung Woul, Lee, Yoon Se, Kim, Sang Yoon, and Kim, Seong Who

Subjects
*HEAD & neck cancer, *CANCER cells, *GLUCOSE, *P53 antioncogene, *STARVATION, *CELL analysis
Abstract

Sirtuin 3 (SIRT3) regulates mitochondrial function as a mitochondrial deacetylase during oxidative stress. However, the specific regulatory mechanism and function of SIRT3 in radioresistant cancer cells are unclear. In this study, we aim to investigate how SIRT3 determines the susceptibility to glucose deprivation and its regulation in p53-based radioresistant head and neck cancer cells. We observed mitochondrial function using two established isogenic radioresistant subclones (HN3R-A [p53 null] and HN3R-B [p53 R282W]) with intratumoral p53 heterogeneity. Cell counting analysis was performed to evaluate cell proliferation and cell death. The correlation between the regulation of SIRT3 and enhancer of zeste homolog 2 (EZH2) was confirmed by immunoblotting and chromatin immunoprecipitation assay. p53-deficient radioresistant cells (HN3R-A) expression reduced SIRT3 levels and increased sensitivity to glucose deprivation due to mitochondrial dysfunction compared to other cells. In these cells, activation of SIRT3 significantly prevented glucose deprivation-induced cell death, whereas the loss of SIRT3 increased the susceptibility to glucose deficiency. We discovered that radiation-induced EZH2 directly binds to the SIRT3 promoter and represses the expression. Conversely, inhibiting EZH2 increased the expression of SIRT3 through epigenetic changes. Our findings indicate that p53-deficient radioresistant cells with enhanced EZH2 exhibit increased sensitivity to glucose deprivation due to SIRT3 suppression. The regulation of SIRT3 by EZH2 plays a critical role in determining the cell response to glucose deficiency in radioresistant cancer cells. Therefore, EZH2-dependent SIRT3 could be used as a predictive biomarker to select treatment options for patients with radiation-resistance. • p53-deficient radioresistant cells are sensitive to glucose starvation. • SIRT3 is a pivotal regulator of glucose deprivation-induced cell death. • EZH2 directly binds to the SIRT3 promoter and represses the expression of SIRT3. • EZH2-dependent SIRT3: a predictive biomarker for radiation-resistant patients. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Knockdown of β-catenin controls both apoptotic and autophagic cell death through LKB1/AMPK signaling in head and neck squamous cell carcinoma cell lines

Author

Chang, Hyo Won, Lee, Yoon Se, Nam, Hae Yun, Han, Myoung Wol, Kim, Hyo Jung, Moon, So Young, Jeon, Hyesung, Park, Jung Je, Carey, Thomas E., Chang, Sung Eun, Kim, Seong Who, and Kim, Sang Yoon

Subjects
*CATENINS, *APOPTOSIS, *CELL death, *CELLULAR signal transduction, *SQUAMOUS cell carcinoma, *CANCER cells, *HEAD & neck cancer
Abstract

Abstract: The Wnt/β-catenin pathway regulates the viability and radiosensitivity of head and neck squamous cancer cells (HNSCC). Increased β-catenin predisposes HNSCC patients to poor prognosis and survival. This study was conducted to determine the mechanism by which β-catenin regulates the viability of HNSCC. AMC-HN-3, -HN-8, UM-SCC-38, and -SCC-47 cells, which were established from human head and neck cancer specimens, and underwent cell death following β-catenin silencing. β-Catenin silencing significantly induced G1 arrest and increased the expression of Bax and active caspase-3, which demonstrates the sequential activation of apoptotic cascades following treatment of HNSCC with targeted siRNA. Intriguingly, β-catenin silencing also induced autophagy. Here, we confirm that the number of autophagic vacuoles and the expression of type II light chain 3 were increased in cells that were treated with β-catenin siRNA. These cell death modes are most likely due to the activation of LKB1-dependent AMPK following β-catenin silencing. The activated LKB1/AMPK pathway in AMC-HN-3 cells caused G1 arrest by phosphorylating p53 and suppressing mTOR signaling. In addition, treating AMC-HN-3 cells with LKB1 siRNA preserved cell viability against β-catenin silencing-induced cytotoxicity. Taken together, these results imply that following β-catenin silencing, HNSCC undergo both apoptotic and autophagic cell death that are under the control of LKB1/AMPK. To the best of our knowledge, these results suggest for the first time that novel crosstalk between β-catenin and the LKB1/AMPK pathway regulates the viability of HNSCC. This study thus presents new insights into our understanding of the cellular and molecular mechanisms involved in β-catenin silencing-induced cell death. [Copyright &y& Elsevier]

Published
2013
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7. Using YC-1 to overcome the radioresistance of hypoxic cancer cells

Author

Moon, So Young, Chang, Hyo Won, Roh, Jong-Lyel, Kim, Gui Chull, Choi, Seung-Ho, Lee, Sang-wook, Cho, Kyung-Ja, Nam, Soon Yuhl, and Kim, Sang Yoon

Subjects
*CANCER cells, *HYPOXEMIA, *RADIOTHERAPY, *SQUAMOUS cell carcinoma, *LARYNGEAL cancer, *COBALT, *FLOW cytometry, *IRRADIATION
Abstract

Summary: Targeting hypoxia-inducible factor-1 (HIF-1) active cells in tumors may be an excellent strategy to improve the outcome of radiation therapy. On the basis of the reported role of YC-1 as a HIF-1 inhibitor with anti-cancer activity, we tested the therapeutic efficacy of YC-1 against radioresistance in vitro. The AMC-HN3 cancer cell line, developed from squamous cell carcinoma of the larynx, was cultured under hypoxic conditions or in the presence of cobalt chloride. Both treatments induced nuclear accumulation of HIF-1α protein. Cells cultured under normoxic or hypoxic conditions with and without YC-1 treatment were irradiated and analyzed using flow cytometry and clonogenic assays. In the absence of YC-1 treatment, irradiation induced a greater cytotoxic effect in normoxic cells than in cobalt-treated cells. Treatment of cobalt-treated cells with YC-1 effectively inhibited HIF-1α expression, and enhanced the sensitivity of cells to radiation, decreasing the surviving fraction to that of normoxic cells. Flow cytometry confirmed these results, showing that the sub-G1 fraction was increased in YC-1-treated hypoxic cells after irradiation. Our results suggest that YC-1 treatment may be an effective therapeutic strategy for overcoming the radioresistance of HIF-1α-expressing, hypoxic cancer cells. [Copyright &y& Elsevier]

Published
2009
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8. Peroxiredoxin IV Protects Cells From Radiation-Induced Apoptosis in Head-and-Neck Squamous Cell Carcinoma

Author

Park, Jung Je, Chang, Hyo Won, Jeong, Eun-Jeong, Roh, Jong-Lyel, Choi, Seung-Ho, Jeon, Sea-Yuong, Ko, Gyung Hyuck, and Kim, Sang Yoon

Subjects
*THERAPEUTIC use of enzymes, *CANCER radiotherapy, *SQUAMOUS cell carcinoma, *HEAD & neck cancer patients, *ANTIOXIDANTS, *ANTISENSE DNA, APOPTOSIS prevention
Abstract

Purpose: Human peroxiredoxins (Prxs) are known as a family of thiol-specific antioxidant enzymes, among which Prx-I and –II play an important role in protecting cells from irradiation-induced cell death. It is not known whether Prx-IV also protects cells from ionizing radiation (IR). Methods and Materials: To evaluate the protective role of Prx-IV in IR, we transfected full-length Prx-IV cDNA into AMC-HN3 cells, which weakly express endogenous Prx-IV, and knocked down the expression of Prx-IV with siRNA methods using AMC-HN7 cells, which express high levels of endogenous Prx-IV. Radiosensitivity profiles in these cells were evaluated using clonogenic assay, FACS analysis, cell viability, and TUNEL assay. Results: Three Prx-IV expressing clones were isolated. Prx-IV regulated intracellular reactive oxygen species (ROS) levels and made cells more resistant to IR-induced apoptosis. Furthermore, the knockdown of Prx-IV with siRNA made cells more sensitive to IR-induced apoptosis. Conclusion: The results of these studies suggest that Prx-IV may play an important role in protecting cells from IR-induced apoptosis in head-and-neck squamous cell carcinoma. [Copyright &y& Elsevier]

Published
2009
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9. Expression of Ku80 correlates with sensitivities to radiation in cancer cell lines of the head and neck

Author

Chang, Hyo Won, Kim, Sang Yoon, Yi, So-Lyoung, Son, Se-Hee, Song, Do Young, Moon, Su Young, Kim, Jong Hoon, Choi, Eun Kyung, Ahn, Seung Do, Shin, Seong Soo, Lee, Kang Kyoo, and Lee, Sang-wook

Subjects
*CANCER cells, *RADIATION, *DNA, *HEAD & neck cancer, *CELL cycle, *PROTEIN metabolism, *ANTIGENS, *APOPTOSIS, *CELL physiology, *HEAD tumors, *DOSE-response relationship (Radiation), *NECK tumors, *POLYMERASE chain reaction, *STEM cells, *WESTERN immunoblotting, *DNA-binding proteins, *REVERSE transcriptase polymerase chain reaction, *CANCER cell culture, *PHYSIOLOGICAL effects of radiation
Abstract

Summary: The Ku protein is essential for the repair of a majority of DNA double-strand breaks in mammalian cells. The purpose of this study was to investigate the relationship between the expression of Ku70/80 and sensitivity to radiation in cancer cell lines of the head and neck. The sensitivity to radiation in various head and neck cancer cell lines (AMC-HN-1 to -9) was analyzed by colony forming assay. Of the nine cell lines examined, the most radiosensitive cell line (AMC-HN-3) and the most radioresistant cell line (AMC-HN-9) were selected for this experiments. The expression of Ku70/80 was examined after irradiation using real time PCR, Western blotting and immunofluorescence in two different cell lines. Cell cycle distribution after irradiation were analysed. A differential radioresponse was demonstrated by expression of Ku70/80 in AMC-HN-3 and AMC-HN-9 cells. While the expression of Ku70 was slightly increased in the radioresistant AMC-HN-9 cell line, the expression of Ku80 was remarkably increased, suggesting a correlation between Ku80 expression and radiation resistance. Overexpression of Ku80 plays an important role in the repair of DNA damage induced by radiation. Ku80 expression may provide an effective predictive assay of radiosensitivity in head and neck cancers. [Copyright &y& Elsevier]

Published
2006
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10. p53-dependent glutamine usage determines susceptibility to oxidative stress in radioresistant head and neck cancer cells.

Author

Chang, Hyo Won, Lee, MyungJin, Lee, Yoon Sun, Kim, Song Hee, Lee, Jong Cheol, Park, Jung Je, Nam, Hae Yun, Kim, Mi Ra, Han, Myung Woul, Kim, Seong Who, and Kim, Sang Yoon

Subjects
*REACTIVE oxygen species, *HEAD & neck cancer, *CANCER cells, *OXIDATIVE stress, *GLYCOLYSIS, *BIOMARKERS
Abstract

The manner in which p53 maintains redox homeostasis and the means by which two key metabolic elements, glucose and glutamine, contribute to p53-dependent redox stability remain unclear. To elucidate the manner in which p53 deals with glucose-deprived, reactive oxygen species (ROS)-prone conditions in this regard, two isogenic cancer subclones (HN3R-A and HN3R-B) bearing distinct p53 mutations as an in vitro model of intratumoral p53 heterogeneity were identified. Following cumulative irradiation, the subclones showed a similar metabolic shift to aerobic glycolysis and increasing NADPH biogenesis for cellular defense against oxidative damage irrespective of p53 status. The radioresistant cancer cells became more sensitive to glycolysis-targeting drugs. However, in glucose-deprived and ROS-prone conditions, HN3R-B, the subclone with the original p53 increased the utilization of glutamine by GLS2, thereby maintaining redox homeostasis and ATP. Conversely, HN3R-A, the p53-deficient radioresistant subclone displayed an impairment in glutamine usage and high susceptibility to metabolic stresses as well as ROS-inducing agents despite the increased ROS scavenging system. Collectively, our findings suggest that p53 governs the alternative utilization of metabolic ingredients, such as glucose and glutamine, in ROS-prone conditions. Thus, p53 status may be an important biomarker for selecting cancer treatment strategies, including metabolic drugs and ROS-inducing agents, for recurrent cancers after radiotherapy. • ROS induces cell death of p53-deficient radioresistant cells in glucose starvation. • p53 regulates glutamine utilization via GLS2 under glucose deprivation conditions. • A deficit in p53-dependent glutamine usage makes cancer cells susceptible to ROS. • p53-dependent GLS2 may be an important biomarker for recurrent cancer treatment. [ABSTRACT FROM AUTHOR]

Published
2021
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11. Metronomic oral doxorubicin in combination of Chk1 inhibitor MK-8776 for p53-deficient breast cancer treatment.

Author

Lee, Hanul, Choi, Jeong Uk, Chung, Seung Woo, Kim, Gui Chul, Kim, Sang Yoon, Byun, Youngro, Chang, Hyo Won, Kim, Ji Won, Kweon, Seho, Mahmud, Foyez, and Son, Woo-Chan

Subjects
*DOXORUBICIN, *CANCER chemotherapy, *KINASE inhibitors, *P53 protein, *BREAST cancer treatment
Abstract

Abstract Metronomic chemotherapy, which is defined as a low-dose and frequent administration of cytotoxic drugs without drug-free breaks, has been recently emerged as an alternative to traditional MTD therapy and has shown therapeutic benefit in breast cancer patients in numbers of clinical studies. Unlike MTD, metronomic chemotherapy acts by multiple mechanisms including antiangiogenic effect and immunomodulation, but the direct cytotoxic effect only playing a minor role due to the lowered dose. In this light, within the limits of p53-deficient breast cancer, we demonstrate the enhanced anticancer effect of metronomic chemotherapy using doxorubicin when combined with Chk1 inhibitor MK-8776 by specifically augmenting the direct cytotoxic effect on cancer cells. Since the oral drug is greatly favored in metronomic chemotherapy due to the frequent and potential long-term administration, we prepared an oral doxorubicin by producing an ionic complex with deoxycholic acid, which showed sufficient bioavailability and anticancer effect when administered orally. MK-8776 selectively enhanced the cytotoxic effect of low-concentration doxorubicin in p53-deficient breast cancer cells by abrogating the Chk1-dependent cell cycle arrest in vitro. Consistently, combining MK-8776 significantly improved the anticancer effect of the daily administered oral doxorubicin in p53-deficient breast cancer xenografts especially in a lower dose of doxorubicin without evident systemic toxicities. Combination therapy of MK-8776 and metronomic oral doxorubicin would be thus promising in the treatment of p53-deficient breast cancer benefited from the augmented direct cytotoxic effect and low risk of toxicities. [ABSTRACT FROM AUTHOR]

Published
2018
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12. EphA3 maintains radioresistance in head and neck cancers through epithelial mesenchymal transition.

Author

Kim, Song Hee, Lee, Won Hyeok, Kim, Seong Who, Je, Hyoung Uk, Lee, Jong Cheol, Chang, Hyo Won, Kim, Young Min, Kim, Kyungbin, Kim, Sang Yoon, and Han, Myung Woul

Subjects
*RADIOTHERAPY, *CANCER treatment, *METASTASIS, *HEAD & neck cancer, *CANCER cells, *LARYNGEAL cancer
Abstract

Radiotherapy is a well-established therapeutic modality used in the treatment of many cancers. However, radioresistance remains a serious obstacle to successful treatment. Radioresistance can cause local recurrence and distant metastases in some patients after radiation treatment. Thus, many studies have attempted to identify effective radiosensitizers. Eph receptor functions contribute to tumor development, modulating cell-cell adhesion, invasion, neo-angiogenesis, tumor growth and metastasis. However, the role of EphA3 in radioresistance remains unclear. In the current study, we established a stable radioresistant head and neck cancer cell line (AMC HN3R cell line) and found that EphA3 was expressed predominantly in the radioresistant head and neck cancer cell line through DNA microarray, real time PCR and Western blotting. Additionally, we found that EphA3 was overexpressed in recurrent laryngeal cancer specimens after radiation therapy. EphA3 mediated the tumor invasiveness and migration in radioresistant head and neck cancer cell lines and epithelial mesenchymal transition- related protein expression. Inhibition of EphA3 enhanced radiosensitivity in the AMC HN 3R cell line in vitro and in vivo study. In conclusion, our results suggest that EphA3 is overexpressed in radioresistant head and neck cancer and plays a crucial role in the development of radioresistance in head and neck cancers by regulating the epithelial mesenchymal transition pathway. [ABSTRACT FROM AUTHOR]

Published
2018
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13. Phosphorylation of PI3K regulatory subunit p85 contributes to resistance against PI3K inhibitors in radioresistant head and neck cancer.

Author

Han, Myung Woul, Ryu, In Sun, Lee, Jong Cheol, Kim, Song Hee, Chang, Hyo Won, Lee, Yoon Sun, Lee, Seulkina, Kim, Seong Who, and Kim, Sang Yoon

Subjects
*HEAD & neck cancer treatment, *RADIOTHERAPY, *DRUG resistance, *PHOSPHOINOSITIDES, *ANTINEOPLASTIC agents, *IMMUNOBLOTTING, *SMALL interfering RNA
Abstract

Objectives: PI3K/Akt/mTOR pathway is commonly activated in most cancers and is correlated with resistance to anticancer therapies such as radiotherapy. Therefore, PI3K is an attractive target for treating PI3K-associated cancers.Material and Methods: We investigated the basal expression and the expression after treatment of PI3K inhibitor or Src inhibitor of PI3K/Akt pathway-related proteins in AMC-HN3, AMC-HN3R, HN30 and HN31 cells by performing immunoblotting analysis. The sensitivity to PI3K inhibitors or Src inhibitor was analyzed by MTT assay and clonogenic assay. To determine the antitumoral activity of combination treatment with PI3K inhibitor and Src inhibitor, we used using xenograft mouse model.Results: We found that PI3K regulatory subunit p85 was predominantly phosphorylated in radioresistant head and neck cancer cell line (HN31), which showed resistance to PI3K inhibitors. Next, we investigated mechanism through which PI3K p85 phosphorylation modulated response to PI3K inhibitors. Of note, constitutive activation of Src was found in HN31 cells and upon PI3K inhibitor treatment, restoration of p-Src was occurred. Src inhibitor improved the efficacy of PI3K inhibitor treatment and suppressed the reactivation of both Src and PI3K p85 in HN31 cells. Furthermore, downregulation of PI3K p85 expression by using a specific siRNA suppressed Src phosphorylation.Conclusions: Together, our results imply the novel role of the PI3K regulatory subunit p85 in the development of resistance to PI3K inhibitors and suggest the presence of a regulatory loop between PI3K p85 and Src in radioresistant head and neck cancers with constitutively active PI3K/Akt pathway. [ABSTRACT FROM AUTHOR]

Published
2018
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14. Development of TRAIL Resistance by Radiation-Induced Hypermethylation of DR4 CpG Island in Recurrent Laryngeal Squamous Cell Carcinoma.

Author

Lee, Jong Cheol, Lee, Won Hyeok, Min, Young Joo, Cha, Hee Jeong, Han, Myung Woul, Chang, Hyo Won, Kim, Sun-A, Choi, Seung-Ho, Kim, Seong Who, and Kim, Sang Yoon

Subjects
*SQUAMOUS cell carcinoma, *LARYNGEAL cancer, *HEAD & neck cancer patients, *CANCER radiotherapy, *CANCER chemotherapy
Abstract

Purpose: There are limited therapeutic options for patients with recurrent head and neck cancer after radiation therapy failure. To assess the use of tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) as a salvage chemotherapeutic agent for recurrent cancer after radiation failure, we investigated the effect of clinically relevant cumulative irradiation on TRAIL-induced apoptosis. Methods and Materials: Using a previously established HN3 cell line from a laryngeal carcinoma patient, we generated a chronically irradiated HN3R isogenic cell line. Viability and apoptosis in HN3 and HN3R cells treated with TRAIL were analyzed with MTS and PI/annexin V-FITC assays. Western blotting and flow cytometry were used to determine the underlying mechanism of TRAIL resistance. DR4 expression was semiquantitatively scored in a tissue microarray with 107 laryngeal cancer specimens. Methylation-specific polymerase chain reaction and bisulfite sequencing for DR4 were performed for genomic DNA isolated from each cell line. Results: HN3R cells were more resistant than HN3 cells to TRAIL-induced apoptosis because of significantly reduced levels of the DR4 receptor. The DR4 staining score in 37 salvage surgical specimens after radiation failure was lower in 70 surgical specimens without radiation treatment (3.03 ± 2.75 vs 5.46 ± 3.30, respectively; P<.001). HN3R cells had a methylated DR4 CpG island that was partially demethylated by the DNA demethylating agent 5-aza-2′-deoxycytidine. Conclusion: Epigenetic silencing of the TRAIL receptor by hypermethylation of a DR4 CpG island might be an underlying mechanism for TRAIL resistance in recurrent laryngeal carcinoma treated with radiation. [ABSTRACT FROM AUTHOR]

Published
2014
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15. The prognostic value of hypoxia markers in T2-staged oral tongue cancer

Author

Roh, Jong-Lyel, Cho, Kyung-Ja, Kwon, Gui Young, Ryu, Chang Hwan, Chang, Hyo Won, Choi, Seung-Ho, Nam, Soon Yuhl, and Kim, Sang Yoon

Subjects
*TONGUE cancer, *HYPOXEMIA, *BIOMARKERS, *HEALTH outcome assessment, *SURGICAL excision, *HEAD & neck cancer patients, *PROGNOSIS
Abstract

Summary: Tumor hypoxia is associated with poorer outcome in patients with head and neck carcinomas, but little is known about hypoxia biomarkers in oral tongue cancer. We evaluated whether hypoxia biomarkers and clinicopathologic variables were prognostic predictors in patients with T2-staged squamous cell carcinoma (SCC) of the oral tongue. Tissue microarrays were constructed from formalin-fixed tumor blocks of 43 patients with T2-staged tongue SCCs treated by surgical resection and neck dissection. Tissue samples were stained with monoclonal antibodies to hypoxia-inducible factor (HIF)-1α, HIF-2α, carbonic anhydrase (CA)-9, glucose transporter (GLUT)-1, and erythropoietin receptor (EPOR). Locoregional control and survival rates were calculated by the Kaplan-Meier method, and prognostic factors were calculated from uni- and multivariate analyses. Tumor thickness was correlated with expression of CA-9 and GLUT-1 and nodal classification was correlated with GLUT-1 expression. The nodal metastasis rate was 51%, and the 5-year locoregional control and disease-specific survival (DSS) rates were 59% and 69%, respectively. Univariate analysis showed that HIF-1α and EPOR expression were significantly related to DSS. Multivariate analysis showed that EPOR expression was an independent predictor of DSS (P =0.030). EPOR expression may be an independent predictor for DSS in patients with T2-staged SCC of the oral tongue. [Copyright &y& Elsevier]

Published
2009
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