Hee Chung Kwon scite author profile

Hee Chung Kwon

5Publications

56Citation Statements Received

75Citation Statements Given

How they've been cited

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100

Affiliations

Korea Institute of Radiological and Medical Sciences

Publications

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Radioprotective Effect of Heat Shock Protein 25 on Submandibular Glands of Rats

Lee

Kwon

et al. 2006

The American Journal of Pathology

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Irradiation (IR) is a fundamental treatment modality for head and neck malignancies. However, a significant drawback of IR treatment is irreversible damage of salivary gland in the IR field. In the present study, we investigated whether heat shock protein (HSP) 25 could be used as a radioprotective molecule for radiation-induced salivary gland damage in rats. HSP25 as well as inducible HSP70 (HSP70i) that were delivered to the salivary gland via an adenoviral vector significantly ameliorated radiation-induced salivary fluid loss. Radiation-induced apoptosis, caspase-3 activation, and poly(ADP-ribose) polymerase cleavage in acinar cells, granular convoluted cells, and intercalated ductal cells were also inhibited by HSP25 or HSP70i transfer. The alteration of salivary contents, including amylase, protein, Ca ؉ , Cl ؊ , and Na ؉ , was also attenuated by HSP25 transfer. Histological analysis revealed almost no radiation-induced damage in salivary gland when HSP25 was transferred. Aquaporin 5 expression in salivary gland was inhibited by radiation; and HSP25 transfer to salivary gland prevented this alteration. The protective effect of HSP70i on radiationinduced salivary gland damage was less or delayed than that of HSP25. These results indicate that HSP25 is a good candidate molecule to protect salivary gland from the toxicity

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Application of bioluminescence imaging to therapeutic intervention of herpes simplex virus type I – Thymidine kinase/ganciclovir in glioma

et al. 2010

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Potential of adenoviral p53 gene therapy and irradiation for the treatment of malignant gliomas

Kim

Yang²,

Yoon³

et al. 2001

Int J Oncol

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Growth-inhibitory effect of adenovirus-mediated p53 gene transfer on medulloblastoma cell line, Daoy, harboring mutant p53

Lee¹,

Kang²,

Rhee³

et al. 2001

Child's Nervous System

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To improve the survival rate, gene therapy, such as the replacement of inactivated tumor suppressor genes, has become a new investigational adjuvant treatment modality for human malignancies. We investigated the effect of adenovirus(Ad)-mediated transfer of wildtype p53 tumor suppressor gene on the medulloblastoma cell line, Daoy, which harbors mutant-type p53 gene. At 50 multiplicity of infection (moi), immunohistochemical staining with p53 monoclonal antibody showed positive staining in all cells 2 days after Ad-CMV-p53 infection. The high expression of wild-type p53 protein was detected in Ad-CMV-p53-infected cells, and expression of wild-type p53 protein peaked on day 2 after the infection. The growth of Ad-CMV-p53-infected cells was greatly suppressed in vitro, and the Ad-CMV-p53 treatment significantly reduced the tumor mass in vivo. The mean weight of Ad-CMV- infected tumors was only 16% of those which were mock infected, and 25% of those which were Ad-CMV-beta-gal infected. On microscopic examination, Ad-CMV-p53-infected tumors showed numerous apoptotic bodies. This Ad-CMV-p53 gene transfer showed high transduction efficacy and expression, resulting in significant growth inhibition of Daoy harboring mutant type p53.

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Recovery From Radiation-induced Bone Marrow Damage by HSP25 Through Tie2 Signaling

Lee

Kwon

Chung

et al. 2012

International Journal of Radiation Oncology*Biology*Physics

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Hee Chung Kwon

Radioprotective Effect of Heat Shock Protein 25 on Submandibular Glands of Rats

Application of bioluminescence imaging to therapeutic intervention of herpes simplex virus type I – Thymidine kinase/ganciclovir in glioma

Potential of adenoviral p53 gene therapy and irradiation for the treatment of malignant gliomas

Growth-inhibitory effect of adenovirus-mediated p53 gene transfer on medulloblastoma cell line, Daoy, harboring mutant p53

Recovery From Radiation-induced Bone Marrow Damage by HSP25 Through Tie2 Signaling

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