The Cdk inhibitor flavopiridol enhances temozolomide-induced cytotoxicity in human glioma cells

The recent progress in chemotherapy for malignant gliomas is attributable to the introduction of the DNA-methylating agent temozolomide (TMZ); however, drug resistance remains a major issue. Previous studies have shown that TMZ induces prolonged arrest of human glioma cells in the G2/M phase of the...

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Bibliographic Details
Published in:Journal of neuro-oncology 2013-11, Vol.115 (2), p.169-178
Main Authors: Hayashi, Takuro, Adachi, Kazuhide, Ohba, Shigeo, Hirose, Yuichi
Format: Article
Language:English
Subjects:
Animals
Antineoplastic Agents, Alkylating - pharmacology
Brain Neoplasms - drug therapy
Brain Neoplasms - metabolism
Brain Neoplasms - pathology
Cell Cycle
Colony-Forming Units Assay
Comet Assay
Cyclin-Dependent Kinases - antagonists & inhibitors
Dacarbazine - analogs & derivatives
Dacarbazine - pharmacology
Drug Synergism
Female
Flavonoids - pharmacology
Fluorescent Antibody Technique
Glioma - drug therapy
Glioma - metabolism
Glioma - pathology
Humans
Immunoblotting
Laboratory Investigation
Medicine
Medicine & Public Health
Mice
Mice, Inbred BALB C
Neurology
Oncology
Piperidines - pharmacology
Protein Kinase Inhibitors - pharmacology
Tumor Cells, Cultured
Tumor Suppressor Protein p53 - metabolism
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Summary:The recent progress in chemotherapy for malignant gliomas is attributable to the introduction of the DNA-methylating agent temozolomide (TMZ); however, drug resistance remains a major issue. Previous studies have shown that TMZ induces prolonged arrest of human glioma cells in the G2/M phase of the cell cycle followed by a senescence-like phenomenon or mitotic catastrophe. These findings suggest that the G2 checkpoint is linked to DNA repair mechanisms. We investigated the effect of a cyclin-dependent kinase (Cdk) inhibitor flavopiridol (FP) that inhibits the action of Cdc2, a key protein in the G2 checkpoint pathway, on TMZ-treated glioma cells. Colony formation efficiency revealed that FP potentiated the cytotoxicity of TMZ in glioma cells in a p53-independent manner. This effect was clearly associated with the suppression of key proteins at the G2-M transition, accumulation of the cells exclusively at the G2 phase, and increase in a double-stranded DNA break marker (seen on performing immunoblotting). TMZ-resistant clones showed activation of the G2 checkpoint in response to TMZ, while FP treatment resensitized these clones to TMZ. FP also enhanced the cytotoxicity of TMZ in U87MG-AktER cells. Moreover, administration of TMZ and/or FP to nude mice with xenografted U87MG cells revealed that FP sensitized xenografted U87MG cells to TMZ in these mice. Our findings suggest that TMZ resistance could be promoted by enhanced DNA repair activity in the G2-M transition and that a Cdk inhibitor could suppress this activity, leading to potentiation of TMZ action on glioma cells.
ISSN:0167-594X
1573-7373
DOI:10.1007/s11060-013-1220-5