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Abstract
Background: To assess the efficacy of topotecan, a topoisomerase I specific inhibitor in S-phase, the reagent-induced apoptosis and cytotoxicity as well as related proteins expression, had been preliminarily investigated in human hepatoblastoma HepG2 cells. Methods: Microculture tetrazolium assay (MTT), HE staining, transmission electron microscopy (TEM), flow cytometry (FCM), quantitative immunocytochemistry (QI), gene tranfection and RNAi technology were employed to carry out the exploration. Results: Topotecan could potently kill HepG2 cells via inducing apoptosis and demonstrated strong cytotoxicity in a time, dose-dependent manner with IC50 of about 95 μ g/L. According to morphologic observation and FCM analyses, it was confirmed that the drug treatment, causing significant S-phase arrest, could trigger a typical interphase apoptosis, the main traits of which were identified as chromatin pycnosis and cytoplasm condensation. It was shown that the expression of Bcl-XL was simultaneously down-regulated with the up-regulation of Bcl-XS in cytoplasm, which was possibly a key downstream event following the topotecan-induced DNA damage in nucleus. The expression level of p27Kip1, a negative regulator in cell cycle at G1/S transient, was also elevated. Transfection of pcDNA 3.1-p27Kip1 into HepG2 cells could abrogate the cytotoxicity in a degree while silence of p27Kip1 with siRNA in drug treatments could significantly increased the chemosensitivity, strongly indicating that the up-regulation of p27Kip1 was not an apoptosis-promoting, but a self-rescue response against drug by moderate G0/G1 arrest. Conclusion: Topotecan had potent cytotoxicity against HepG2 cells by triggering an interphase apoptosis possibly mediated by increasing the ratio of Bcl-XS/Bcl-XL. Up-regulation of p27Kip1in TPT treatments could be a protective response for self-rescue and silence of the gene markedly augmented TPT cytotoxicity. Therefore, the experiment in vitro could provide a new idea for the clinical chemotherapy based on the combination of traditional drugs with the specific-siRNA targeted on the protective response gene.
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