Kyungsun Choi1, Chulhee Choi. 1. Laboratory of Computational Cell Biology, Department of Bio and Brain Engineering, KAIST, Daejeon, Korea.
Abstract
PURPOSE: Malignant astrocytomas are among the commonest primary brain tumors and they have a grave prognosis, and so there is an urgent need to develop effective treatment. In this study, we investigated the molecular mechanisms that are responsible for the anti-tumor effect of ginsenosides on human astrocytoma cells. MATERIALS AND METHODS: We tested 13 different ginsenosides for their anti-tumor effect on human malignant astrocytoma cells in conjunction with Fas stimulation. In addition, the cell signaling pathways were explored by using pharmacological inhibitors and performing immunoblot analysis. DCF-DA staining and antioxidant experiments were performed to investigate the role of reactive oxygen species as one of the apoptosis-inducing mechanisms. RESULTS: Among the 13 different ginsenoside metabolites, compound K and Rh(2) induced apoptotic cell death of the astrocytoma cells in a caspase- and p38 MAPK-dependent manner, yet the same treatment had no cytotoxic effect on the primary cultured human astrocytes. Combined treatment with ginsenosides and Fas ligand showed a synergistic cytotoxic effect, which was mediated by the reduction of intracellular reactive oxygen species. CONCLUSION: These results suggest that ginsenoside metabolites in combination with Fas ligand may provide a new strategy to treat malignant astrocytomas, which are tumors that are quite resistant to conventional anti-cancer treatment.
PURPOSE:Malignant astrocytomas are among the commonest primary brain tumors and they have a grave prognosis, and so there is an urgent need to develop effective treatment. In this study, we investigated the molecular mechanisms that are responsible for the anti-tumor effect of ginsenosides on humanastrocytoma cells. MATERIALS AND METHODS: We tested 13 different ginsenosides for their anti-tumor effect on human malignant astrocytoma cells in conjunction with Fas stimulation. In addition, the cell signaling pathways were explored by using pharmacological inhibitors and performing immunoblot analysis. DCF-DA staining and antioxidant experiments were performed to investigate the role of reactive oxygen species as one of the apoptosis-inducing mechanisms. RESULTS: Among the 13 different ginsenoside metabolites, compound K and Rh(2) induced apoptotic cell death of the astrocytoma cells in a caspase- and p38 MAPK-dependent manner, yet the same treatment had no cytotoxic effect on the primary cultured human astrocytes. Combined treatment with ginsenosides and Fas ligand showed a synergistic cytotoxic effect, which was mediated by the reduction of intracellular reactive oxygen species. CONCLUSION: These results suggest that ginsenoside metabolites in combination with Fas ligand may provide a new strategy to treat malignant astrocytomas, which are tumors that are quite resistant to conventional anti-cancer treatment.
Entities:
Keywords:
Apoptosis; Astrocytoma; Fas; Ginsenoside; Reactive oxygen species
Authors: C Scaffidi; S Fulda; A Srinivasan; C Friesen; F Li; K J Tomaselli; K M Debatin; P H Krammer; M E Peter Journal: EMBO J Date: 1998-03-16 Impact factor: 11.598
Authors: C Choi; J Y Park; J Lee; J H Lim; E C Shin; Y S Ahn; C H Kim; S J Kim; J D Kim; I S Choi; I H Choi Journal: J Immunol Date: 1999-02-15 Impact factor: 5.422