1.Centrosome amplification and multinuclear phenotypes are Induced by hydrogen peroxide.
Sunyoung CHAE ; Chawon YUN ; Haeryun UM ; Jae Ho LEE ; Hyeseong CHO
Experimental & Molecular Medicine 2005;37(5):482-487
Multinucleated cells resulted from mitosis defect have been noted in pathophysiological states of the cells such as inflammation, senescence and cancer. Since oxidative stress has been known to correlate with these pathophysiological conditions, we tested the effect of H2O2 on the cell cycle progression and formation of multinucleated cells. H2O2 induced a significant delay in cell cycle progression in Chang liver cells. Interestingly, H2O2 actively induced hyperamplification of centrosomes (> or =3) and multipolar spindle formation during mitosis and subsequently increased the generation of multinucleated cells. A significant increase of the phospho-ERK level was observed upon H2O2 treatment but PD98059, an MEK1/2 inhibitor, didn't reduce the frequency of cells with hyperamplified centrosomes. On the other hand, treatment of either H2O2 or adriamycin increased intracellular ROS levels and multinucleated cells, which were significantly suppressed by antioxidants, N-acetylcysteine and PDTC. Thus, our results suggest that oxidative stress can trigger centrosome hyperamplification and multinucleated cell formation, which may promote pathophysiological progression.
Cell Line
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Cell Nucleus/*drug effects/*metabolism
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Centrosome/*drug effects/*metabolism
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Gene Amplification
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Humans
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Hydrogen Peroxide/*pharmacology
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MAP Kinase Signaling System
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Mitotic Spindle Apparatus/drug effects
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Phenotype
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Reactive Oxygen Species/metabolism
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Research Support, Non-U.S. Gov't
2.Sec13 induces genomic instability in U2OS cells.
Choong Ryoul SIHN ; Eun Jung SUH ; Kee Ho LEE ; Sang Hoon KIM
Experimental & Molecular Medicine 2005;37(3):255-260
Sec13p has been known as an endoplasmic reticulum-Golgi transport protein. Recently, it has also been shown to be required for the formation of septation in the fission yeast Schizosaccharomyces pombe. In the present study, we focused on the role of a human homolog of Saccharomyces cerevisiae SEC13, Sec13 protein during mitosis in U2OS cells. We found that the expression of Sec13 was constant throughout the cell cycle, and localized to the kinetochores at metaphase during mitosis. By using green fluorescent protein technology, we observed that Sec13 is required for evasion of mitotic arrest in response to spindle damage, leading to G1-like phase and apoptotic cell death. In addition, cells expressing exogenous Sec13 showed giant nuclei compared to endogenous ones in the absence of nocodazole. These results demonstrate that Sec13 is involved in the regulation of the metaphase/anaphase transition and may be functionally associated with mitotic machinery to maintain genomic stability during mitosis.
Anaphase
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Antineoplastic Agents/pharmacology
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Cell Line, Tumor/drug effects/metabolism/pathology
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*G1 Phase
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*Genomic Instability
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Green Fluorescent Proteins/metabolism
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Humans
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Kinetochores/metabolism
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Membrane Proteins/*genetics/metabolism
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Metaphase
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Mitosis/*physiology
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*Mitotic Spindle Apparatus
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Nocodazole/pharmacology
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Osteosarcoma/genetics/metabolism/pathology
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Research Support, Non-U.S. Gov't