RESUMO
Thio-dimethylarsinic acid (thio-DMA) was detected in human urine after exposure to inorganic arsenic and arsenosugars consumed by marine algae. Our previous studies have shown that thio-DMA disturbed the cell cycle progression and arrested cells in mitosis, though the biological significance or the mechanism by which thio-DMA-induced mitotic phase accumulation occurs is yet to be understood. In this study, we showed that thio-DMA promotes the phosphorylation of BubR1 protein, which is one of the constituents of the spindle assembly checkpoint (SAC) complex and accumulates in the cell in mitotic phase. Binding of Mad2 to CDC20, also known as the marker of the mitotic checkpoint complex (MCC) formation during the activation of SAC, was enhanced and mitotic associated cell death by apoptosis was promoted in HeLa cells but not in HepG2 cells. Basal BubR1 protein level in HepG2 was 10-times lower than that of HeLa cells. Consequently, BubR1 knockdown HeLa cells were generated by small interfering RNA (siRNA) technique. The MCC formation and mitotic arrest induced by thio-DMA were completely inhibited in BubR1 knockdown cells. Moreover, BubR1 knockdown cells could survive in the medium containing higher concentrations of thio-DMA with some abnormalities such as larger cell size, huge nucleus, multiple nuclei, and abnormal DNA contents. Especially, cyclin B1 negative tetraploid cells, which signify interphase cells with tetraploid, increased and survived after 48-72 h treatment with thio-DMA. Thus, these results suggest that BubR1-mediated SAC activation and MCC formation are one of the defense systems for preventing the accumulation and survival of abnormal cells induced by thio-DMA.
