As a common treatment of human glioma, ionizing radiation (IR) was reported to result in cell cycle arrest. However, the mechanisms underlying IR-induced abnormal cell cycle remain largely unclear. Here we found that IR caused an elevated expression of B-Myb and cell cycle-related proteins, as well as G2/M phase arrest in U251 cells instead of U87 cells. However, the knockdown of B-Myb by small interfering RNAs ameliorated the increasing of cell cycle-related proteins and G2/M phase arrest induced by IR. Further analysis demonstrated that decreased-B-Myb enhanced the sensitivity of U251 cells to IR. Moreover, the establishment of H1299 cell line proved that B-Myb expression was associated with the status of p53. Immunoprecipitation (IP) and chromatin immunoprecipitation (CHIP) assay results indicated that mutant p53 and SP1 regulated the expression of B-Myb via different mechanisms. This study not only elucidated the role of B-Myb in IR-induced cell cycle alternation, but also provided insight into mechanism of B-Myb expression.
Keywords: B-Myb; Cell cycle; Glioma cells; Ionizing radiation; p53.
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