Topoisomerase II (TOP2) resolves topologically entwined duplex DNA. It generates a transient DNA double-strand break intermediate, known as TOP2 cleavage complex (TOP2cc) that contains a covalent link between TOP2 and the 5'-terminus of the incised DNA duplex. Etoposide, a frontline anticancer drug, freezes the intermediate and forms irreversible TOP2ccs. Tyrosyl-DNA phosphodiesterase 2 (TDP2) is thought to repair irreversible TOP2ccs by hydrolyzing the phosphodiester bond between TOP2 and DNA after the proteasomal degradation of trapped TOP2ccs. However, the functional cooperation between TOP2 and proteasome in the repair of trapped TOP2ccs remains unknown. In this study, we analyze the repair of etoposide-induced TOP2ccs in and TDP2-deficient () TK6 cells in the absence and presence of MG132, a potent proteasome inhibitor. The results suggested that TOP2ccs were repaired by proteasome-dependent and proteasome-independent pathways. Both proteasome-dependent and proteasome-independent pathways were further subdivided into TDP2-dependent and TDP2-independent pathways, indicating that four pathways operate in the repair of TOP2ccs. In cell survival assays, MG132 increased the etoposide sensitivity of cells, supporting the TDP2-independent and proteasome-dependent pathway among these multiple repair pathways. We also demonstrated that TDP2 released TOP2 from DNA that contained etoposide-induced TOP2cc without proteolytic degradation . Taken together, the present findings uncover novel proteasome-independent mechanisms for the repair of TOP2ccs.
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