Abstract
Tyrosyl-DNA phosphodiesterase 1 (TDP1) is an important DNA repair enzyme and its functioning is considered as one of the possible reasons for tumor resistance to topoisomerase 1 (TOP1) poisons such as topotecan. Thus, TDP1 inhibitors in combination with topotecan may improve the effectiveness of anticancer therapy. TDP1 acts somehow in a phospholipase manner, depleting the phosphodiester bond between lipophilic tyrosine residue and 3' end of DNA; therefore, lipophilic molecules bearing aromatic substituents can interact with TDP1 and even possess high inhibitory activity, which is evidenced by data from the literature. Previously, we identified lipophilic nucleoside derivative (compound 6d, IC(50) = 0.82 µM) as an effective inhibitor of the purified enzyme TDP1 that enhances the cytotoxic, DNA-damaging, and antitumor effects of topotecan. However, the role of TDP1 inhibition in this synergistic effect remained not fully understood. In the present study, we have tested the hypothesis of a TDP1-dependent mechanism of action for compound 6d, showing that it sensitizes wild-type A549 lung cancer cells, but not TDP1 knockout cells, to the cytotoxic effects of topotecan. The sensitizing effect was absent in non-cancerous HEK293A cells regardless of TDP1 status. Additionally, we analyzed the effect of compound 6d and topotecan on the expression level of TOP1 and TDP1 to determine whether the observed synergy was due to direct TDP1 inhibition and/or changes in regulation of these enzymes. The data obtained shows that compound 6d did not affect TDP1 gene expression level in HEK293A and A549 WT cells. Thus, compound 6d most probably does not suppress the transcription or mRNA stability of TDP1, and the synergistic action of 6d with topotecan is related to TDP1 inhibtion.