Unveiling the biological effects of DNA G-quadruplex ligands through multi-omics data integration.

G-quadruplexes (G4s) are non-canonical DNA structures that have proved to play a pivotal role in various biological processes, including telomere maintenance and gene expression regulation. Owing to their prevalence in tumor cells, G4s have emerged as promising targets for cancer therapy, with a substantial body of research demonstrating the potential of G4 ligands as anti-cancer tools. Nonetheless, a comprehensive multi-omics study to fully elucidate the mode of action of G-quadruplex ligands is still lacking.

Sensitization of melanoma cells to standard chemotherapy: G-quadruplex binders as synergistic agents.

The use of chemotherapeutics has achieved considerable success in cancer therapy; however, their toxicity can severely impact patients' health. In this study, aiming to reduce the doses and potential side effects of traditional chemotherapeutics, we systematically treated A375MM human melanoma cells with seven clinically approved antineoplastic drugs, in combination with three well-characterized G-quadruplex (G4) ligands, using either simultaneous or sequential dosing schedules. Interestingly, the G4 binders synergized with most of the investigated anticancer drugs, with the degree of synergism being strictly dependent on both the treatment schedule and the drug sequence employed.