Novel peptide–drug conjugates with dual anticancer activity

Cationic antimicrobial peptides (AMPs), also called host defence peptides, have established antimicrobial and anticancer activities. Conjugation of an AMP to a bioactive molecule with complementary activity can address some of the clinical limitations of the peptide candidate. This approach has been particularly applied in antimicrobial applications of AMPs, but it remains relatively less explored in the generation of anticancer candidates. In this study, two usnic acid derivatives, based on hydrazinothiazole and benzylidenefuranone pharmacophore moieties, respectively, were conjugated to L-K6, a lysine/leucine-rich AMP, through a new pyrazole ligation intrinsically driven by the cargo molecule. Both components, the usnic acid derivative and the peptide, are selectively active against cancer cells, by targeting the human DNA repair enzyme tyrosyl-DNA phosphodiesterase 1 (TDP1) and through DNA damage, respectively. The two conjugates, based on a hydrazone linkage, exhibited pleiotropic effects, anging from reduction in the activity of the parent drugs to their conservation or even enhancement. Notably, the conjugates retained some anti-TDP1 activity and displayed intermediate, or even higher, cytotoxicities against glioblastoma cells, compared to their individual components.