Since the introduction of cisplatin into clinical practice a few decades ago, the topic of metal-based drugs has expanded significantly. Recent examples emphasize on metallosupramolecules as an emerging class of compounds with diverse properties. They can trigger unique cellular events in malignant cells or serve as molecular hosts for various biologically active compounds, including anticancer agents. The anthracene-shelled M2L4 coordination nanocapsules under research have already proved very high anticancer potency with remarkable selectivity and lack of cross-resistance. In this study, we provide an oncopharmacological evaluation of the Pt(II)- and Pd(II)-clipped M2L4 nanocapsules; we report a thorough analysis of their synergistic effects in combined treatments with the pleiotropic anticancer agent curcumin. We examined changes in cellular expression of several apoptosis-related proteins in a panel of tumor cell lines with different chemosensitivity towards cisplatin, i.e. HT-29, HL-60 and its resistant strains HL-60/CDDP and HL-60/Dox, in order to assess the molecular mechanisms of their antitumor activity The results of the immunoassay concluded activation of the mitochondrial apoptotic pathway in all the screened tumor lines. A prevalent modulation of the extrinsic apoptotic signaling cascade was observed in the chemoresistant variants. Curcumin interactions of the tested compounds were estimated against the cisplatin-refractory cell line HT-29 via the Chou-Talalay method (CTM), whereby the palladium species yielded superior synergistic activity as compared to their platinum analogues.
Keywords: Apoptosis; Cisplatin resistance; Collateral sensitivity; Curcumin; Metallosupramolecules; Synergism.