Unlocking Selective Anticancer Mechanisms: Dinuclear Manganese Superoxide Dismutase Mimetics Combined with Pt(II) Complexes.

ABSTRACT

We exploration the in vitro activities of the dinuclear Mn2L2Ac and Mn2L2 complexes (where HL = 2-{[di(2-pyridyl)methylamino]-methyl}phenol), possessing dual superoxide dismutase (SOD) and catalase (CAT) activity, both individually and in conjunction with various Pt(II)-complexes, either as mixtures or as the Mn2-Pt adducts. Our findings revealed a notable up to 50% enhancement in the viability of healthy human breast cells, contrasted with a viability decrease as low as 50% in breast cancer cells upon combined treatments with Mn2 SOD mimics and Pt(II) complexes. Specifically, we synthesized and characterized the self-assembled Mn2-Pt adducts (isolated Mn2L2Pt and in situ Mn2L2Pt'), linking Mn2L2-core with the carboxylate group of PtDAPCl2 (dichloro(2,3-diaminopropionic acid) platinum(II)). The SOD activity of the isolated Mn2L2Pt adduct (kSOD = 1.7 × 107 M-1 s-1) remained intact. We elucidated key mechanisms underlying the observed biological effects. We demonstrated that Mn2-containing formulations predominantly target mitochondrial processes, differently affecting the proteome of cancerous and healthy cells. They induced downregulation of H2S signaling and expression of mitochondrial complex I and III, as well as increased oxidative phosphorylation pathways and upregulation of EGFR in cancer cells. In contrast, healthy cells showed a decrease in EGFR expression and a moderate enrichment in oxidative phosphorylation pathways.