A critical analysis of the potential of iron heterobimetallic complexes in anticancer research.

Due to their diverse chemical properties and high ability to interact with biological molecules and cellular processes, transition metal-based compounds have emerged as promising candidates for cancer therapy. Iron complexes are among them, however, there is a gap in the comprehensive analysis of heterometallic iron complexes in the anticancer field. This review aims to fill this gap by summarizing recent progress in the study of Fe(II) and Fe(III) heterobimetallic complexes for anticancer applications and to gather important insights and future perspectives, with special emphasis on their theranostic capabilities. Works published between 2014 and 2024 were considered in this critical survey, that covers a range of complex types, including ferrocene in bimetallic complexes with Pt, Pd, Au, Ag, Ru, Rh, Ir, Cu, Re, Sn and Co; organometallic Fe-complexes with Ru and Ag; photoactive metal complexes with Pt and Co; and magnetic resonance imaging contrast agents with Gd and Mn. Studies conducted to determine the modes of action are highlighted and suggest the involvement of the metal species in reactive oxygen species generation within cells, the impact on apoptosis and cell cycle arrest, and many others. By pursuing interdisciplinary research, innovative theranostic platforms with enhanced efficacy, specificity, and clinical relevance can be developed for cancer management.