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Cancer Cell Resistance Against the Clinically Investigated Thiosemicarbazone COTI-2 Is Based on Formation of Intracellular Copper Complex Glutathione Adducts and ABCC1-Mediated Efflux

Julia H. Bormio Nunes, Sonja Hager, Marlene Mathuber, Vivien Pósa, Alexander Roller, Éva A. Enyedy, Alessia Stefanelli, Walter Berger, Bernhard K. Keppler, Petra Heffeter, Christian R. Kowol

2020Journal of Medicinal Chemistry56 citationsDOIOpen Access PDF

Abstract

COTI-2 is a novel anticancer thiosemicarbazone in phase I clinical trial. However, the effects of metal complexation (a main characteristic of thiosemicarbazones) and acquired resistance mechanisms are widely unknown. Therefore, in this study, the copper and iron complexes of COTI-2 were synthesized and evaluated for their anticancer activity and impact on drug resistance in comparison to metal-free thiosemicarbazones. Investigations using Triapine-resistant SW480/Tria and newly established COTI-2-resistant SW480/Coti cells revealed distinct structure-activity relationships. SW480/Coti cells were found to overexpress ABCC1, and COTI-2 being a substrate for this efflux pump. This was unexpected, as ABCC1 has strong selectivity for glutathione adducts. The recognition by ABCC1 could be explained by the reduction kinetics of a ternary Cu-COTI-2 complex with glutathione. Thus, only thiosemicarbazones forming stable, nonreducible copper(II)-glutathione adducts are recognized and, in turn, effluxed by ABCC1. This reveals a crucial connection between copper complex chemistry, glutathione interaction, and the resistance profile of clinically relevant thiosemicarbazones.

Topics & Concepts

ChemistrySemicarbazoneGlutathioneEffluxABCC1AdductCopperStereochemistryBiochemistryCombinatorial chemistryEnzymeOrganic chemistryATP-binding cassette transporterGeneTransporterDrug Transport and Resistance MechanismsMetal complexes synthesis and propertiesTrace Elements in Health