Comparative Study of Ferrocene- and Indene-Based Tamoxifen Derivatives of Different Molecular Flexibility on High-Mortality Cancer Cell Lines.

Abstract

Tamoxifen is a well-established selective estrogen receptor modulator (SERM) widely used in breast cancer treatment, yet its efficacy varies across tumor types. To enhance its antitumor potential, we previously synthesized and investigated novel ferrocene-linked (T5, T15) derivatives. This publication is a close continuation of this work, introducing a new indene-based (T6) derivative. Objectives: The main aim of this study was to further broaden our knowledge of the mechanism behind the increased antitumor effect of the ferrocene-linked drugs (T5 and T15) and compare it with a new, indene-based tamoxifen derivative, T6. The indene moiety was selected as a rigid, hydrophobic aromatic unit to probe pharmacological effects independent of ferrocene's redox activity. Methods: The compounds were tested on MCF7, MDA-MB231 and PANC1 cells. Cell viability was assessed with the AlamarBlue assay and the xCELLigence SP system. Reactive oxygen species (ROS) production was measured with the ROS Glo assay. Flow cytometry and RT-qPCR experiments were conducted to assess apoptosis and ROS regulation as well. Results: The modified compounds demonstrated an increased cell-viability-decreasing effect in breast (MCF7, MDA-MB-231) and pancreatic (PANC1) cancer cell lines, influencing both estrogen-receptor-dependent and -independent pathways. T6 led to G2/M phase arrest in PANC1 cells. Beyond cell cycle disruption, these derivatives significantly elevated ROS levels, contributing to apoptosis. Conclusions: Our findings suggest that these structural modifications retain tamoxifen's pharmacophore properties while expanding its mechanism of action, particularly through universal interactions independent of the ER status of tumor cells. The enhanced antitumor effects highlight the potential of these derivatives as promising candidates for improved cancer therapies.