Design, Docking Analysis, and Structure–Activity Relationship of Ferrocene-Modified Tyrosine Kinase Inhibitors: Insights into BCR-ABL Interactions
2025
Irena Philipova | Mariyana Atanasova | Rositsa Mihaylova | Asine Dailova-Barzeva | Stefan M. Ivanov | Rumyana L. Simeonova | Georgi Stavrakov
Ferrocene (Fc), a redox-active organometallic scaffold, has attracted significant attention in medicinal chemistry due to its favorable physicochemical and pharmacological properties. The present study explores the therapeutic potential of novel Fc-functionalized analogues of imatinib and nilotinib, aimed at targeting BCR-ABL1+ chronic myeloid leukemia (CML) cells. A series of Fc-based derivatives (compounds 6, 9, 14, and 18) were synthesized by systematically substituting key pharmacophoric regions of the parent tyrosine kinase inhibitors with Fc units. The antiproliferative activity of these compounds was evaluated against four BCR-ABL1-positive leukemia cell lines (K-562, BV-173, AR-230, and LAMA-84), with imatinib serving as a reference drug. Biological assays revealed distinct structure&ndash:activity relationships. Compounds 6 and 9 demonstrated superior activity against the K-562 cell line, while compounds 14 and 18 exhibited enhanced potency and higher ligand efficiencies (LEs) against BV-173 and AR-230 cells compared to imatinib. Selectivity assays further indicated favorable toxicity profiles of compounds 9 and 14 toward malignant versus non-malignant cells. Molecular docking studies supported these findings, showing that Fc substitution alters binding interactions within the c-Abl kinase ATP-binding site while retaining key stabilizing contacts. Computationally predicted LEs showed strong correlation with experimental data, especially for K-562 and LAMA-84 cells, confirming the kinase as a relevant target.
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