Computational insights into 131I-labeled hesperidin as a multi-target breast cancer therapeutic

Fakih, Taufik Muhammad and Novitasari, Dhania and Syaifudin, Mukh and Meiyanto, E. and Astirin, Okid Parama and Ikawati, Muthi and Muchtaridi, Muchtaridi (2025) Computational insights into 131I-labeled hesperidin as a multi-target breast cancer therapeutic. Journal of Pharmacy and Pharmacognosy Research, 12 (s1). 266 - 288. ISSN 07194250

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Abstract

Context: Breast cancer remains the second leading cause of cancer-related mortality worldwide, driven by uncontrolled cellular proliferation and metastasis. Natural radiopharmaceuticals have gained interest due to their potential for reduced side effects compared to synthetic agents. Among these, hesperidin and hesperetin, especially in iodinated forms, have emerged as promising therapeutic candidates targeting key breast cancer-related signaling pathways. Aims: To evaluate iodinated hesperidin derivatives as multi-target breast cancer therapeutics using molecular docking (AutoDock) and dynamics (GROMACS). Methods: Multi-target molecular docking and 100 ns molecular dynamics simulations were conducted to examine interactions with key breast cancer proteins: EGFR kinase, human estrogen receptor alpha (ER-α), and I-kappa-B-alpha/NF-kappa-B. Binding energies (�G) were computed, and complex stability was assessed using RMSD, RMSF, and MM-PBSA analyses. Pharmacokinetic and toxicity properties were also predicted. Results: Docking results indicated strong affinities for iodinated derivatives (-6.14 to -7.51 kcal/mol), notably with EGFR and ER-α. Molecular dynamics simulations confirmed enhanced stability and reduced structural fluctuations in iodinated complexes. MM-PBSA calculations showed improved binding free energies, supporting increased interaction strength. Despite lower solubility, ADME predictions suggested favorable gastrointestinal absorption and drug-likeness for iodinated hesperetin. Toxicity analyses predicted moderate nephrotoxicity and cardiotoxicity risks, with lower LD50 values, indicating a need for dose optimization. Conclusions: Iodinated hesperidin and hesperetin exhibit stable binding interactions and favorable pharmacological profiles, highlighting their potential as novel radiopharmaceuticals in breast cancer therapy. These findings warrant further preclinical investigation and optimization for future drug development. © 2025 Journal of Pharmacy & Pharmacognosy Research, 13 (s1)

Item Type: Article
Additional Information: Cited by: 0; All Open Access; Gold Open Access
Uncontrolled Keywords: cytochrome P450; epidermal growth factor receptor; estrogen receptor alpha; hesperetin; hesperidin; I kappa B kinase alpha; immunoglobulin enhancer binding protein; iodine 131; Article; binding affinity; blood brain barrier; breast cancer; cancer therapy; carcinogenicity; cardiotoxicity; convolutional neural network; drug absorption; drug distribution; drug excretion; drug metabolism; drug solubility; estrogen receptor positive breast cancer; gastrointestinal absorption; human; human epidermal growth factor receptor 2 positive breast cancer; hydrogen bond; immunotoxicity; LD50; ligand binding; lipophilicity; liver toxicity; lung toxicity; membrane permeability; molecular docking; molecular dynamics; molecular mechanics; mutagenicity; nephrotoxicity; neurotoxicity; protein interaction; protein stability; recurrent neural network; water solubility
Subjects: R Medicine > RS Pharmacy and materia medica
Divisions: Faculty of Pharmacy
Depositing User: Muh Aly Mubarok
Date Deposited: 24 Feb 2026 01:50
Last Modified: 24 Feb 2026 01:50
URI: https://ir.lib.ugm.ac.id/id/eprint/24312

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