Abstract 4482: Development of small molecule inhibitors of lipocalin 2 for the treatment of aggressive cancers

Abstract

Abstract Lipocalin-2 (LCN2), a secreted protein pivotal in iron homeostasis, immune responses, siderophore transport, and epithelial cell differentiation. LCN2 is highly abundant in aggressive forms of many cancers including breast, pancreatic, ovarian, and esophageal cancer. Elevated LCN2 levels in aggressive tumors correlate with heightened cancer cell motility, proliferation, angiogenesis, invasion, and metastasis. After the protein folds it makes a barrel structure which encloses a three-calyx pocket that can bind and transport molecules. A first generation of small molecule inhibitors (SMIs) targeting LCN2 demonstrated efficacy in attenuating the proliferative capacity of Inflammatory breast cancer (IBC) cells. IBC stands as a rare and highly aggressive variant, accounting for 1 to 5% of all BC cases, with 20-30% presenting as de novo metastatic disease. In the previous studies the concentration of LCN2 inhibitors to reduce cell proliferation in 50% was around 10 µM. In pursuit of better LCN2 SMIs, we conducted in-silico analysis using a library of 369,000 ligands. Through the High-Performance Computer Facility at UPR Río Piedras, we employed AutoDock Vina for virtual screening, targeting the LCN2-calyx with Lys134 as the central coordinate. Docking protocols, predicting binding affinities, identified 8,162 out of 327,638 ligands that have been docked already with values below -9.6 kcal/mol for further consideration. The next phase involves subjecting these potential inhibitors to the SwissADME tool for a comprehensive evaluation of absorption, distribution, metabolism, and excretion parameters, as well as pharmacokinetics, drug-likeness, and medicinal chemistry considerations. The parameters to be evaluated are the Lipinski rules, which states that an orally active drug may have a maximum of one violation and the pann-assay interference compounds (PAINS) alerts tool, a source of false positives for biologically active compounds. The top candidates, exhibit binding affinities within the range of -11.5 to -12.2. After SwissADME filtering, we will re-rank the ligand list, identifying 30 commercially available candidates for subsequent cell viability assays in SUM149 (TNBC) and SUM190 (HER2+) cell lines. This multifaceted approach integrates computational methodologies with rigorous experimental validation, paving the way for potential therapeutic interventions in IBC treatment. Citation Format: Marienid Flores-Colón, Cristal A. Peña-Vázquez, Eliud Hernández-O'Farril, Luis E. Vázquez-Quiñones, Pablo E. Vivas-Mejía. Development of small molecule inhibitors of lipocalin 2 for the treatment of aggressive cancers [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 4482.