Mariño-Ocampo, NoryF. Rodríguez, DiegoGuerra Díaz, DanielZúñiga-Núñez, DanielDuarte, YorleyFuentealba, DenisC. Zacconi, Flavia2023-03-242023-03-242023-03International Journal of Molecular SciencesOpen AccessVolume 24, Issue 5March 2023 Article number 490016616596https://repositorio.unab.cl/xmlui/handle/ria/47855IDEXACIÓN:SCOPUSDirect FXa inhibitors are an important class of bioactive molecules (rivaroxaban, apixaban, edoxaban, and betrixaban) applied for thromboprophylaxis in diverse cardiovascular pathologies. The interaction of active compounds with human serum albumin (HSA), the most abundant protein in blood plasma, is a key research area and provides crucial information about drugs’ pharmacokinetics and pharmacodynamic properties. This research focuses on the study of the interactions between HSA and four commercially available direct oral FXa inhibitors, applying methodologies including steady-state and time-resolved fluorescence, isothermal titration calorimetry (ITC), and molecular dynamics. The HSA complexation of FXa inhibitors was found to occur via static quenching, and the complex formation in the ground states affects the fluorescence of HSA, with a moderate binding constant of 104 M−1. However, the ITC studies reported significantly different binding constants (103 M−1) compared with the results obtained through spectrophotometric methods. The suspected binding mode is supported by molecular dynamics simulations, where the predominant interactions were hydrogen bonds and hydrophobic interactions (mainly π–π stacking interactions between the phenyl ring of FXa inhibitors and the indole moiety of Trp214). Finally, the possible implications of the obtained results regarding pathologies such as hypoalbuminemia are briefly discussed. © 2023 by the authors.enapixaban; betrixaban; commercially available FXa inhibitors; direct oral FXa inhibitors; edoxaban; fluorescence; FXa inhibitors; human serum albumin; isothermal titration calorimetry; molecular modeling; rivaroxabanArtículo