The encapsulation of β-lapachone in 2-hydroxypropyl-β-cyclodextrin inclusion complex into liposomes: a physicochemical evaluation and molecular modeling approach.

Isabella M F Cavalcanti, Elisângela A M Mendonça, Mariane C B Lira, Sara B Honrato, Celso A Camara, Rosa V S Amorim, Josué Mendes Filho, Marcelo M Rabello, Marcelo Z Hernandes, Alejandro P Ayala, Nereide S Santos-Magalhães

Index: Eur. J. Pharm. Sci. 44(3) , 332-40, (2011)

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Abstract

The aim of this study was to encapsulate lapachone (β-lap) or inclusion complex (β-lap:HPβ-CD) in liposomes and to evaluate their physicochemical characteristics. In addition, the investigation of the main aspects of the interaction between β-lap and 2-hydroxypropyl-β-cyclodextrin (HPβ-CD), using both experimental and molecular modeling approaches was discussed. Furthermore, the in vitro drug release kinetics was evaluated. First, a phase solubility study of β-lap in HPβ-CD was performed and the β-lap:HPβ-CD was prepared by the freeze-drying technique. A 302-fold increase of solubility was achieved for β-lap in HPβ-CD solution with a constant of association K(1:1) of 961 M(-1) and a complexation efficiency of β-lap of 0.1538. (1)H NMR, TG, DSC, IR, Raman and SEM indicated a change in the molecular environment of β-lap in the inclusion complex. Molecular modeling confirms these results suggesting that β-lap was included in the cavity of HPβ-CD, with an intermolecular interaction energy of -23.67 kJ mol(-1). β-lap:HPβ-CD and β-lap-loaded liposomes presented encapsulation efficiencies of 93% and 97%, respectively. The kinetic rate constants of 183.95±1.82 μg/h and 216.25±2.34 μg/h were calculated for β-lap and β-lap:HPβ-CD-loaded liposomes, respectively. In conclusion, molecular modeling elucidates the formation of the inclusion complex, stabilized through hydrogen bonds, and the encapsulation of β-lap and β-lap:HPβ-CD into liposomes could provide an alternative means leading eventually to its use in cancer research.Copyright © 2011 Elsevier B.V. All rights reserved.