Abstract

Abstract The polarity and accessibility to the interior of several dendrimers using phenanthrene, anthracene and tetrabenzonaphtalene as probe molecules have been investigated. In addition the prospective application of the dendrimers as drug carriers was evaluated by incorporating 5(6)-methylbenzo[1,2-c]1,2,5-oxadiazole N 1-oxide] (1) and 2′-(benzo[1,2-c] 1,2,5-oxadiazol-5(6)-yl(N1-oxide) methylidene]-1-methoxy methane hydrazide (2). These compounds have antichagasic therapeutic activity but very low water solubility, which limits their application. Polypropylene imine dendrimers with amine terminal groups (DAB-16AT and DAB-32AT) and polyamide amine (PAMAM) dendrimers with carboxylate terminal groups (PAMAM-32CT), with amine terminal groups, (PAMAM-8AT and PAMAM-32AT) and with hydroxyl terminal groups (PAMAM-32OHT) were chosen for this study. Approximately one molecule of phenanthrene or anthracene was encapsulated in PAMAM-32CT, PAMAM-32AT, PAMAM-32OHT and DAB-32AT dendrimers. However, slight encapsulation was observed working with PAMAM-8AT and DAB-16AT. The studies with tetrabenzonaphtalene show that the guest molecule might only be partially caged within the dendrimer host. However, for relatively insoluble solutes the efficiency to encapsulate can be dictated by the saturation in the aqueous phase besides the dendrimer capacity to dissolve it. These dendrimers are also able to encapsulate and consequently solubilize 1 and 2 oxadiazol. However, PAMAM dendrimers are better for encapsulation and retention due to guest-host specific interactions. These interactions can be diminished by lowering the pH to allow a controlled deliverance of the drug. Keywords: DendrimersPolymersEncapsulationAntichagasic activitySolubilityHost-guest interactions Acknowledgements Financial support from the Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET-Argentina), Agencia Nacional de Promoción Científica y Tecnológica (FONCYT-Argentina), Secretaría de Ciencia y Técnica de la Universidad Nacional de Río Cuarto (SECYT-UNRC), is gratefully acknowledged.