An oral malaria therapy: Curcumin-loaded lipid-based drug delivery systems combined with β-arteether

Abstract

Curcumin (CC), a potential antimalarial drug, has poor water solubility, stability and oral bioavailability. To circumvent these pitfalls, lipid-based drug delivery systems (LBDDSs) with a high CC loading (30mg/g) were formulated. In a biorelevant gastric medium, CC-LBDDSs formed particle sizes in the range of 30–40nm. During in vitro lipolysis, 90–95% of the CC remained solubilized, whereas 5–10% of the CC precipitated as an amorphous solid, with a high rate of re-dissolution in a biorelevant intestinal medium. The transport of the CC-LBDDS across Caco-2 monolayers was enhanced compared with the transport of free drug because of the increased CC solubility. In Plasmodium berghei-infected mice, modest antimalarial efficacy was observed following oral treatment with CC-LBDDSs. However, the combination therapy of CC-LBDDS with a subtherapeutic dose of β-arteether-LBDDS provided an increase in protection and survival rate that was associated with a significant delay in recrudescence. These findings suggest that the combination of oral CC and β-arteether lipid-based formulations may constitute a promising approach for the treatment of malaria.