In an attempt to prepare novel core shell nanocapsules, lipid and Stearic acid-Valine conjugate (Biosurfactant) based nanosystem was prepared to attain high drug loading of hydrophilic drug methotrexate (MTX), with sustained release. Antisolvent nanoprecipitation technique was employed for the formulation of nanoparticles (NPs). Optimized formulation depicted 209.6 ± 31.3 nm particle size, 0.209 ± 0.072 PDI and 14.98 ± 1.33 %w/w drug loading. In vitro release depicted biphasic release for 12 h with initial burst phase followed by sustained release phase. In vitro Haemolytic study on RBCs revealed haemocompatible nature of MTX-Biosurfactant NPs compared to Biotrexate® (Zydus). In vitro cell culture studies showed 3.33 folds and 3.50 folds increase in cellular uptake of MTX at 10 µg/ml and 15 µg/ml concentration respectively for developed nanoparticles with 4.16 folds decrease in IC50 value. Higher apoptosis and increased lysosomal membrane permeability were obtained in MTX-Biosurfactants NPs. AUC and T1/2 was found to increase by 2.55 and 3.25 folds respectively in pharmacokinetic study. Significant reduction in tumor burden and serum toxicity marker level depicted efficacy and safety respectively of the formulation as compared to Biotrexate®. RBCs morphology was retained after MTX-Biosurfactants NPs exposure proving its haemocompatibility in vivo.
Keywords: Core shell nanocapsule; Methotrexate; Reduced toxicity; Sustained release.
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