Dual cancer targeting using estrogen functionalized chitosan nanoparticles loaded with doxorubicin-estrone conjugate: A quality by design approach

Abstract

In this study, estrone was used as targeting functionality in chitosan nanoparticles (DoxEs-CSEsNPs) carrying doxorubicin-estrone conjugate for dual targeted intracellular delivery to breast cancer cells. Estrone was conjugated with Dox and CS and characterized by FTIR and FT-NMR spectroscopy. Dox/DoxEs containing CSEsNPs were prepared with ionic gelation method and for the effect of formulation variables a 3-factor, 3-level Box-Behnken design (BBD) was explored, which predict the responses like particle size (Y1) and percent entrapment efficiency (%EE) (Y2) when CSEs: TPP ratio (X1), sonication time (X2) and stirring speed (X3) were selected as independent variables. The Dox-CSEsNPs and DoxEs-CSEsNPs were characterized for size, shape, PDI, surface charge and thermal analysis. The drug entrapment efficiency was 66.33 ± 2.82% and 62.25 ± 2.63% for Dox-CSEsNPs and DoxEs-CSEsNPs formulation respectively. The in vitro release, haemolytic toxicity, and fluorescent microscopy studies were also assessed. Anticancer activity on the MCF-7 cell line indicated the higher potency of DoxEs-CSEsNPs as compared to Dox-CSEsNPs, DoxEs, and Dox solution. The findings are decisive for selective targeting of antineoplastic agents to the ERs, which indicate that the DoxEs loaded CSEsNPs were able to significantly improve the efficacy of Dox.