Dual-ligand functionalized liposomes with iRGD/trastuzumab co-loaded with gefitinib and lycorine for enhanced metastatic breast cancer therapy

Personalized treatment strategies have greatly improved the efficacy of anticancer drugs. Nanocarriers, especially liposomes, function as excellent platform for the delivery of both hydrophilic and hydrophobic agents. iRGD is a peptide composed of 9-amino acid denoted as (iRGDP), enhances selective and intratumoral delivery of anticancer drugs. Trastuzumab (TMAB), mainly targets HER2-positive advanced stage breast cancer is an FDA-approved monoclonal antibody. Gefitinib (GEB) is an anticancer drug, effective against metastatic breast cancer (MBC), while Lycorine hydrochloride (LCOH), a naturally derived compound, possess both anti-inflammatory and anticancer properties. This research is mainly emphasizing on the preparation of GEB and LCOH-entrapped TPGS-COOH coated-liposomes, camouflaged with an antibody (TMAB) and cyclic peptide (iRGDP) for targeted delivery in MBC therapy. The developed multifunctional liposomes were studied for extensive in vitro cell line studies on MCF-7 cells. The half-maximum inhibitory concentration (IC-50) values of GEB and LCOH co-loaded single functionalized liposome (SFL) (iRGDP-LiP, and TMAB-LiP) and dual-functionalized liposome (DFL) (iRGDP-TMAB-LiP) on MCF-7 cells were 1.04 ± 0.023 μg/mL, 0.71 ± 0.018 μg/mL, and 0.56 ± 0.028 μg/mL, respectively. Inverted confocal laser scanning microscopy (ICLSM) revealed enhanced cellular internalization in SFL and DFL-treated groups tagged with coumarin-6 and rhodamine-B dye as compared to conventional liposome. The scratch assay revealed a marked reduction in cell migration, while DAPI staining confirmed enhanced nuclear condensation (NC) and nuclear fragmentation (NF) in SFL and DFL-treated groups. Moreover, flow cytometry demonstrated enhanced early and late apoptosis in SFL and DFL groups. These findings indicate that GEB and LCOH co-loaded multifunctional liposome holds promise as a multifaceted therapeutic approach for MBC therapy.