Function of steroid hormone oestrogen that transactivates oestrogen receptor (ER) is expressed in multiple organs. Except for malignancies of gynaecological organs, ER remains largely unutilised as a target to treat cancers of ER-expressing brain, prostate, skin etc. We have previously developed oestrogen targeting cationic lipid molecule (ES-C10), which showed targeted killing of ER + breast and skin cancer cells. In this study, we explored the targeting ability of ES-C10 as a ligand as well as its additive killing effect (if any), when incorporated in two different liposomes (DCME and DCDE), carrying two anticancer molecules MCIS3 and Docetaxel™, respectively. DCME and DCDE exhibited higher cytotoxicity in ER + cancer cells than in ER - cancer or in non-cancer cells. Both liposomes induced ER-mediated cytotoxicity and caspase 3-induced apoptosis in ER + melanoma cells. Further, decreased levels of pAkt, and increased levels of PTEN and p53 were also observed. Both the targeted liposomes were least haemolytic. These selectively delivered drug-cargoes to tumour mass over other vital organs and induced better anti-tumour effect, which led to increased survivability than their respective controls. In conclusion, we demonstrated the development of two independent liposomal drug-delivery systems associated with an anticancer, oestrogen-structure based ligand for efficient, ER-mediated anti-melanoma effect.
Keywords: Oestrogen receptor; docetaxel; drug delivery; liposome; melanoma.