Targeted delivery of EV peptide to tumor cell cytoplasm using lipid coated calcium carbonate nanoparticles

Intracellular-acting peptide drugs are effective for inhibiting cytoplasmic protein targets, yet face challenges with penetrating the cancer cell membrane. We have developed a lipid nanoparticle formulation that utilizes a pH-sensitive calcium carbonate complexation mechanism to enable the targeted delivery of the intracellular-acting therapeutic peptide EEEEpYFELV (EV) into lung cancer cells. Lipid-calcium-carbonate (LCC) nanoparticles were conjugated with anisamide, a targeting ligand for the sigma receptor which is expressed on lung cancer cells. LCC EV nanoparticle treatment provoked severe apoptotic effects in H460 non-small cell lung cancer cells in vitro. LCC NPs also mediated the specific delivery of Alexa- 488-EV peptide to tumor tissue in vivo, provoking a high tumor growth retardation effect with minimal uptake by external organs and no toxic effects