Dual targeting nanoparticles based on hyaluronic and folic acids as a promising delivery system of the encapsulated 4-Methylumbelliferone (4-MU) against invasiveness of lung cancer in vivo and in vitro

Abstract

Lung cancer is the most common cause of cancer death worldwide. Thereby, new treatment strategies as targeting nano-therapy present promising possibilities to control the aggressiveness of lung cancer. Dual CD44 and folate receptors targetable nanocapsule based on folic-polyethylene glycol-hyaluronic (FA-PEG-HA) were fabricated to improve the therapeutic activity of 4-Methylumbelliferone (4-MU) toward lung cancer. In this study, we fabricate 4-MU Nps as a hybrid polymeric (protamine) protein (albumin) nanocapsule, then functionalized by targeting layer to form 4-MU@FA-PEG-HA Nps with encapsulation efficacy 96.15%. The in vitro study of free 4-MU, 4-MU Nps and 4-MU@FA-PEG-HA Nps on A549 lung cancer cells reveal that the 4-MU Nps and 4-MU@FA-PEG-HA Nps were more cytotoxic than free 4-MU on A549 cells. The observed therapeutic activity of 4-MU@FA-PEG-HA Nps on urethane-induced lung cancer model, potentiality revealed a tumor growth inhibition via apoptotic mechanisms and angiogenesis inhibition. The results were supported by Enzyme-linked immunosorbent assay (ELIZA) of transforming growth factors (TGFβ1) and serum HA, histopathological analysis as well as immunohistochemical Ki67, CD44, Bcl-2 and caspace-3 staining. Moreover, 4-MU@FA-PEG-HA Nps exhibited a promising safety profile. Hence, it is expected that our developed novel nano-system can be used for potential application on tumor therapy for lung cancer.