Targeted therapy for glioblastoma utilizing hyaluronic acid-engineered liposomes for adriamycin delivery

Abstract Glioblastoma (GBM) is a malignant tumor with highly heterogeneous and invasive characteristics leading to a poor prognosis. The CD44 molecule, which is highly expressed in GBM, has emerged as a highly sought-after biological marker. Therapeutic strategies targeting the cell membrane protein CD44 have emerged, demonstrating novel therapeutic potential. In this study, we constructed a nanodrug system (HA-Liposome@Dox) based on hyaluronic acid-engineered liposomes delivering adriamycin to target GBM. The system efficiently encapsulated Dox inside the liposomes through a hydrophilic-hydrophobic interaction mechanism, and the resulting HA-Liposome@Dox exhibited excellent loading efficacy, attributed to its uniform particle size distribution and negatively charged surface. Further evaluation revealed that HA-Liposome@Dox possessed excellent stability and safety and could promote the effective uptake of drug particles by CD44-overexpressing tumor cells, thus exerting a more potent cell-killing effect. Notably, in the treatment of GBM, HA-Liposome@Dox demonstrated significantly greater tumor growth inhibition compared to free Dox and prolonged the survival of tumor-bearing mice. Taken together, the present study not only verified the feasibility of HA-Liposome@Dox as an effective therapeutic tool against GBM and other CD44-positively expressing tumors, but also opened a promising new avenue for the clinical treatment of this type of refractory malignancies.