Dual-targeting nanomedicine achieves synergistic multimodal therapy for tumor

Abstract

Abstract Background The poor targeting delivery efficiency and limited efficacy of single therapeutic approach have consistently posed significant challenges in tumor management. Results In this research, we have conceived and synthesized a dual-targeting nanodrug delivery system denoted as PDA-DEM-Fe3O4@M, which incorporates a polydopamine nanoparticle (PDA) with photothermal properties, diethyl maleate (DEM) as a chemotherapy agent accelerating tumor apoptosis, iron oxide nanoparticles (Fe3O4) eliciting magnetic targeting effects, and tumor cell membranes (M) contributing to homologous targeting capabilities. The synergistic effect of PDA-induced photothermal therapy and DEM-mediated chemotherapy has been demonstrated in this study to exert a robust inhibitory and cytotoxic influence on tumor cells. Additionally, the biocompatibility of this system has also been demonstrated. Conclusions Through the synergistic effects of PDA’s photothermal therapy and DEM’s chemotherapy, this system demonstrated excellent inhibition and killing effects on tumor cells. Furthermore, we established its excellent biological safety profile. This study demonstrated the potential of this nanomaterial for clinical application in tumor therapy.