Co-administration of zinc phthalocyanine and quercetin via hybrid nanoparticles for augmented photodynamic therapy

The photodynamic anticancer activity of a photosensitizer can be further increased by co-administration of a flavonoid. However, this requires that both molecules must be effectively accumulated at the tumor site. Hence, in order to enhance the activity of zinc phthalocyanine (ZnPc, photosensitizer), it was co-encapsulated with quercetin (QC, flavonoid) in lipid polymer hybrid nanoparticles (LPNs) developed using biodegradable & biocompatible materials and prepared using a single-step nanoprecipitation technique. High stability and cellular uptake, sustained release, inherent fluorescence, of ZnPC were observed after encapsulation in the LPNs, which also showed a higher cytotoxic effect in breast carcinoma cells (MCF-7) compared to photodynamic therapy (PDT) alone. In vivo studies in tumor-bearing Sprague Dawley rats demonstrated that the LPNs were able to deliver ZnPc and QC to the tumor site with minimal systemic toxicity and increased antitumor effect. Overall, the photodynamic effect of ZnPc was synergized by QC. This strategy could be highly beneficial for cancer management in the future while nullifying the side effects of chemotherapy. (c) 2021 Elsevier Inc. All rights reserved.

Automated summary

The co-encapsulation of zinc phthalocyanine and quercetin in lipid polymer hybrid nanoparticles significantly enhances the photodynamic anticancer activity. This strategy demonstrates good drug delivery and antitumor effects in in vivo experiments, offering promise as an important approach for future cancer therapy.