Litcius/Paper detail

Plant-Derived Vesicles: A New Era for Anti-Cancer Drug Delivery and Cancer Treatment

Yuying Zhao, Hanxu Tan, Juping Zhang, Bo Pan, Neng Wang, Tongkai Chen, Yafei Shi, Zhiyu Wang

2023International Journal of Nanomedicine38 citationsDOIOpen Access PDF

Abstract

Lipid-structured vesicles have been applied for drug delivery system for over 50 years. Based on their origin, lipid-structured vesicles are divided into two main categories, namely synthetic lipid vesicles (SLNVEs) and vesicles of mammalian origin (MDVEs). Although SLNVEs can stably transport anti-cancer drugs, their biocompatibility is poor and degradation of exogenous substances is a potential risk. Unlike SLNVEs, MDVEs have excellent biocompatibility but are limited by a lack of stability and a risk of contamination by dangerous pathogens from donor cells. Since the first discovery of plant-derived vesicles (PDVEs) in carrot cell supernatants in 1967, emerging evidence has shown that PDVEs integrate the advantages of both SLNVEs and MDVEs. Notably, 55 years of dedicated research has indicated that PDVEs are an ideal candidate vesicle for drug preparation, transport, and disease treatment. The current review systematically focuses on the role of PDVEs in cancer therapy and in particular compares the properties of PDVEs with those of conventional lipid vesicles, summarizes the preparation methods and quality control of PDVEs, and discusses the application of PDVEs in delivering anti-cancer drugs and their underlying molecular mechanisms for cancer therapy. Finally, the challenges and future perspectives of PDVEs for the development of novel therapeutic strategies against cancer are discussed.

Topics & Concepts

Drug deliveryCancerCancer drugsCancer treatmentDrugMedicineCancer therapyPharmacologyNanotechnologyMaterials scienceInternal medicineExtracellular vesicles in diseaseRNA Interference and Gene DeliveryLipid Membrane Structure and Behavior