Extracellular Vesicles, Nanoparticles and Development of Anti-cancer Therapeutics

Dear Colleagues,

Extracellular vesicles (EVs), including exosomes and microvesicles, are membrane-enclosed particles that contain molecular content that is excreted from cells in both normal or diseased states, and they can modulate downstream targets. Isolated molecular content within EVs may provide insight into the state of cells. The combination of nanobiotechnology and extracellular vesicles (EVs) offers a dual opportunity for the development of novel therapeutics against cancer. In the last few decades, combinatorial approaches with nanoparticles have been a popular and effective method of treating cancers of almost every origin. Due to reluctant behavior of nanoparticles along with their low systemic toxicity, higher therapeutic efficacy, greater safety and biocompatibility, increased solubility, higher stability and faster delivery, such nanoparticles and EVs are attractive targets in the field of nanomedicine.

However, EVs have been largely acknowledged as intercellular messengers, allowing the exchange of lipids, proteins, and metabolites between secretory and target cells which trigger various cellular responses. Considering the established side effects of commercially available anti-cancerous drugs, nanoparticles and EVs can be passably absorbed by epithelial cells and immune cells, thereby averting the degradation of binding drugs and improving the pharmacokinetics and distribution characteristics. Moreover, such a combination also reduces the side effects of cytotoxic drugs and improves the curative effect of therapeutic drugs, enhancing tumor penetration, thus providing excellent tumor-targeting effects.

Most nanotherapeutics are often associated with poor efficacy due to the higher rate of clearance by the reticuloendothelial system, short half-lives, non-specific entrapment approaches, and endo-lysosomal mediated degradations. Alongside the technological development in the last decade, researchers have utilized several biologics, including EVs and non-biologics, which encompass organic, inorganic, and hybrid delivery systems that can be used to overcome such challenges.

This Special Issue welcomes both original papers and review articles addressing recent research and novel developments in the field of nanotherapeutics using EVs as biologics for cancer therapy, including in vitro, pre-clinical and clinical applications.

Prof. Dr. Goo-Bo Jeong
Prof. Dr. Alok Raghav
Guest Editors

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• cancer
• extracellular vesicles
• nanoparticles
• drug delivery
• engineered nanoparticles