Litcius/Paper detail

Disrupting the Redox Balance with a Diselenide Drug Delivery System: Synergistic or Antagonistic?

Yeon Su Choi, Kang Moo Huh, Min Suk Shim, In Suh Park, Yong‐Yeon Cho, Joo Young Lee, Hye Suk Lee, Han Chang Kang

2020Advanced Functional Materials37 citationsDOI

Abstract

Abstract Effective on‐demand release of therapeutics at an intracellular drug supply hub, the cytosol, is among the important steps for successful drug delivery. To improve cytosolic drug release, this study selects diselenide because the bond is cleaved by both glutathione (GSH) and reactive oxygen species (ROS) in the cytosol. Specifically, upon diselenide cleavage, the levels of GSH or ROS are reduced, resulting in decreased or increased cell viability and either the synergistic or antagonistic death of cancer cells with an anticancer drug, respectively, because GSH and ROS trigger two conflicting functions (i.e., antioxidant vs prooxidant activity). Thus, this study designs a diselenide‐based drug carrier to determine which trigger is the major cause of diselenide degradation, how the disrupted balance between GSH and ROS levels influences cell viability and drug efficacy, and whether the combined use of a diselenide drug carrier and a drug has a synergistic or antagonistic effect. Using a multiple diselenide‐containing nanoparticle (MSePCL‐NP), the study shows that diselenide is cleaved to a greater extent by GSH than by ROS; MSePCL‐NP induces a greater decrease in the viability of cancer cells, but not normal cells; a combination of DOX@MSePCL‐NP synergistically kills cancer cells and inhibits tumor growth in vivo.

Topics & Concepts

DiselenideGlutathioneCytosolCancer cellViability assayReactive oxygen speciesDrug deliveryAntioxidantIntracellularCell biologyProgrammed cell deathBiochemistryPharmacologyChemistryMaterials scienceApoptosisBiologyCancerNanotechnologyEnzymeSeleniumOrganic chemistryGeneticsRedox biology and oxidative stressOrganoselenium and organotellurium chemistrySulfur Compounds in Biology