6533b7d9fe1ef96bd126b991

RESEARCH PRODUCT

Nanocapsules generated out of a polymeric dexamethasone shell suppress the inflammatory response of liver macrophages.

subject

description

Abstract Dexamethasone (DXM) is a synthetic glucocorticoid with anti-inflammatory properties. Targeted delivery of dexamethasone to inflammatory cells, e.g. macrophages and Kupffer cells represents a promising approach to minimize side effects. The aim of the present study was to induce a targeted transport of novel DXM-based biodegradable nanocapsules to phagocytic cells. Nanocapsules (NCs) consisting of a hydroxyethylated glucose polymer (hydroxyethyl starch, HES) shell with encapsulated DXM and NCs synthesized exclusively in inverse miniemulsion out of DXM were investigated. Non-parenchymal murine liver cells served as target cells. HES-DXM NCs were predominantly incorporated by Kupffer cells (KCs). In contrast, DXM NCs were phagocytized by KCs and endothelial cells. The release of the NC-content was confirmed by incorporation of CellTracker™ into the NCs. Uptake of DXM NCs by Kupffer cells reduced significantly the release of inflammatory cytokines in response to LPS stimulation. Importantly, the DXM NCs consisting exclusively out of a dexamethasone shell offer the potential to serve as carriers for additional therapeutics. From the Clinical Editor In this paper, nanocapsule-based targeted delivery of dexamethasone to inflammatory cells is presented as a promising approach to minimize side effects and increase efficacy of this anti-inflammatory clinically used corticosteroid.