Медицинская иммунология (Sep 2024)
Influence of pegylated graphene oxide nanoparticles on the respiratory burst and phagocytic activity of human neutrophils
Abstract
Scientific and technological progress contributes to the discovery and production of innovative materials. The emergence of graphene is a clear example of this. Graphene is considered a promising material for use in nanobiomedicine and nanobiotechnology. It is therefore important to understand how it affects human immune cells. In a study, the effects of 5 and 25 μg/mL graphene oxide nanoparticles with lateral sizes of 100-200 nm and 1-5 μm, modified with linear and branched polyethylene glycol, on human neutrophils were investigated. The formation of reactive oxygen species was evaluated with a lucigenin as a chemiluminescence activator.Inaddition, we investigated theeffect of a 60-minute incubation of neutrophils with pegylated graphene oxide nanoparticles on the viability of these cells by staining with trypan blue and a 30-minute incubation on the uptake of fluorescein isocyanate-labelled E. coli. The percentage of neutrophils which engulfed E. coli and the uptake index were determined. Samples without added nanoparticles served as controls.A decrease in lucigenin-enhanced chemiluminescence of neutrophils was observed under the influence of two types of graphene oxide nanoparticles: 1-5 μm in size coated with linear polyethylene glycol, and 100-200 nm in size coated with branched polyethylene glycol, at a concentration of 25 μg/mL in the zymosan-stimulated version of the assay. No dependence of the effect on the particle size and the type of polyethylene glycol was observed. The indicators for spontaneous chemiluminescence of neutrophils did not change with the addition of PEGylated graphene oxide nanoparticles.A thirty-minute incubation of human neutrophils at 37 °C with PEGylated graphene oxide nanoparticles with lateral dimensions of 100-200 nm and 1-5 μm had no effect on the viability of these cells and on the percentage of neutrophils that engulfed E. coli. However, 1-5 μm graphene oxide modified with linear polyethylene glycol at a concentration of 25 μg/mL increased the amount of E. coli engulfed by neutrophils per cell.Thus, in the absence of cytotoxicity, PEGylated graphene oxide particles have multidirectional immunomodulatory effects on neutrophils. In this case, their concentration is decisive and not the size of the graphene oxide particles and the type of polyethylene glycol.
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