Abstract
BackgroundOleic acid (OA) is reported to show anti-inflammatory activity toward activated neutrophils. It is also an important material in nanoparticles for increased stability and cellular internalization. We aimed to evaluate the anti-inflammatory activity of injectable OA-based nanoparticles for treating lung injury. Different sizes of nanocarriers were prepared to explore the effect of nanoparticulate size on inflammation inhibition.ResultsThe nanoparticles were fabricated with the mean diameters of 105, 153, and 225 nm. The nanocarriers were ingested by isolated human neutrophils during a 5-min period, with the smaller sizes exhibiting greater uptake. The size reduction led to the decrease of cell viability and the intracellular calcium level. The OA-loaded nanosystems dose-dependently suppressed the superoxide anion and elastase produced by the stimulated neutrophils. The inhibition level was comparable for the nanoparticles of different sizes. In the ex vivo biodistribution study, the pulmonary accumulation of nanoparticles increased following the increase of particle size. The nanocarriers were mainly excreted by the liver and bile clearance. Mice were exposed to intratracheal lipopolysaccharide (LPS) to induce acute respiratory distress syndrome (ARDS), like lung damage. The lipid-based nanocarriers mitigated myeloperoxidase (MPO) and cytokines more effectively as compared to OA solution. The larger nanoparticles displayed greater reduction on MPO, TNF-α, and IL-6 than the smaller ones. The histology confirmed the decreased pulmonary neutrophil recruitment and lung-architecture damage after intravenous administration of larger nanoparticles.ConclusionsNanoparticulate size, an essential property governing the anti-inflammatory effect and lung-injury therapy, had different effects on activated neutrophil inhibition and in vivo therapeutic efficacy.
Highlights
Oleic acid (OA) is reported to show anti-inflammatory activity toward activated neutrophils
This study focused on the role of neutrophils in lung injury, the other cells related to acute respira‐ tory distress syndrome (ARDS) cannot be overlooked
We examined how the particulate size of OA nanocarriers influences inflammation suppression and the therapeutic efficiency on lung injury
Summary
Oleic acid (OA) is reported to show anti-inflammatory activity toward activated neutrophils. It is an important material in nanoparticles for increased stability and cellular internalization. Different sizes of nanocarriers were prepared to explore the effect of nanoparticulate size on inflammation inhibition. Oleic acid (OA) is a monounsaturated omega-9 fatty acid that is abundant in plant and animal fats This fatty acid can have both favorable and unfavorable effects in the immune system. Our previous study [2] demonstrated the effectiveness of OA for inhibiting upregulated superoxide anion and elastase in activated neutrophils. Our previous investigation [7] showed that OA loading in cilomilast-containing lipid nanocarriers could synergize the inhibition of psoriatic inflammation. In addition to the role as an active ingredient, OA can be a stabilizing and emulsifying agent in nanoparticles to produce highly uniform nanosystems [8,9,10]
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