Abstract
Silica nanoparticles (NPs) are widely used in various industrial and biomedical applications. Little is known about the cellular uptake of co-exposed silica particles, as can be expected in our daily life. In addition, an inflamed microenvironment might affect a NP’s uptake and a cell’s physiological response. Herein, prestimulated mouse J774A.1 macrophages with bacterial lipopolysaccharide were post-exposed to micron- and nanosized silica particles, either alone or together, i.e., simultaneously or sequentially, for different time points. The results indicated a morphological change and increased expression of tumor necrosis factor alpha in lipopolysaccharide prestimulated cells, suggesting a M1-polarization phenotype. Confocal laser scanning microscopy revealed the intracellular accumulation and uptake of both particle types for all exposure conditions. A flow cytometry analysis showed an increased particle uptake in lipopolysaccharide prestimulated macrophages. However, no differences were observed in particle uptakes between single- and co-exposure conditions. We did not observe any colocalization between the two silica (SiO2) particles. However, there was a positive colocalization between lysosomes and nanosized silica but only a few colocalized events with micro-sized silica particles. This suggests differential intracellular localizations of silica particles in macrophages and a possible activation of distinct endocytic pathways. The results demonstrate that the cellular uptake of NPs is modulated in inflamed macrophages but not in the presence of micron-sized particles.
Highlights
In recent decades, the use of nanotechnology has increased in many industrial applications [1].Among different nanomaterials [2], silica (SiO2 ) nanoparticles (NPs) have attracted considerable attention in various applications due to their appealing physicochemical properties [3,4]
To elaborate on the existing knowledge, and since we can be exposed to multiple particles and inflammatory stimuli at the same time, we examined the combined effect of two different-sized silica particles on macrophage cellular uptake after stimulation with LPS
Understanding the behavior of different co-exposed particles in the human body is important for biomedical applications of these particles, as well as for their possible exposure to humans via for biomedical applications of these particles, as well as for their possible exposure to humans via the the use of NP-containing products
Summary
Among different nanomaterials (i.e., materials with any external dimensions in the nanoscale, 1–100 nm) [2], silica (SiO2 ) nanoparticles (NPs) have attracted considerable attention in various applications due to their appealing physicochemical properties [3,4]. Based on the structure defined by X-ray-diffraction spectroscopy [5], there are two main forms of silica: amorphous and crystalline. With its tunable properties and stability, is a promising candidate for biomedical applications, such as drug delivery and molecular imaging [6,7], and could be intentionally introduced into the human body for disease treatments and diagnosis [8]. Amorphous silica is used in the food industry to prevent poor flow in viscous products or “caking” in powdered products [9].
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