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Differential Nanoparticle Sequestration by Macrophages and Scavenger Endothelial Cells Visualized in Real-Time and at Ultrastructural Resolution. | LitMetric

AI Article Synopsis

  • The study investigates how nanoparticles are cleared from the bloodstream by the reticuloendothelial system, using transgenic zebrafish embryos for detailed imaging.
  • It reveals that macrophages and scavenger endothelial cells (SECs) sequester nanoparticles using different mechanisms; macrophages do so quickly, while SECs take longer and rely on different endocytosis processes.
  • Findings highlight that while macrophages are important for initial clearance, SECs significantly contribute to the process due to their larger numbers, and the efficiency of macrophages in clearing nanoparticles decreases when inflammation occurs.

Article Abstract

Despite the common knowledge that the reticuloendothelial system is largely responsible for blood clearance of systemically administered nanoparticles, the sequestration mechanism remains a "black box". Using transgenic zebrafish embryos with cell type-specific fluorescent reporters and fluorescently labeled model nanoparticles (70 nm SiO), we here demonstrate simultaneous three-color imaging of intravenously injected nanoparticles, macrophages, and scavenger endothelial cells (SECs). The trafficking processes were further revealed at ultrastructural resolution by transmission electron microscopy. We also find, using a correlative light-electron microscopy approach, that macrophages rapidly sequester nanoparticles membrane adhesion and endocytosis (including macropinocytosis) within minutes after injection. In contrast, SECs trap single nanoparticles scavenger receptor-mediated endocytosis, resulting in gradual sequestration with a time scale of hours. Inhibition of the scavenger receptors prevented SECs from accumulating nanoparticles but enhanced uptake in macrophages, indicating the competitive nature of nanoparticle clearance . To directly quantify the relative contributions of the two cell types to overall nanoparticle sequestration, the differential sequestration kinetics was studied within the first 30 min post-injection. This revealed a much higher and increasing relative contribution of SECs, as they by far outnumber macrophages in zebrafish embryos, suggesting the importance of the macrophage:SECs ratio in a given tissue. Further characterizing macrophages on their efficiency in nanoparticle clearance, we show that inflammatory stimuli diminish the uptake of nanoparticles per cell. Our study demonstrates the strength of transgenic zebrafish embryos for intravital real-time and ultrastructural imaging of nanomaterials that may provide mechanistic insights into nanoparticle clearance in rodent models and humans.

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Source
http://dx.doi.org/10.1021/acsnano.9b07233DOI Listing

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